CSR

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CSR NEW SS Lamps 15th October 2004

• Eddie Guest European General Manager

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Agenda

• Introduction To GE Technology
• Current Entertainment Discharge Range
• New Developments 2004 / 2005
• 80V 1200W Lamps
• VOC, Conceptual Designs and future directions
  Discussion

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GE Technology Platforms
Thin Films CMH leadership 3 Piece Chromised
foils tech to 5000C Filament Modelling Dosing
Technologies GE Corporate Research
Facilities IP Gases / Materials Vertical
Manufacturing
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Current Range Of Discharge Lamps
Also T Version Available CCT same, colour point
different
Available ? In Development ?
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Process
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Each review has a check list independent
reviewers technology OCE
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5. Safety Closure and Toxicity

• Updated Safety Checklist is shown below, Safety
  Review Checklist documented in ePDM GE2005-1225.
• Toxicity Followed SI 900000 Section 4 procedure.

Each checklist item supported at review by one or
more charts showing extracts from charts
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Performance CTQs Scorecard from PVP
Each checklist item supported at review by one or
more charts showing extracts from charts
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12. DBR update ownership

• Team members documented or will document design
  and validation files
• Technical Spec update in ePDM GE2005-1285..
  Ping Huang
• DVP Test Plan update in ePDM GE2005-5442.
  ..Barry Preston
• DVP Test Data update in ePDM GE2005-5442.
  ..Barry Preston
• PVP Test Plan update in ePDM GE2005-5447
  Barry Preston
• PVP Test Data update in ePDM GE2005-5447..
  ..Barry Preston
• Quality Plan documents update in ePDM
  GE2005-5455..Paolo Reyes/Ping Huang
• Safety Checklist in ePDM GE2005-5231..
  Ping Huang
• Presentation files in ePLM..Ping
  Huang

Each checklist item supported at review by one or
more charts showing extracts from charts
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400W DE/S Results
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400W DE/S Results
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400W DE/S Results
GE Product compared to Other Test Results
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LDI 2004 New Product Introductions

• CSR/CSD
• CSR18000/SE/HR
• CSR800/SE/HR UV control
• CSR400/S/DE
• CSR575/S/DE
• CSR700/S/DE
• CSR1200/S/DE high seal temperature
• Halogen
• HX5000 axial
• HX1500/750 twin filament

• Ceramic Metal Halide
• CMH150PAR56 3000K and 4200K
• CMH150/SA 4200K
• Cinema Fluorescent
• T8 High Output Lamp and Ballast 3200K 5600K
• F36BX Cinema Plus 3200K 5600K

Market Trends

• Moving Lights
• Hot Restrike
• Higher CCT ?
• Reliability
• Double ended vs. single ended
• Higher seal temperatures

• Architectural Lighting
• Reliability
• Longer Life
• Optical control

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OC 1200
OVERVIEW OF GE OPTIMUM CURRENT (OC) TECHNOLOGY
The Optimum Current (OC) concept was first
suggested by Thorn Lighting (now GE Lighting) as
a method of improving the efficiency of
entertainment lighting fixtures in 1990. At that
time although the lamp/luminaire improvements
were achievable, the facilitating electronics
were considered to be the roadblock. Since then
electronic technology has improved, competition
with discharge products has increased, and with
the introduction of affordable power MOSFETs, and
dual voltage chips, interest has
reawakened. Two companies, Selecon in 2000
(Theatre), and Amptown (Moving Light) in 2003,
have announced fixtures which use the OC1200
(order code 91580), the first commercially
available Optimum Current lamp from GE using this
concept. OC lamps can be designed to be future
safe and be suitable for any later Infra-Red
recovery options. Other types are available or
can be designed to meet a specific OEM
requirement.
OC TECHNOLOGY REPRESENTS A SIGNIFICANT
PERFORMANCE GAIN FOR HALOGEN
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OC 1200
EFFECT OF WIRE DIAMETER ON EFFICACYAt Constant
Filament Life (schematic)
Efficacy
Wire Diameter
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OC 1200
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OPTIMUM CURRENT LAMPSDrivers and Barriers
OC 1200
Contribution margin
Lamp performance
Speed to market
OPTIMUM
Barriers Seal temperature Increased losses
Cost of electronics Lamp geometry Electronic
materials Component availability
Drivers Life at required efficacy Wire size
Manufacturability Beam efficiency Hot shock
resistance Power saving ability
Increasing Current
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OC 1200
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OC 1200 Coiled coil