Sim2 Multimedia Ht3000 E Projector User Manual
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11
ht3000e
5 SwiTChiNg ThE PROJECTOR ON AND Off
wARNiNg: Connect the projector to a power supply with a
nominal voltage within the following values: 100-240 V AC,
50/60 hz. it must be earthed (f ig. 12).
GRAPHICS RGBHV
S-VIDEO
AUDIO OUT
HDMI 1
REMOTE2 S-VIDEO
MENUESC
INPUT1
5
4
0
I
Power Switch:
Position I: On
Position 0: Off
Fused
Power Socket
Power Plug
Fig. 12
In position i the projector will initialise itself (red and green leds
on) and then goes into standby mode (red led on) (Fig. 13).
H DM I 1M ENU ESC
IN
PU T
5
H DM I 26
0
I
SwiTCh ON fROM STANDBY
With the remote control press one of the keys (Fig. 14):
- 0 to select the last imput selectet after last switching off.
- 1-9 to select the correspondent imput.
With the keypad: press the ON/OFF button.
2 32 )G RA PH ICS RG BHVS-V ID EO
AUDIO OUT
HDM I 1
RE MO TE2S-V ID EO
MEN U ESC1
5
4
H
DM I 26
When the unit is switched on from standby the lamp switches
on; after a brief period of warming up, the image displays
(blue led on).
If a ver y short time has passed since the unit was last switched
off, the lamp may not switch on beause it is too hot.
Just wait a few minutes for the lamp to cool down sufficiently.
Note:
At power ON the picture could be displayed with a wrong
orientation; this is not a fault.
Fig. 13
Fig. 14
12
ht3000e
Initialisation
Status Led blueLed red
Standby
On
Cooling
: Of : On
: Flashing
Error (*)
Logo Backlit
Blue Color
Red Color
Of / Blue Color
(*)
Red Color
Red Color
SwiTChiNg Off AND RETURNiNg TO STANDBY
With the remote control: press .
With the keypad: press .
When switching off, the projector goes into stand-by mode and
stores the input selection at the time of switch-off.
The fans keep running until the lamp cools down (green and
red leds on), after which they automatically switch off. Do not
switch off the projector with the power switch until the fans have
stopped running.
6 CONNECTiONS
To obtain the best performance from your projector, we recom-
mend the use of good quality “ video cables” to the various
signal sources (75 ohm Impedance).
Poor quality cables will cause inferior picture performance.
For optimum connectivity we recommend you follow these
simple steps:
- With exception of coaxial RCA/Phono type connectors,
always double-check that the plug is inserted the correct
way round to avoid damaging the plugs or the sockets on
the projector (Fig. 15).
- Remove cables by the plug and do not pull on the cable
itself.
- Avoid tangled cables.
- Position the cables carefully to avoid a trip hazard - espe-
cially in low light areas.
