background image

Unit : meters

0.38:1

(0.4:1)

100
120
150
200
250
300
350

100
120
150
200
250
300
350

2.54
3.05
3.81
5.08
6.35
7.62
8.89

1.25
1.49
1.87
2.49
3.11
3.74
4.36

2.21
2.66
3.32
4.43
5.54
6.64
7.75

Unit : feet

2.54
3.05
3.81
5.08
6.35
7.62
8.89

4.1
4.9
6.1
8.2

10.2
12.3
14.3

7.3
8.7

10.9
14.5
18.2
21.8
25.4

Throw ratio

Diagonal

image

size

(Inches)

Diagonal

image

size

(m)

Height 

(SH)

Width 

(SW)

Ultra-short focal length lens     ET-DLE030

Close-up system dimensions

 

0.84 

0.86 

0.68 

0.16 

0.51 

0.71

 

1.01 

1.03 

0.84 

0.33 

0.63 

0.83

 

1.26 

1.28 

1.09 

0.58 

0.81 

1.01

 

1.68 

1.70 

1.51 

1.00 

1.10 

1.30

 

2.10 

2.12 

1.93 

1.42 

1.39 

1.59

 

2.52 

2.54 

2.35 

1.84 

1.68 

1.88

 

2.93 

2.95 

2.77 

2.25 

1.98 

2.18

 

2.8 

2.8 

2.2 

0.5 

1.7 

2.3

 

3.3 

3.4 

2.8 

1.1 

2.1 

2.7

 

4.1 

4.2 

3.6 

1.9 

2.6 

3.3

 

5.5 

5.6 

5.0 

3.3 

3.6 

4.3

 

6.9 

7.0 

6.3 

4.6 

4.6 

5.2

 

8.3 

8.3 

7.7 

6.0 

5.5 

6.2

 

9.6 

9.7 

9.1 

7.4 

6.5 

7.1

From bottom of set 

to bottom edge of 

screen (A2)

From top of set to 

bottom edge of 

screen (A1) 

From rear of 

set to screen 

(L4) 

From front of 
set to screen

(L3)

From tip of 

lens to screen

(L2)

Projection distance 

(From mirror reflective 

surface to screen) 

(L1)

0.38:1

(0.4:1)

Throw ratio

Diagonal

image

size

(Inches)

Diagonal

image

size

(m)

Height 

(SH)

Width 

(SW)

Ultra-short focal length lens     ET-DLE030

Close-up system dimensions

From bottom of set 

to bottom edge of 

screen (A2)

From top of set to 

bottom edge of 

screen (A1) 

From rear of 

set to screen 

(L4) 

From front of 
set to screen

(L3)

From tip of 

lens to screen

(L2)

Projection distance 

(From mirror reflective 

surface to screen) 

(L1)

Projection Distance Calculation Table
Screen aspect ratio 16:9

L1 (m) = 0.3294 x 

Diagonal image size 

+ 0.0047

Projection distance calculation formula

A1 (m) = 0.2304 x 

Diagonal image size

 - 0.07210

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

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

S

cr

ee

n

A1

A2

L4

L1

L3

L2

*  The value for L1 may contain an error of within ±5%.
*  When using vertical keystone correction, the images will be corrected so that they will tend to be smaller than the specified screen size. 
*  This measurement is not the distance between the rear of the projector and the wall, but is instead the distance between the rear of the projector and the screen surface.
  Leave at least 500 mm of space between the rear of the projector and the wall and any other objects in order to provide adequate ventilation space. If setting up the 

projector in a closed room, be sure to provide separate air conditioning and ventilation equipment. If there is insufficient ventilation in the room, radiated heat may build up 
and cause the protection circuit of the projector to operate.

Projection distance for 16:9 aspect ratio screen (If using the ET-DLE030)

PT-

DZ870K

/

DZ870W

/

DZ870LK

/

DZ870LW

DLP

TM

 Projector

As of September 2013

1 2 / 2 5

SFD13M004-2

Summary of Contents for PT-DZ870K

Page 1: ...Product Number PT DZ870K DZ870W PT DZ870LK DZ870LW Product Name DLP Projectors S P E C F I L E 1 2 5 SFD13M004 2 As of September 2013 Specifications and appearance are subject to change without notice ...

