NEC GT2000, GT2000R user manual Standard Zoom Lens Wide

Page 22

Standard Zoom Lens (Wide)

α

Degree

 

9.0

8.9

8.8

8.8

8.8

8.7

8.7

8.7

8.7

8.6

8.6

 

8.6

8.6

β (sin= α)

 

 

0.16

0.15

0.15

0.15

0.15

0.15

0.15

0.15

0.15

0.15

0.15

 

0.15

0.15

γ (cos= α)

 

 

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

 

0.99

0.99

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Screen Size

inch

 

32

48

56

64

72

80

96

120

144

160

192

 

216

240

H–Width

mm

 

812.8

1219.2

1422.4

1625.6

1828.8

2032

2438.4

3048

3657.6

4064

4876.8

 

5486.4

6096

4 : 3 Diagonal

inch

 

40

60

70

80

90

100

120

150

180

200

240

 

270

300

 

mm

 

1016

1524

1778

2032

2286

2540

3048

3810

4572

5080

6096

 

6858

7620

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

A

mm

 

1557

2377

2787

3197

3608

4018

4838

6069

7300

8120

9761

 

10992

12223

inch

 

61.3

93.6

109.7

125.9

142.0

158.2

190.5

238.9

287.4

319.7

384.3

 

432.76

481.2

 

 

 

B

mm

 

329

451

512

573

634

695

818

1001

1184

1306

1550

 

1733

1916

inch

 

13.0

17.8

20.2

22.6

25.0

27.4

32.2

39.4

46.6

51.4

61.0

 

68.2

75.4

 

 

 

C

mm

 

1537

2349

2754

3160

3566

3971

4783

6000

7217

8028

9651

 

10868

12085

inch

 

60.5

92.5

108.4

124.4

140.4

156.4

188.3

236.2

284.1

316.1

380.0

 

427.9

475.8

 

 

 

F

mm

 

-25

6

21

36

51

67

97

142

188

218

279

 

324

370

inch

 

-1.0

0.2

0.8

1.4

2.0

2.6

3.8

5.6

7.4

8.6

11.0

 

12.8

14.6

 

 

 

Formulas (mm)

 

 

 

 

 

 

Formulas (inch)

 

 

 

 

 

H mm=Horizontal Screen Width

 

 

 

 

H inch=Horizontal Screen Width

 

 

C = [(53.2×H) / 26.6]– 85.4

 

 

 

 

C = [(50.7×H)– 85.4] / 25.4

 

 

α= Tan-1(8×H) / (26.6×C)

 

 

 

 

 

α

-1

 

 

 

 

 

 

A =C / cosα

 

 

 

 

 

 

 

= Tan

(8×H) / (26.6×C)

 

 

 

 

 

 

 

 

 

 

α

 

 

 

 

 

B= 85.2 + [(8×H) / 26.6]

 

 

 

 

 

A =C / cos

 

 

 

 

 

 

 

 

 

 

B = [85.2 + (7.6×H )] / 25.4

 

 

F = (0.375×H) – B

 

 

 

 

 

 

F = (0.375×H )– B

 

 

 

 

A : Distance between the lens and the screen center

 

 

 

 

 

 

 

 

 

 

B : Vertical distance between the projector bottom and the screen center

C : Horizontal throw distance between the screen surface and the lens

F : Vertical distance between the projector bottom and the top of image

Standard Zoom Lens (Tele)

α

Degree

7.0

6.8

6.8

6.8

6.8

6.7

6.7

6.7

6.7

6.7

6.7

6.7

6.6

β (sin= α)

 

0.12

0.12

0.12

0.12

0.12

0.12

0.12

0.12

0.12

0.12

0.12

0.12

0.12

γ (cos= α)

 

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

0.99

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Screen Size

inch

32

48

56

64

72

80

96

120

144

160

192

216

240

H–Width

mm

812.8

1219.2

1422.4

1625.6

1828.8

2032

2438.4

3048

3657.6

4064

4876.8

5486.4

6096

4 : 3 Diagonal

inch

40

60

70

80

90

100

120

150

180

200

240

270

300

 

mm

1016

1524

1778

2032

2286

2540

3048

3810

4572

5080

6096

6858

7620

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

A

mm

2013

3075

3606

4137

4668

5199

6260

7853

9446

10508

12631

14224

15817

inch

79.3

121.1

142.0

162.9

183.8

204.7

246.5

309.2

371.9

413.7

497.3

560.0

622.7

 