Fig. 15
Table 1
+12 V
U SB 1.1 R/
Cr
R S2 32
GRAP HICS RG B
C/
Y B/
Cb
HV S
-V ID EO
AUDIO OUT
HDM I 1
RE MO TE
3
2S-V ID EO
MEN U ESC
IN
PU T1
5
4
75
HDM I 26
13 ht3000e hT3000E - Connection panel 31245 Television receiver DVD player VCR Videocamera Video game console Television receiver HDTV receiver DVD player VCR Video game console ComputerDVD player HDTV receiver Fig.16 6 +12V USB 1. 1 R/Pr CONTROL (RS232 ) GRAPHICS RG B C/ Y B /P b HV S -VIDEO AUDIO O UT HDMI 1 REM OTE 3 2 S-VID EO MEN U ESC S OURC E 1 4 O I 1 VIDEO GRAPHICS RGB 4 3 RGB - YPrPb HDMI 5 HDMI 6 5 2 S-VIDEO H DM I 26
14 ht3000e of the pictures reproduced by the HT3000E in the two cases: the deinterlacing performed by the HT3000E is often more effective than that performed by the source itself. gRAPhiCS RgB / YPrPb This input should be connected to an RGB-type or YPrPb-type video signal using a cable with a DB15HD type connector. Using RGB-type signal, your source device must be able to provide separate H/V synchronisation, composite H+V synchro- nisation or composite synchronisation on green (RGsB). Using YPrPb-type signal, your have to provide Pr signal at red pin, Y at green and Pb at blue. hDMi™ HDMI™ (High Definition Multimedia Interface) integrates an uncompressed high definition video signal with a multichannel audio signal and allows exchange of control data between the video source and the HT3000E. The HDMI input allows connection to video sources that use the HDCP (High-Bandwidth Digital Content Protection) protocol to protect their contents. Once the video source has been connected to the HDMI input, internal processing by the HT3000E separates the video information from the audio information. The audio information is made available on a digital output with a female TOSLINK connector in compliance with the S/PDIF standard. You can use a DVI-D > HDMI adapter cable to connect the DVI-D signal from a source equipped with a DVI-D output. COMPOSiTE ViDEO Fit an RCA connector with a Composite Video (CVBS) signal to this input. The output connector on the external appliance is normally coloured yellow and will often be labelled VIDEO. Other signal and socket formats may be preferable (because they give better image quality), but this type of output socket is still the most commonly used, and nearly all television receivers, video recorders, DVD players and camcorders, etc. use it. S-ViDEO Fit a mini-DIN connector with an S-Video signal to this input. The corresponding output at the external device is normally identifiable by the labels S-VIDEO or Y/C. This type is nearly as common as Composite Video, and is preferable to the latter, since it gives higher image quality. RgB/YPrPb These inputs use a set of 4 RCA connectors. RGB and Component signals can be applied to each set of connectors. RGB signals can have composite synchronisation on the green signal (RGsB), or on the HV signal. Connect the R, G, B outputs of the source to the respective R, G, B inputs of the HT3000E (taking care not to invert the positions) and any synchronisation signals to the HV. When hooking up, use the colours of the RCA connectors as an aid as follows: the R connector is red, G is green, B is blue and HV is white. You can use a SCART to RCA adapter cable to connect the RGB signal from a source equipped with a SCART output to this input. The Component signals connect to the Y, Pr and Pb inputs: take care that the inputs correspond to the outputs on the source device. Since these can be labelled differently, refer to Table 1 to establish the correspondence between the various signals. As indicated in the table, the colours of the connectors can also be of help. Only horizontal scanning frequencies of 15 kHz (standard video resolution) or 32 kHz (high definition video, with progressive scanning) can be applied to this input. Progressive signals usually provide better quality than interlaced signals, but if the source features both progressive and deinter- laced signal outputs it is good practice to compare the quality 1 2 3 4 56
15
ht3000e
RS232 iNTERfACE CONNECTOR
The projector can be controlled from a PC: simply hookup
the interface connector to a PC ’s RS232 serial cable or to a
PC's USB 1.1 cable.
Do not place objects between the remote control and the
receiver on the projector, as this can prevent the remote from
working.
MOTORiSED SCREEN OUTPUTS
+12V
USB 1.1 R/Cr
RS232 GRAPHICS RGB
C/Y
B/Cb
HV S-VIDEO
AUDIO OUT
HDMI 1
REMOTE
3
2 S-VIDEO
MENU1 4
12Volt
120 mA
The projector is equipped with two outputs (Voltage: 12 Vdc)
for motorised projection screen and screen masking systems,
used for masking off the projection area to match the projected
image aspect ratio (Fig. 17).
The +12V output is activated when the projector is switched
on (blue LED on) and is de-activated when the projector is in
standby mode (red LED on). The output can be set with the
“Screen control” adjustment in the “Aspect ” menu. This output
allows reduction in the area of a 16:9 screen, into a 4:3 format,
by activating a horizontal screen masking system.
Fig. 17Fig. 18
+-
+
-
+
-
+
-
8 REMOTE CONTROL
The remote control requires four 1.5 V batteries, size AAA.