Page 2: ... 50 kHz fV 60 Hz 625p 576p fH 31 25 kHz fV 50 Hz 750 720 60p fH 45 00 kHz fV 60 Hz 750 720 50p fH 37 50 kHz fV 50 Hz 1125 1035 60i fH 33 75 kHz fV 60 Hz 1125 1080 60i fH 33 75 kHz fV 60 Hz 1125 1080 50i fH 28 13 kHz fV 50 Hz 1125 1080 25p fH 28 13 kHz fV 25 Hz 1125 1080 24p fH 27 00 kHz fV 24 Hz 1125 1080 24sF fH 27 00 kHz fV 48 Hz 1125 1080 30p fH 33 75 kHz fV 30 Hz 1125 1080 60p fH 67 50 kHz fV ...

Page 3: ...ic NOTE SYNC HD and VD terminals do not accept tri level sync signals Y 1 0 Vp p including sync signal PB PR CB CR 0 7 Vp p 75 ohms BNC 1 1 0 Vp p 75 ohms BNC 1 1 0 Vp p 75 ohms Input TTL high impedance Output TTL max 10 mA BNC 1 1 0 Vp p 75 ohms TTL max 10 mA 525i 480i 4 625i 576i 4 525p 480p 625p 576p 750 720 60p 750 720 50p 1125 1080 60i 1125 1080 50i 1125 1080 25p 1125 1080 24p 1125 1080 24sF ...

Page 4: ...870K DZ870W PT DZ870LK DZ870LW Operation noise 2 7 Operating temperature Operating humidity 3 0 m 9 ft 10 in Molded plastic 498 200 6 556 mm 19 19 32 7 7 8 6 21 7 8 inches with supplied lens 498 200 6 513 mm 19 19 32 7 7 8 6 20 3 16 inches without lens Approx 18 3 kg 40 3 lbs with supplied lens Approx 17 6 kg 38 8 lbs without lens 40 dB dual lamp operation LAMP MODE NORMAL 35 dB dual lamp operatio...

Page 5: ...nt measuring conditions and method of notation all comply with ISO 21118 international standards 6 With 7 Average value May differ depending on models legs at shortest position 8 The operating temperature range is 0 C to 40 C 32 F to 104 F when the fan control is set to High Altitude mode for altitudes from 1 400 m to 2 700 m 4 593 ft to 8 858 ft above sea level Also if the ambient temperature exc...

Page 6: ...upplied lens 44 mm 1 23 32 in with the ET DLE150 27 mm 1 1 16 in with the ET DLE055 2 Adjustable in 40 mm 1 9 16 in steps NOTE Illustrations show the projector installed using optional ceiling mount bracket ET PKD120H optional bracket assembly ET PKD130B PKD120B and an optional lens This illustration is not drawn to scale 2 340 420 13 3 8 16 17 32 45 mm 1 25 32 in with the ET DLE250 51 mm 2 in wit...

Page 7: ...nter of lens H min max min max min max ET DLE150 Zoom lens min max ET DLE085 Zoom lens Supplied lens ET DLE250 Zoom lens ET DLE350 Zoom lens ET DLE450 Zoom lens ET DLE055 Fixed focus lens 1 27 1 52 1 78 2 03 2 29 2 54 3 05 3 81 5 08 6 35 7 62 10 16 12 70 15 24 m in 50 60 70 80 90 100 120 150 200 250 300 400 500 600 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 3 1 6 1 8 2 0 2 2 2 7...

Page 8: ...nter of lens H min max min max min max ET DLE150 Zoom lens min max ET DLE085 Zoom lens Supplied lens ET DLE250 Zoom lens ET DLE350 Zoom lens ET DLE450 Zoom lens ET DLE055 Fixed focus lens 1 27 1 52 1 78 2 03 2 29 2 54 3 05 3 81 5 08 6 35 7 62 10 16 12 70 15 24 m in 50 60 70 80 90 100 120 150 200 250 300 400 500 600 0 2 0 3 0 3 0 3 0 4 0 4 0 5 0 6 0 8 1 0 1 2 1 6 2 0 2 5 1 0 1 2 1 4 1 6 1 8 2 0 2 5...

Page 9: ...enter of lens H min max min max min max ET DLE150 Zoom lens min max ET DLE085 Zoom lens Supplied lens ET DLE250 Zoom lens ET DLE350 Zoom lens ET DLE450 Zoom lens ET DLE055 Fixed focus lens 1 27 1 52 1 78 2 03 2 29 2 54 3 05 3 81 5 08 6 35 7 62 10 16 12 70 15 24 m in 50 60 70 80 90 100 120 150 200 250 300 400 500 600 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 3 1 5 1 8 2 0 2 3 2 5 3 ...

