The optical engine and light sources are sealed, eliminating the need for periodical cleaning. The hermetically sealed DLP DMD and the Solid-State LED illumination both have a typical lifetime of more than 100,000 hours. In fact the only serviceable part is the easily replaceable fan cartridge which should be changed at 50,000 hours.
Built to be shaken and stirred, to withstand many times the force of gravity. Mounted to motion platforms in any orientation. ‘Lens Lock’ technology allows the lens to be locked to the projector body. Lock the lens adjustment rings and lock the Lens body to 3rd party supports for extreme rigidity. 3G motion compatible.
3 resolutions, each with 2 modes (IR and non-IR) provide 6 possible configurations.
The P1 uses new generation LED technology. This gives high brightness and uses NO moving parts such as the phosphor wheels and color wheels found in Laser Phosphor products. It is True Solid-State!
The P1 is designed to be continuously run 24/7 in demanding conditions and is warranted for 5 years (extendable to 10 years).
The P1 uses High Resolution single chip DLP technology.
Lens options comprise all glass, aspherical, no doublet optical elements & include ‘lens lock’ technology. Scheimpflug adjustment is a standard feature. Lens options are future proofed. Each has been designed to resolve 4K, 5.4 micron pixel pitch.
- N1 – 0.80 – 1.25:1 @ 4K UHD / WQXGA (0.74-1.16:1 @ WUXGA)
- N2 – 1.20 – 1.60:1 @ 4K UHD / WQXGA (1.12-1.50:1 @ WUXGA)
- N3 – 0.63:1 @ 4K UHD / WQXGA (0.59:1 @ WUXGA)
Lens focus, zoom (where applicable) & Iris on all lens options is motorised. Stepper motors are used throughout to ensure high degree positional accuracy.
Horizontal & Vertical Lens Shift is motorised. Stepper motors are used throughout to ensure high degree positional accuracy.
1,600:1 to 8,000:1 sequential contrast (full on / full off). Greater than 5,000,000:1 dynamic contrast.
High Dynamic Range
Brightness 0.6kl to 2.5 kl.
- Dimming technology provides deep black levels whilst ensuring that image highlights are maintained.
Many factors were taken into consideration when designing the P1, not least the inclusion of IR to support Night Vision Goggle training scenarios. The default IR wavelength is 740 nm, other options are available upon request. 740 nm is the default wavelength because it provides good ANSI Contrast, reduces visible versus IR lens focus variation and removes the need for specialist IR optimised lens options.
Form and Function
- Small form factor and lightweight. Dimensions (L x W x H) are 482 x 405 x 213 mm, weight is 17 kg excl. lens.
- Central lens position and limitless orientation options make the process of designing a system with the P1 much easier.
- Multiple fixing points (4 x M10 + 4 x M6) on the underside of the projector ensure installation versatility, these are especially useful when performing system upgrades.
- Accessory interface points (2 x M4 per corner) are available on each corner of the P1 chassis.
The P1 supports 2 ms, 4 ms, 6 ms & 8 ms smear suppression + 8 ms Dark Frame Insertion.