Insert the batteries, taking care to match the polarity, as indi-
cated in the batter y compartment in the handset (Fig. 23).
Change the batteries in the remote control if experiencing
difficulty in sending commands to the projector.
Remove batteries from the remote control if it is not to be used
for a long period of time. The batteries are prone to leak and
corrode the remote control’s circuits.
The remote control sends commands to the projector via
infrared signals.
The projector is equipped with an infrared sensor on its front
panel and can therefore be controlled by pointing the remote
control towards the projection screen; the IR beam reflects off
the screen towards the projector (Fig. 19).
There is another infrared sensor in the rear of projector.
4 batteries 1.5 VAAA size
Fig. 19
+12V
USB 1.1 R/Cr
RS232 GRAPHICS RGB
C/Y
B/Cb
HV S-VIDEO
AUDIO OUT
HDMI 1
REMOTE
3
2 S-VIDEO
MENUESC
INPUT1
5
HDMI 26
4
CONTROL RS 232
CONTROL USB
16 ht3000e MAiN MENU To access the main menu of the On Screen Display press the MENU key on the keypad or the MENU+ or MENU- key on the remote control. The main menu is divided into four windows, PICTURE, IMAGE, SETUP and MENU, in which the various adjustments are grouped according to the frequency of use. Use the ▲ and ▼ keys to select the line corresponding to the adjustment you wish to make (Fig. 21). The various menus only offer the relevant adjustments in ac- cordance with the type of input signal displayed (e.g. certain typical adjustments for video signals, not necessar y for graphic signals, do not appear on the menus, and vice versa). Some adjustments (e.g. BRIGHTNESS and CONTRAST) are associated with a numerical value that can be varied within the set limits using the ◀ and ▶ keys. For others (e.g. VIDEO TYPE) you can choose between two options presented on the same line and selectable using the keys ◀ and ▶ Fig.22a/b . Picture Contrast Color Tint Sharpness Filter Cinema Mode 50 50 50 3 2 Off Auto AutoNoise Reduction Brightness 60 iNPUTS The input selection menu is called by pressing 0 on the remote control or with the keypad SOURCE key. To select an input, scroll through the list with the ▲ e ▼ keys until the required input is highlighted, then press ▶. Display of the input selection menu is terminated by pressing the ESC key or when the On-Screen Menu display timeout in- terval (set in the Menu Setup) has elapsed orr after the signal's recognising. The inputs can receive RGB and YCrCb signals, at 15 kHz, 32 kHz or higher. The input and type of signal (RGB or YPrPB) are set in the pull down menu at the right of the symbol < a seguito della pressione del tasto ◀ (Fig. 20). HDMI 1-2 input can receive the signals from DVI-D sources. During the short time it takes to find the signal, a box appears showing the signal requested. As soon as the signal is shown in the box additional information is displayed concerning the video standard (for video signals) or resolution (for graphic signals), format and the eventual user's memorie. This informations can be recolled by pressing numerical key that it corresponds at the selected source. In the SETUP menu you can select whether to display this infor- mation or not; for further information see SOURCE INFORMATION in the MENU section of chapter ADDITIONAL INFORMATION. 2 S-VIDEO 4 GRAPHICS RGB/YPrPb 3 COMPONENT / RGBS 1 VIDEO 1 2 3 4 S-VIDEO 3 GRAPH RGB 9 COMP RGB 5 VIDEO 1 5 5HDMI HDMI 5 Imputs ACTIVE NAMEYe s No 6 6HDMI HDMI 6 Fig.20 9 ON SCREEN MENU All system functions can be operated from the keypad or remote control, with the aid of a complete, user-friendly on screen menu. Fig.21 Color Temperature Gamma Correction Position Y/C Delay 1 Overscan 1 Aspect Image Fig.22a
18 ht3000e NOiSE REDUCTiON This adjustment serves to select the noise reduction filter value. In this latter case, simply click on the slider and set the value with the ◀ and ▶ keys on the remote control. iMAgE This menu features adjustments relating to picture position, aspect ratio, magnification etc. ASPECT This adjustment allows you to change the dimensions and aspect ratio (relationship between width and height) of the displayed image. There are five preset aspects available and three personalised aspects (with user-settable parameters). You can select a different aspect for each source: the selected aspect ratio will be automatically applied the next time the relative source is called. You can also select the required