B

mm

329

451

512

573

634

695

818

1001

1184

1306

1550

1733

1916

inch

13.0

17.8

20.2

22.6

25.0

27.4

32.2

39.4

46.6

51.4

61.0

68.2

75.4

 

C

mm

1999

3053

3581

4108

4635

5163

6217

7800

9382

10436

12546

14128

15710

inch

78.7

120.2

141.0

161.7

182.5

203.3

244.8

307.1

369.4

410.9

493.9

556.2

618.5

 

F

mm

-25

6

21

36

51

67

97

142

188

218

279

324

370

inch

-1.0

0.2

0.8

1.4

2.0

2.6

3.8

5.6

7.4

8.6

11.0

12.8

14.6

 

Formulas (mm)

H mm=Horizontal Screen Width

C= [(53.2×H / 26.6) – 85.4]×1.3 α= Tan-1(8×H) / (26.6×C)

A =C / cosα

B = 85.2 + [(8×H )/ 26.6] F = (0.375×H) – B

A : Distance between the lens and the screen center

B : Vertical distance between the projector bottom and the screen center

C : Horizontal throw distance between the screen surface and the lens

F : Vertical distance between the projector bottom and the top of image

Formulas (inch)

H inch=Horizontal Screen Width

C= {[(50.7×H)– 85.4]×1.3} / 25.4 α= Tan-1(8×H) / (26.6×C)

A =C / cosα

B= [85.2 + (7.6×H )] / 25.4 F = (0.375×H) – B

E-22

Image 22
Contents MultiSync GT2000/GT2000R Important Information InstallationPower Supply RF InterferenceLamp Replacement CleaningFire and Shock Precautions Importantes précautions de sécurité DOC avis de conformationAlimentation Nettoyage Remplacement de la lampePrécautions pour éviter un incendie ou une électrocution Limited Warranty USA and Canada only Table of Contents Introduction What’s In The Box?Getting To Know Your MultiSync GT2000/GT2000R LCD Projector Top Features Terminal Panel Features Remote Input Mini Jack Remote 1 Connector Mini D-Sub 15 pinExternal Control Connector Mini D-Sub 15 pin Video Input RCARemote Control Features Brightness SetupContrast NormalCTLControl Zoom Magnify/Reduce with CTLRemote Jack Remote Control Notes Attaching the supplied ferrite clampInstallation Setting Up Your MultiSync GT2000/ GT2000R LCD ProjectorUsing a Tabletop Or Cart To adjust the focus on GT2000RDistance Chart GT2000 Standard Zoom Lens Wide Standard Zoom Lens TeleCeiling Installation Standard Zoom Lens Wide Rear Screen Projection Reflecting The ImageGT2000R GT2000R Wiring Diagram ConnectionsInterface Remote 2/PC ConnectorPC Control BitsCommand Communications Sequence ACK Projector to PCSystem Connections Diagram GT2000 ISS-6020 GT2000R Connections with One ISS-6020 SwitcherDIP Switch Settings Slide Switch Settings Connections with Multiple ISS-6020 SwitcherSystem Connections Diagram ISS-6020 Master GT2000RConnecting Multiple Projectors RGB interface Signal distributorOperating Multiple Projector with Remote Control EXT-CTL Pin Assignments Pin No SignalName FunctionExternal Control Control MethodConnecting a Single ISS-6020 Switcher Connecting Multiple ISS-6020 SwitchersGeneral Controls OperationGetting started Adjust the Screen Size and then Adjust the Focus On-screen Input SelectionDefault Settings of the Settings Menu Setup Various SettingsSelecting the On-screen Language Selecting the Automatic Memory Save Function Auto Save Selecting Auto Start Auto StartSelecting the On-screen Display ON/OFF On-screen Mute Selecting the Switcher Control Method Switcher Control Setting the Projector ID Number Projector IDSync Signal Termination Setting Sync Termination Selecting the Projector’s Projection Method Pro- jectionAdjusting Keystone Adjustment Keystone Setting Keystone Save Keystone SaveAdjusting the brightness of the picture Brightness Adjustment of the PictureAdjusting the contrast of the picture Contrast Returning to Standard AdjustmentsUsing Digital Zoom Function Using Digital EnlargementTemporarily Turning Off the On-screen Menu Display Remote Control Address Setting Adjusting Keystone DistortionReturning the RGB Input Signal to the Stan- dard Adjustment Temporarily Turning Off the Picture and Au- dioAdjusting the Picture and the Audio Picture Default Picture SettingsAdjusting the White Balance White Balance Adjusting the Volume VolumeReturning the Picture Adjustments to the Stan- dard Settings Selecting the Image Mode Image ModeSelecting the Scan Mode Scan Mode Selecting Smoothing InterpolationSelecting RGB/YCbCr RGB/YCbCr Direct SelectionDefault Screen Adjustment Settings Adjusting the Screen AlignmentScreen Adjustment Procedure Adjusting the Horizontal Position Adjusting the Vertical PositionAdjusting the Clock Frequency Picture Adjust Adjusting the Horizontal Phase Fine Picture Adjusting the Horizontal Amplitude Adjusting the Vertical AmplitudeReducing Noise Image Filter Vertical PhaseSkew Correction Sync Position Adjusting the Alignement Automatically Auto AlignmentClamp Timing Types of Memory Using User Memory and Channel Memory MemoryAutomatic Searches of Memory Memory Selection and Item Contents Selecting Memory DisplaySelecting User Memory Selecting the Various Items and SwitchersSelecting Channel Memory Storing the Adjustment Data Store Retrieving All the Data Data Reading of Registration Signals LoadRetrieving Data Other than Source Data Copying All the Data Entry Copy Moving Data Entry Move Deleting a Range of Data Entry Delete Page Changing the Signal Name Name Editing the Memory Contents Source EditPreparations Prior to Editing and Closing the Editing Example Enter XGA Correrspondence Table for Number Buttons and LettersChanging the Image Mode Image Changing the Slot Number of the Switcher SlotSetting the Skip Skip Setting Auto Search Forced Lock Source Lock Off Auto search will be effective. NormalViewing the Details of the Input Signal Display Menu Before Using the Switcher Control Functions Controlling the Switcher SwitcherDetailed list of memory Returning the Picture Adjustment to the Standard Set- tings Default Settings of the SwitcherSwitcher Picture Adjustment Setting the Volume Volume Audio Control of the SwitcherReplacing The Lamp MaintenanceTo check and reset the lamp usage time To replace the lampRemote Control Battery Installation Cleaning Or Replacing The FilterInstalling the Remote Control Batteries Pour remplacer la lampe EtapeNettoyage ou remplacement du filtre Installation des piles de la télécommandeTroubleshooting Status Light MessagesCommon Problems & Solutions Problem Check These ItemsElectrical SpecificationsOptical MechanicalCabinet Dimensions GT2000Sub Pin Assignments PC 15-Pin mini D-SubDisplayable Video Signals HdtvPC Control Command Reference Command CodesInterpolation Change Default Standard Memory Search Lamp Usage Reset