|Projector Type||Single chip DLP LED projector|
|Resolution||4K (UHD), 2560 x 1600 (WQXGA), 1920 x 1200 (WUXGA)|
|Brightness||2,500 RGB lumens|
|Contrast ratio||1,600:1 – 8,000:1 sequential. > 5,000,000:1 dynamic|
|Lens options||N1: 0.80 – 1.25:1 @ 4K UHD / WQXGA, 0.74 – 1.16:1 @ WUXGA
N2: 1.20 – 1.60:1 @ 4K UHD / WQXGA, 1.12 – 1.50:1 @ WUXGA
N3: 0.63:1 @ 4K UHD / WQXGA, 0.59:1 @ WUXGA
|Lens shift (max)||Vertical up to 120.5% lens option dependent
Horizontal up to 85% lens option dependent
(fully sealed optical architecture)
|LED (RGB + option IR). Standard IR wavelength where applicable is 740nm, other IR wavelengths available|
|Illumination lifetime||> 100,000 hours to 50% (typical)|
|Optical block lifetime||> 100,000 hours|
|Orientation||Orientation free, no limitation|
|Inputs||2 x Dual Link DVI, 1 x DisplayPort 1.2, 1 x HDMI 2.0|
|Inputs resolutions||2560 x 1600 – 640 x 480. Max Pixel Clock 667MHz|
|3D||Active – upto WQXGA @ 120Hz, INFITEC®|
|Latency||19 ms @ 60Hz / 9.5ms @ 120Hz|
|Displayable color||30 Bit per channel|
|Control||IR, RS232, Ethernet, 2 x BNC (sync) & 1 x Mini DIN|
|Power requirements||90 – 240V 50-60Hz|
|Power consumption (max)||300 W typical, 500 W max|
|Heat dissipation (max)||1024 BTU/hour typical, 1706 BTU/hour max|
|Ambient noise (max)||32 dB A|
|Operating temperature (max)||0 to 40°C / 32 to 104°F (0 – 3000m)|
|Storage temperature (max)||-20 to 60°C / -4 to 140°F|
|Operating humidity (max)||20 to 80% (non-condensing)|
|Storage humidity (max)||10 to 90% (non-condensing)|
|Dimensions: (L x W x H)||485 x 405 x 216.75 mm / 19.10 x 15.95 x 8.54 inch|
|Weight||17 kg / 37.5 Ibs excl. lens|
|Standard accessories||Power cord EUR & US + local region where applicable, wireless IR remote control, lens shift and lens lock fixings|
|Shipping dimensions (L x W x H)||690 x 510 x 340 mm / 27.2 x 20 x 13.4 inch|
|Shipping weight||21.5 kg / 47.4 Ibs excl. lens|
|Certifications (max)||CE, FCC Class A, cNemkous, KC, CCC|
|Warranty||5 years (extendable to 10)|
Specifications subject to change without prior notice. Errors & omissions exempt.
N series lens options are designed specifically for the P1, P1+ and P2 projectors.
Lens Part Number, Description & Throw Ratio:-
Focus, zoom (where applicable) & Iris on all lens options is motorised. Stepper motors are used throughout to ensure high degree positional accuracy.
|P1 / P1+ / P2||N1||Extra Wide Zoom Lens||0.80 – 1.25:1 @ 4K UHD / WQXGA
0.74 – 1.16:1 @ WUXGA
|N2||Wide Zoom Lens||1.20 – 1.60:1 @ 4K UHD / WQXGA
1.12 – 1.50:1 @ WUXGA
|N3||SuperWide Lens||0.63:1 @ 4K UHD / WQXGA
0.59:1 @ WUXGA
Lens Shift Parameters:-
Lens Shift values provided assume 50% is on axis, that 100% Lens Shift equals half of image height / width.
|4K UHD / WQXGA
Lens Optical Performance Characteristics:-
|Working F#||2.2 – 2.55||2.2 – 2.43||2.2|
2.2 – 8.0
2.2 – 8.0
2.2 – 8.0
|Focal Length||15.85 – 24.70 mm||23.85 – 31.75 mm||12.78 mm|
|Optical: 1.5 – 8.0 M
Mechanical: 1.0 – 18.0 M
|Optical: 1.5 – 15.0 M
Mechanical: 1.0 – 20.0 M
|Optical: 0.7 – 3.0 M
Mechanical: 0.4 – 6.0 M
|MTF||Centre: 60% @ 66 lp/mm
Corners: 50% @ 66 lp/mm
|Centre: 60% @ 66 lp/mm
Corners: 50% @ 66 lp/mm
|Centre: 86.7% @ 66 lp/mm
Corners: 75.4% @ 66 lp/mm
|Lateral Colour||660-550 nm: <4.3µm, 660-440 nm: <4.3µm, 630-550 nm: <3.0µm, 630-440 nm: <3.0µm, 550-440 nm: <3.0µm||660-550 nm: <3.6µm, 660-440 nm: <3.6µm, 630-550 nm: <2.4µm, 630-440 nm: <3.0µm, 550-440 nm: <3.0µm||660-550 nm: <3.5µm, 660-440 nm: <2.4µm, 630-550 nm: <2.5µm, 630-550 nm: <2.5µm, 550-440 nm: <2.4µm|
Lens Projection Point:-
The lens Projection Point denotes the origin of a projected image with the projection lens. It should not be confused with Throw Distance.
|Theoretical Projection Point||50.4 mm (distance from last optical element back towrds DMD)||77.04 mm (distance from last optical element back towrds DMD)||74.0 mm (distance from last optical element back towrds DMD)|
Product Support – N Series Lens Projection Point information is available seperately upon request.