aspect ratio by repeatedly pressing the key , or by pressing and a numerical key (1...8).The following aspects are available: NORMAL : projects the image occupying the full height of the screen while maintaining the aspect ratio of the input signal. When the input signal aspect ratio is 4:3 black vertical bands are displayed on the right and left of the picture. ANAMORPHIC: correctly displays a 16:9 image. LETTERBO x: serves to display a 4:3 letterbox image (with source signal having black bands above and below the picture) so that it fills the 16:9 screen and maintains the correct aspect ratio. PANORAMIC: widens the 4:3 image and cuts off a strip from the top and bottom. Panoramic is ideal for displaying a 4:3 image on the 16:9 screen of the Display. SUBTITLES: raises the image, thus making space for subtitles. PI xEL TO PI xEL: runs a pixel to pixel mapping of any image, without adapting to the screen. The image is projected in the centre of the screen and if its horizontal and/or vertical dimensions are smaller than the display, it is bounded by vertical and/or horizontal black bands. USER 1, 2, 3: use this option if none of the others are satisfactor y. The User formulas give you the ability to continuously adjust the picture size horizontally and vertically. COLOR TEMPERATURE Modifies the colour balance of the image. It is possible to select one of the four presets or to use one of the USER modes which allow manual adjustment. The four presets are: HIGH, MEDIUM, LOW and NATIVE. The first three settings allow selection of the same number of "standard" temperature colour settings: a low temperature corresponds to a warmer tone. The NATIVE setting positions the temperature colour at an imtermediate position between LOW and MEDIUM, making it possible to have slightly more light on the image. By opening the relative menu, it is possible to enable "Ultra Contrast": this functionality enables improved rendering of darker parts of the images at the expense of a small reduction in maximum light. The USER setting, starting with the colour temperature obtained with the NATIVE setting, enables manual variation of the tem- perature colour coordinates using a special colour correction algorithm. By moving along the "horizontal" lines, the related temperature colour varies, with low temperatures in the right hand part(in which the red component increases) and high temperatures in the left hand part of the graph (in which the blue component increases). The temperature colour is constant along the "vertical" lines but deviates from the black body line to a greater or lesser extent. The means that by selecting points in the upper part of the graph, there will be an increase in the Brightness Contrast V ideo S-V ideo RGBS YCrCb RGB Grafico HDMI™RGBS 15kHz YCrCb 15kHz Adjustments Inputs Colour - - - - - - - - - - - - - - - - - T int Sharpness Sharpness Mode Filter Present only if the V ideo Standard is NTSC Cinema Mode V ideo T ype Noise reduction - - - - - - - - -
19 ht3000e sising or attenuating the different grades of brightness (blacks, dark, medium, light grey, whites) in the projected image. The projector has a range of gamma functions which enable you to display any image to the best effect for the type of video source, the ambient lighting and your subjective preferences. There are 4 sets of gamma curves: Standard (ST), Enhanced SIM2 (EN) and Graphics (GR), User. The Standard curve has been defined for general use, and is set for videocameras, digital cameras, and for viewing films or photos on your PC. The ST1 For general use ST2 ST3 ST4 ST5 EN1 Suited to displaying images from videoca-meras, digital cameras or TV studios in high ambient light. EN2 Suited to displaying images from videoca-meras, digital cameras or TV studios in low ambient light. EN3 Suited to displaying cinematographic material in high ambient. EN4 Suited to displaying cinematographic material in moderate ambient. EN5 Suited to displaying cinematographic material in controlled ambient light. G1 Suited to displaying graphic images (e.g. Win-dows desktop) in moderate ambient light. G2 Suited to displaying graphic images in mode- rate controlled light. Table 5 - gamma correction settings gamma functions Standard gamma functions Enhanced SiM2 gamma functions graphics green component. On the other hand, by selecting the ele- ments in the lower part of the graph, an increase in the purple component will be obtained. It