Compact 3-chip dlp®-based light engine by sim2 – Sim2 Multimedia DLP Video Projector C3X Link User Manual

The core and most critical component

in a Home Cinema Front Projection

unit has always been its light engine.

Image accuracy of a projector is

governed by the quality of this piece

of precision optical engineering.

A delicate balance is required

between light engine, DLP® chipset

and control electronics, in order to

optimize the performance of each.

SIM2 developed a new innovative

system to re-size the illumination

optical path while maintaining its

length (necessary for correct picture

aberration control) and SIM2’s famous

compact design (required for

installation and interior-design

constraints).

Compact 3-chip DLP®-based light

engine by SIM2

SIM2 Alpha Path Light Engine:

A basic feature of SIM2’s system

is its compact structure, which

is obtained by overlapping the

optical light-path to the projection

lens (hence the name of

ALPHA-type structure).

SIM2’s Alpha Path Light Engine:

DMD chip (Red)

DMD chip (Green)

DMD chip (Blue)

High quality, spurious particles-free
glass lens

Lamp

This folded light path, patented and

named ALPHA Path™, is the result of

SIM2's advanced optical and thermal

analysis.

Accurate management of the internal

light path, without any kind of

scattering or thermal dispersion, is

achieved by utilizing a special coating

on the inner surface, together with the

prisms' TIR (Total Internal Reflection)

control and optimized Relay Optics.

SIM2 customized optical components,

lenses and prisms, are used

throughout for optimum performance.

The DarkChip™3, coupled with SIM2’s

light engine, delivers excellent contrast

(6500:1 typical for the Grand Cinema

C3X and C3X LINK models and

5500:1 typical for the C3X LITE) and

image richness.

SIM2 Thermal Management

Accurate thermal and fluid-dynamics

analysis was carried-out by SIM2’s

R&D department during the design of

Grand Cinema™ C3X, this aided in

the creation of a light engine that

avoids excessive light spill and

overheating of the light path.

Cooling of the projector is particularly

clever, with side mounted intakes and

exhausts, efficient fans and an

innovative ‘heat pipe’ – a heat transfer

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Raytracing: The picture illustrates
raytracing used to identify stray light
sources inside the optical path and
prism assembly. Accurate simulations
modelling ON and OFF DMD states and
coating on prisms surfaces have been
performed to evaluate DMD diffraction
and risk of ghost images, as well as to
optimize contrast. Color splitting and
recombining has been fully modelled to
guarantee highest efficiency and purity
of colors.

mechanism that can transfer large

quantities of heat away from the light

path - all forming the cooling system.

All this adds up to one of the quietest

- and coolest - projectors on the

market.