Page 10: ...m 1 1 16 in with the ET DLE055 2 Adjustable in 40 mm 1 9 16 in steps NOTE Illustrations show the projector installed using optional ceiling mount bracket ET PKD130H optional bracket assembly ET PKD130B and an optional lens This illustration is not drawn to scale 45 mm 1 25 32 in with the ET DLE250 51 mm 2 in with the ET DLE350 95 mm 3 3 4 in with the ET DLE450 100 3 15 16 380 14 31 32 308 12 1 8 1...

Page 11: ...et to bottom edge of screen A1 From rear of set to screen L4 From front of set to screen L3 From tip of lens to screen L2 Projection distance From mirror reflective surface to screen L1 Projection Distance Calculation Table Screen aspect ratio 16 10 L1 m 0 3205 x Diagonal image size 0 0047 Projection distance calculation formula A1 m 0 1977 x Diagonal image size 0 07210 Calculation formula for dis...

Page 12: ...f set to screen L3 From tip of lens to screen L2 Projection distance From mirror reflective surface to screen L1 Projection Distance Calculation Table Screen aspect ratio 16 9 L1 m 0 3294 x Diagonal image size 0 0047 Projection distance calculation formula A1 m 0 2304 x Diagonal image size 0 07210 Calculation formula for distance from top of set to bottom edge of screen L1 Projection distance from...

Page 13: ...nt of set to screen L3 From tip of lens to screen L2 Projection distance From mirror reflective surface to screen L1 Projection Distance Calculation Table Screen aspect ratio 4 3 Projection distance calculation formula Calculation formula for distance from top of set to bottom edge of screen L1 Projection distance from screen to mirror reflective surface L2 From screen to tip of lens L3 From scree...

Page 14: ...nches 0 0389 0 0746 maximum L m diagonal screen size in inches 0 0543 0 0725 Supplied lens minimum L m diagonal screen size in inches 0 0513 0 0800 maximum L m diagonal screen size in inches 0 0811 0 0792 ET DLE250 minimum L m diagonal screen size in inches 0 0809 0 1351 maximum L m diagonal screen size in inches 0 1223 0 1346 ET DLE350 minimum L m diagonal screen size in inches 0 1225 0 3017 maxi...

Page 15: ... projected image H Width of projected image V Height of projected image 0 5V 0 4V 0 1H 0 1H Standard postition of projected image Floor mount When the ET DLE085 is mounted Ceiling mount When the ET DLE085 is mounted The ET DLE055 has a fixed short focus lens Therefore the lens shift function provided in the main unit cannot be used For screen aspect ratio of 16 10 Possible setting up height A1 mm ...

Page 16: ...portrait mode with the ET LAD120P LAD120PW mounted The projector may be installed at a vertical angle of 15 Horizontal direction in portrait mode with the ET LAD120P LAD120PW mounted The projector may be installed at a horizontal angle of 15 NOTE The projector cannot be vertically installed all by itself Also the terminal side must face downward when vertically installed 3 6 0 1 5 1 5 PT DZ870K DZ...

Page 17: ...37 9 37 5 43 3 35 2 37 9 48 1 46 9 53 7 49 7 39 6 48 4 56 5 60 0 65 5 68 7 81 4 98 8 53 7 64 0 67 5 77 1 68 7 59 9 50 0 59 9 50 0 59 9 50 0 60 0 50 0 60 0 50 0 24 0 27 0 48 0 25 0 30 0 60 0 50 0 70 1 85 1 59 9 66 7 72 8 75 0 85 0 56 3 60 3 72 2 75 0 85 1 74 6 50 0 60 0 70 1 75 0 81 6 85 0 100 0 120 0 60 0 70 0 74 9 85 0 75 1 13 5 13 5 27 0 74 3 148 5 25 2 31 5 25 2 30 2 31 5 31 5 36 0 36 0 40 0 50...

Page 18: ...0 0 66 3 72 0 75 0 85 0 59 8 49 9 50 0 60 0 60 0 60 0 60 0 72 0 75 0 59 9 49 9 60 0 50 0 49 9 59 9 60 0 49 9 60 0 59 9 60 5 74 5 131 8 161 6 65 3 79 5 68 3 102 3 117 5 68 0 83 5 71 0 106 5 122 5 108 0 88 0 108 0 125 0 135 1 135 0 157 5 85 5 69 0 99 9 108 0 122 6 121 8 149 3 155 9 106 5 86 8 162 0 146 3 119 5 141 5 138 5 173 0 158 3 154 0 193 3 1280 720 1280 768 1280 800 MSXGA SXGA 1366 768 SXGA WX...