GT2000, GT2000R specifications

The NEC GT2000 and GT2000R are renowned projectors that have established themselves in the realm of high-performance visual equipment, catering primarily to the needs of businesses and educational institutions. These projectors are celebrated for their exceptional image quality, versatility, and advanced features, making them a popular choice among users seeking reliability and performance.

One of the primary features of the GT2000 series is its high brightness capability. With a brightness of up to 2,500 ANSI lumens, these projectors can deliver clear and vibrant images even in well-lit environments, ensuring that presentations and lectures maintain their visual integrity regardless of ambient light conditions. This makes them ideal for large conference rooms and classrooms where visibility is crucial.

The GT2000 series also boasts impressive resolution specifications. The GT2000 offers a native resolution of XGA (1024x768 pixels), while the GT2000R enhances this to a WXGA (1280x800 pixels), providing a wider aspect ratio and higher detail for images. This improved resolution is particularly beneficial for displaying detailed graphics, charts, and videos, making them suitable for a variety of presentation types.

In terms of connectivity, the GT2000 and GT2000R projectors are equipped with multiple input options including VGA, composite video, and audio inputs. This versatility allows for seamless integration with various devices, such as laptops, DVD players, and even mobile devices, further enhancing their usability in different settings.

Another noteworthy characteristic of the GT2000 series is its advanced color reproduction technology. NEC employs a 3LCD technology in these projectors, which ensures vibrant colors and deep blacks, resulting in images that are both engaging and lifelike. This technology minimizes the possibility of color distortion, offering consistent and accurate color performance.

Users will also appreciate the long lamp life offered by the GT2000 and GT2000R, with lamps typically lasting up to 5,000 hours in eco mode. This not only reduces maintenance costs but also enhances the overall efficiency of the projector.

In conclusion, the NEC GT2000 and GT2000R projectors are equipped with a robust set of features, from high brightness and resolution to advanced connectivity options and color accuracy. Their durability and reliability make them ideal for professional and educational environments, meeting the demands of users who require high-quality projections for effective communication and learning.