is possible, as in the previous case, to enable "Ultra Contrast" from within this menu. 1-2 Keys allow to select "Ultra Contrast" menu BEST COLOR The projector uses the BrilliantColor(TM) algorithm to improve the colour rendering of images. By enabling this function, the quality of the image is optimised to the detriment of a moderate loss of light. With this function disabled, the BrilliantColor(TM) algorithm makes use of the maximum projector light. gAMMA CORRECTiONDetermines the system’s response to the grey scale, empha- 0.8 520 540 560 Infinity 10000 6500 4800 2850 1500 1000 580 590 620 650 450 470 480 0.6 0.4 0.2 0.0 0.2 0.4 X 0.6 0.8 Y Fig. 23 Green Blue Red Fig. 24 x= 0,307 T= 8700K y= 0.320 = 0,015x y uv 1. Color Temperature 2. Ultra Contrast On Off
20 ht3000e Enhanced set is suitable for watching movies. The Graphics set is suited to displaying synthetic graphics (PC, CAD, PC presenta-tions, etc.). User enables you to define your own curve. You can thus select the coefficient which determines the curve. Values from 1.5 to 2.2 allow you to emphasise the detail of dark images, but reduce overall contrast. Values higher than 2.2 increase overall contrast, but reduce the detail of dark areas. For the most common video sources, the overscanning value can be in the range (no overscanning) to 32 (maximum). The resulting image always maintains the selected aspect irrespec- tive of the selected overscan value. POSiTiONUse this adjustment to position the image vertically and horizon-tally. Determines the aspect ratio of the projected image.These parameters do not normally require adjustment because the system checks the input signal and automatically sets the most suitable values. However, if the image is not perfectly centralised it may prove useful to request the system to repeat the input signal analysis and image positioning, calling the au-tomatic control procedure with button A on the remote control or the AUTObutton on the keypad. When this procedure is called it is helpful to have a while or light coloured background on the screen in the current picture. Frequency/phaseThese adjustments, available for progressive signals and for si-gnals from a PC, ensure correspondence between the number of pixels making up the signal and the number of pixels that make up the projected image.These parameters do not normally require adjustment because the system checks the input signal and automatically sets the most suitable values. If however the image is disturbed (loss of resolution between equidistant vertical bands or instability and lack of detail in thin vertical lines) it may help to ask the system to rerun the input signal analysis and set the best parameters by calling up the automatic adjustment function with A on the remote control or AUTO on the keypad.If the automatic procedure fails to have the required effect, enter the frequency and phase values manually and ap-proach the screen sufficiently to observe the effects of the adjustments. OVERSCAN Eliminates irregularities around the outer borders of the im- age. Some less accurate sources may produce an image with uneven borders; thanks to the overscan function these im- perfections can be moved to outside the displayed area. Il parameter to 2.2, typically yields pleasant, contrasty images. Y/C DELAYIn the case of Video and S-Video signals, it may be necessar y to correct horizontal colour misalignment within the projected image. For a given video standard (e.g. PAL or NTSC) the stored value does not normally require further fine-tuning, unless the source or connection cable has changed. SETUP The setup menu contains less frequently used adjustments that may be required during installation (e.g. On Screen Display language selection or the display of Test Patterns). ORiENTATiON Reverse the image vertically and horizontally to best fit the installation: i.e. desktop front, ceiling front, desktop rear and ceiling rear (Fig.25). VERTiCAL KEYSTONE To get the best image quality, we recommend installing the image on a surface which is perpendicular to the screen. If the projected image is not level, adjust the feet on its base to obtain a level position, lining up the base of the projected image to the base of the projection screen (Fig.26). If this adjustment is insufficient to centre the image, tilt the projector and use the Vertical/horizontal keystone adjustment to compensate for the resulting distortion. Fig.25