Page 19: ... 3 55 9 46 3 75 0 65 3 54 1 55 6 66 6 61 8 74 0 60 0 50 0 60 0 50 0 24 0 48 0 25 0 30 0 60 0 50 0 59 9 60 3 50 0 60 0 100 0 120 0 60 0 49 8 59 9 100 0 120 0 49 9 59 9 60 0 50 0 59 8 59 9 60 0 50 0 60 0 59 8 49 9 50 0 60 0 60 0 60 0 59 9 49 9 60 0 60 0 50 0 49 9 59 9 49 9 60 0 74 3 74 3 74 3 74 3 74 3 74 3 74 3 74 3 148 5 148 5 25 2 40 0 51 9 65 0 113 3 139 1 81 6 60 5 74 5 131 8 161 6 65 3 79 5 68...

Page 20: ...0 0 24 0 48 0 25 0 30 0 60 0 50 0 59 9 60 3 50 0 60 0 100 0 120 0 60 0 49 8 59 9 100 0 120 0 49 9 59 9 60 0 50 0 59 8 59 9 60 0 50 0 60 0 59 8 49 9 50 0 60 0 60 0 60 0 59 9 49 9 60 0 60 0 50 0 49 9 59 9 49 9 60 0 74 3 74 3 74 3 74 3 74 3 74 3 74 3 74 3 148 5 148 5 25 2 40 0 51 9 65 0 113 3 139 1 81 6 60 5 74 5 131 8 161 6 65 3 79 5 68 3 68 0 83 5 71 0 108 0 88 0 108 0 85 5 69 0 99 9 108 0 122 6 12...

Page 21: ...0 seconds when the lamp is first turned on If this occurs wait for 60 seconds then try sending or receiving again When sending multiple commands be sure to wait for at least 0 5 second after receiving a response from the projector before sending the next command Additional time is sometimes required for response due to processing inside the projector Set the time out period for com mand response t...

Page 22: ... DVI IIS RG1 IIS RG2 IIS VID LPM 0 LPM 1 LPM 2 LPM 3 VXX RYC1 00000 VXX RYC1 00001 OLP 0 OLP 1 VSE 1 VSE 2 VSE 5 VSE 6 VSE 9 H fit VSE 9 VSE 10 IIS DL1 HD1 IIS DL1 HD2 IIS DL1 PC1 IIS DL1 PC2 IIS DL1 SVD HDMI 1 HDMI 2 Computer 1 Computer 2 S Video IIS DL1 HD1 IIS DL1 HD2 IIS DL1 PC1 IIS DL1 PC2 IIS DL1 VID Video IIS DL1 VID IIS DL1 SVD OSH 0 OSH 1 OAS VPM NAT VPM STD VPM DYN VPM CIN VPM GRA VPM 70...

Page 23: ...el for ET YFB100G digital interface box during digital link input selection HDMI 1 HDMI 2 Computer 1 Computer 2 Video S Video DL1 HD1 DL1 HD2 DL1 PC1 DL1 PC2 DL1 VID DL1 SVD 0 1 Eco QLP Lamp power mode status Normal 0 1 p1p2p3p4p5 p1p2p3p4 p1p2p3p4 0 1 lamp 1 2 lamp 2 3 NAT STD DYN CIN GRA Rec 709 709 DIC DLVI0 00000 DLVI0 00001 DLVI0 00002 DLVI0 00003 p1p2p3p4 p5p6p7p8 1 y1y2y3y4m1m2d1d2w h1h2m1m...

Page 24: ... air intake or exhaust openings 5 Do not install the projector in an enclosed space If it is necessary to install it in an enclosed space add a separate ventilation system If ventilation is insufficient hot air will accumulate at the intake opening This may cause the projector s protective circuit to interrupt projector operation 6 If the projector is installed in an enclosed space ensure that the...

Page 25: ...e 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 DLP and the DLP logo are trademarks of Texas Instruments P HDMI the HDMI logo and High Definition Multimedia Interface are trademarks or registered trademarks of HDMI Licensing LLC in the United States and other ...

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