Lens Length & Weight:-
|Lens Length||218.04 mm / 8.61 inches||250.49 mm / 9.87 inches||315.1 mm / 12.41 inches|
|Lens Weight||2.2 kg / 4.85 Ibs||2.9 kg / 6.40 Ibs||5.52 kg / 12.17 Ibs|
Lens options are future proofed. Each has been designed to resolve 5.4 micron pixel pitch resolution to ensure compatibility with the next generation 4K DLP Chip.
Lens options comprise all glass, aspherical, no doublet optical elements & include ‘lens lock’ technology. The ‘lens lock’ feature allows the end user to physically lock the lens to the projector body, lock the lens adjustment rings into position and lock the lens body to 3rd party supporting clamps for additional rigidity in extreme circumstances.
Scheimpflug adjustment is a standard feature.
Norxe Lens Shift
norxe states that when the centre line of the lens is aligned with the centre line of the screen Lens Shift is centred (i.e. on axis). This is because the centre line is half way up or down / left or right. Lens Shift is therefore 50%.
The illustrations below show how norxe defines vertical Lens Shift (the same methodology applies to horizontal Lens Shift): –
50% shift equals on axis (i.e. no shift) –
100% Lens Shift equals half of image height / width –
Calculating norxe Lens Shift
The formula for calculating norxe Lens Shift is as follows: –
Vertical Lens Shift:
Vertical Lens Shift = Screen Height x ((Vertical Lens Shift in percent – 50) ÷ 100).
How much is the image shifted vertically when the screen height = 1.2 M and the lens has a vertical Lens Shift value of 68%?
1.2 x ((68 – 50) ÷ 100) = 0.216 M
0.216 M (216 mm).
This means that the centre of the image has shifted vertically by 0.216 M (216 mm). Assuming the projector is perpendicular to the screen it logically follows that the vertical image extremities have shifted by the same amount.
Horizontal Lens Shift:
Horizontal Lens Shift = Screen Width x ((Horizontal Lens Shift in percent – 50) ÷ 100).
How much is the image shifted horizontally when the screen width = 1.92 M and the lens has a horizontal Lens Shift value of 57.5%?
1.92 x ((57.5 – 50) ÷ 100) = 0.144 M
0.144 M (144 mm). This means that the centre of the image has shifted horizontally by 0.144 M (144 mm). Assuming the projector is perpendicular to the screen it logically follows that the horizontal image extremities have shifted by the same amount.
If Lens Shift values are less than 100% it is possible to calculate how much of the image is above / below, left or right of the lens centre line.
How much of the image is above the lens centre line when the screen height = 1.2 M and the lens has a vertical Lens Shift value of 68%?
1.2 x 68% = 0.816 M
0.816 M (816 mm).
Assuming the projector is perpendicular to the screen 0.816 M of the image is above the lens centre line whilst 0.384 (1.2 – 0.816 = 0.384) is below. The same methodology applies to horizontal calculations.
If Lens Shift values are more than 100% (typically only applicable to vertical Lens Shift) it is possible to calculate the distance between the lens centre line & the top / bottom of the image as illustrated below: –
The distance between the lens centre line & the bottom / top of image can be calculated as follows: –
What is the distance between the lens centre line and the bottom of the image when the screen height = 1.2 M and the lens has a vertical Lens Shift value of 120.5%.
1.2 x ((120.5 – 50) ÷ 100) = 0.846
Screen Height ÷ 2 = 0.60 M
Lens centre to bottom of screen = 0.846 – 0.60 = 0.246 M
0.246 M (246.0 mm).