ET-DLE030

Ultra Short Throw Lens ET-DLE030

Product Overview

By mounting the newly developed ET-DLE030 ultra-short-throw lens onto Panasonic's 1-chip DLP™ projector*, you can shorten the projection distance by approximately 60 % compared with our ET-DLE085 and ET-DLE080 short throw lenses.
This huge savings in space lets you project images in spots where you previously could not—such as places where the ceiling is too high, or where there is not enough front or rear space for projecting.

* See the specifications for applicable projectors.

The Ultra-Short-Throw Lens Solves “Space” Issues and Adds High Brightness
The Ultra-Short-Throw Lens Solves “Space” Issues and Adds High Brightness

NOTE: In order to provide an exhaust/intake cooling space at the rear/front of the projector, an unobstructed space of 500 mm (19-11/16 in)
or more for ventilation above is recommended to have. Please completely separate exhaust/intake air flow.

Application Example

The ET-DLE030 ultra-short-throw lens makes it possible to install projectors in spaces that were never before possible.
Thus applications greatly expand for digital signage in show windows, stores, train stations, and other locations.

Digital Signage for Retail Store Displays

Large images can be projected onto a screen at the back of a shallow show window without blocking the view of the products on display.

 This is an example of front projection from above.
Digital Signage for Train Stations

Projection onto a large screen becomes possible even in places where there wasn't previously enough space for front projection.

 This is an example of landscape front projection.
Digital Signage (Portrait Rear Projection)

Dead space, such as pillars, can be used to save space compared to conventional installations.

 This is an example of portrait rear projection.
Staging

Large-screen projection becomes possible in places where the ceiling was previously too high, or the stage was too shallow.

 This is an example of multiscreen* front projection. * Possible only with models equipped with the Edge Blending function.
Amusement
Advanced image content can also be displayed in facilities where there previously wasn't enough space to install a projector, greatly increasing the power of the attraction.
Also, combined with projection from under the floor onto the floor surface, or projection onto the ceiling virtually wraps visitors in the image.
 This is an example of front projection from above, and rear projection from below onto the floor surface.

NOTE: Due to lens characteristics, some screen types may be subject to focusing problems or strong hot spots where large differences in brightness
occur between the hot spots and surrounding areas. If this should occur, please ask a qualified technician or your dealer for solutions.

Specifications

Model ET-DLE030
F value 2.0
Focal length (f:) 5.3 mm
Dimensions (W x H x D) 132 x 102 x 311 mm (5-3/16 x 4-1/32 x 12-1/4 in)
Weight Approx. 1.3 kg (2.9 lbs)

Applicable Projectors and Optional Accessories

Applicable projectors PT-DZ870/DW830/DX100
PT-DZ770/DW740/DX810
PT-DZ680/DW640/DX610
PT-DZ6710/DZ6700/DW6300/D6000/D5000
Recommended optional
accessories

Ceiling mount bracket with
6-axis adjustment mechanism for
high ceiling

ET-PKD130H

ET-PKD130H

Attachment for ceiling
mount bracket

ET-PKD130B

ET-PKD130B

* The ET-PKD130H ceiling mount bracket is used together
with an optional attachment ET-PKD130B (sold separately).

Standard Setting-up Positions

  •  PT-DZ870/DZ770/DZ680/DZ6710/DZ6700
  •  PT-DW830/DW740/DW640/DW6300
  •  PT-DX100/DX810/DX610/D6000/D5000
Dimension definitions

NOTE: L4 is not the distance from the projector’s rear panel to a wall, but the distance from the projector’s rear panel to the screen. Provide an exhaust cooling space of 500 mm (1 foot 8 inches) or more between the rear panel of the projector and a wall or other obstruction. If installing it in an enclosed space, add a separate air conditioning or ventilation system. If ventilation is insufficient, exhaust heat may accumulate and trip the projector’s protective circuit.

  • L1: Projection distance
    (from screen to mirror reflective surface)
  • L2: From screen to tip of lens
  • L3: From screen to front of set
  • L4: From screen to rear of set
  • A1: From bottom edge of screen to top of set
  • A2: From bottom edge of screen to bottom of set

Caution:

  • • All construction work should be done by a qualified technician.
  • • When mounting to the ceiling, use the special mounting bracket. Furthermore, in order to prevent it from falling down from the ceiling, use the supplied wire on the mounting bracket.

PT-DZ870/DZ770/DZ680/DZ6710/DZ6700

Projection distance (screen aspect ratio 16:10)

Calculation of the Projection distance: Screen aspect ratio 16:10

Projection distance calculation formula

L1 (m) =0.00814 x Diagonal image size + 0.00467

Calculation formula for distance from top of set to bottom edge of screen

DZ870
A1 (m) =0.00502 x Diagonal image size - 0.07210
DZ770/DZ680/DZ6710/DZ6700
A1 (m) =0.00502 x Diagonal image size - 0.06710

PT-DW830/DW740/DW640/DW6300

Projection distance (screen aspect ratio 16:10)

Calculation of the Projection distance: Screen aspect ratio 16:10

Projection distance calculation formula

L1 (m) =0.00855 x Diagonal image size + 0.00467

Calculation formula for distance from top of set to bottom edge of screen

DW830
A1 (m) =0.00660 x Diagonal image size - 0.07396
DW740/DW730/DW640/DW6300
A1 (m) =0.00660 x Diagonal image size - 0.06896

PT-DX100/DX810/DX610/D6000/D5000

Projection distance (screen aspect ratio 4:3)

Calculation of the Projection distance: Screen aspect ratio 4:3

Projection distance calculation formula

L1 (m) =0.00796 x Diagonal image size + 0.00467

Calculation formula for distance from top of set to bottom edge of screen

DX100
A1 (m) =0.00478 x Diagonal image size - 0.07149
DX810/DX800/DX610/D6000/D5000
A1 (m) =0.00478 x Diagonal image size - 0.06649