Pioneer RM V2550E User's Manual
Contents
1. x ux N a S a T A in N Ind B 3 ig m o unit mm Fig 2 2 2 3 3 x 3 150 inch 3093 3 4 2062 7909 4 4031 a 312 3 T 1 1 1 ES EDS i I 1 E uv Og M 1 N o t 1 P Sa T m T pan N E m 8 ke Re L unit mm Fig 2 2 3 23 CHAPTER 3 INSTALLATION AND ASSEMBLY 1 INSTALLATION CONDITIONS 1 Weight tolerant The ground must be flat and horizontal It should be able to bear the weight of the system For wooden floors if the part receiving the weight of the system lies at the center between the reinforcement beams below the floor the floor may become deformed or may curve inwards Moreover in the case of a carpet etc the part bearing the load may sink with time meaning that the horizontal balance of the system may shift out of place after installation In such cases lay a more than 12 mm thick board below the system to distribute the weight of the system on the floor For concrete floors it may not be possible to install the system horizontally due to the roughness of the floor In such cases do the same as above 2 Ceiling height Reserve a headroom of at least about 10 cm 4 inches between the top of the system and the ceiling If an air conditioner outlet or illuminatio2. o Men M10x120 x 2 M10x120 x 2 3 4 6 ee 44 INSTALLATION AND ASSEMBLY 6 Place the cabinet of the second stage on that of the first stage Fig 3 4 7 NOTE 1 To prevent hazard never mount on a cabinet NOTE 2 Always carry each cabinet with more than one person When using a stand for the RM V5020 etc please carry out the work with at least three persons If three persons are available two of them should carry each cabinet from both sides and the third person should support the rear where the center of gravity comes Fig 3 4 7 7 Adjust the positioning of the four cabinets Fig 3 4 8 Front rear Line up the wood surfaces of the front of the cabinets Left right Form a cross on the center point where the 4 screens meet Y HK Hashed surfaces Flush No Good Fig 3 4 8 45 INSTALLATION AND ASSEMBLY 8 Fix the connections between cabinets using bolts Fig 3 4 9 Front 8 45 x provided with cabinets Please do not use 65mm bolts as these Rear M8x65 x 4 provided with cabinets may block the light path e light path M8x45 x 1 provided with cabinets Rear view eme X M8x45 x 1 X 8 65 x 4 Fig 3 4 9 46 INSTALLATION AND ASSEMBLY 9 Attach the screen frame support bra
3. enne 180 19 Model fresh F command i eain ed iniit eoa c eae dea dace pa oaa y cd en hae a auae aa na dna 181 20 Measurement data display FRO command 181 21 Model table reference TBL command essen enne nnne nennen 182 22 Horizontal frequency input command seessesesseesseseeeeee nennen nennen 183 23 Vertical frequency input VFO 184 24 Vertical full line input VLN nennen nnne nennen nnne nnne 184 25 reset ARS command touto ie tere ere en eiaeaen 184 TA MODE 99 185 12 VS BOARD MODEL SELECTION saa these 186 13 USING METHODS OF HFO VFO enne nentes entre sen rennen nnns nn nnne 186 14 SELECTING THE SYNC SIGNAL nia rn 187 15 RMD V3104J additional commands ccccccccecececeeeeseseeeeseeeeeeneeeeeeeeeeeeeeeeeeeeeeeseseseeeeseseseesesseeeaaeas 188 WARNING prevent injuries and physical damages always read and observe this manual and all labels on the system before assembly construction and adjustments Do not use the system outdoors to preven
4. essere 89 4 SCREEN ADJUSTMENTS BARN 90 1 Adjustment flowChait dee rien etae ctp RE RE ka nue 90 2 Convergence adjustment flowchart seesssssssssesseseseeee nennen enne nnne nnne nennen 91 3 Convergence adjustment contents eesssessssseeseseeeeeeene nennen nennen ennt sen nnn nennen 92 4 White balance adjustment flowchart esssesssssseseeeesee enne eene enne nnne nnne nenne 110 5 White balance adjustment oirisider aunida aeaea taaua aiandi aka 111 6 External control by MPJ RS 232C ssssssssesessseeeeeeee enne nnne nennen treten nnne rennen rennen 117 7 Adjustments by remote control seesssesssssssssesseeeeennnen nnne nnne nnn nnnnnnnn nnn n nnne nne 129 CHAPTER 5 OPERATION AND MAINTENANCE 144 Ve MAINTENANCE E 144 1 Re adjustments after 3 5 nenne nennen 144 2 P riodic miaintenance iui ee ce D ger tin Dr pe ee doge a 144 3 Replacement of parts anro on een ced a Sere ave eS 144 2 CAUTIONS DURING PRESENTATIONS nennt nenne nennt nennen nennen 145 SE
5. sssessssssssseseseeeeennenn 167 CONTENTS 6 Controls the panel switch function ccccceeeseeeeeeeeeeeaeeeeeeneeseaeeeeeaeeeeeaaeeseaeeeeseaeesesaneeseneeees 167 1 To set the manual mode MNL command enne nnne 167 2 To set the remote mode RMT command 167 3 To select composite video input CIC 167 4 To select YC separation input YIC command eeeeseseeeseeeeee eene 167 5 To set the output to the NTSC mode NT command esee nnne 168 6 To set the output to standard RGB mode NTR 168 7 To set the output the double speed RGB mode NTD command 168 8 Optional variable scan board adjustment mode settings A command 168 8 DEMO PATTERN SETTINGS AND CAUTIONS sesseseseeeeeeee 169 9 INSTALLING AND REMOVING BOARDS s sssssseseseseeseeeennen senten nennen nnn nennen nnns nennen 170 10 RMD V3020 COMMAND REFERENCE eessseesesseseseeeeenee nenne nennen nenne nenne enn nrn nnne innen 172 1 Outline of the RMD V3020 cccsccssscssscseecsssecssecsstecseeesseseseeeesescuessseecseeeseeesseeeeatesseeeeteeaeas 172 2 VS board command rules A EE ET
6. Fig 3 4 19 3 Fix the cabinets using bolts Fig 3 4 2 Front M8x30 x 2 provided with each stand Rear M8x60 x 2 provided with each stand 4 Align the left and right cabinets If the following conditions are not satisfied adjust using the adjusters on the stands Front rear Line up the wood surfaces of the front of the left and right cabinets Fig 3 4 3 Top bottom Align the height of the bottom plates on the front of the left and right cabinets Fig 3 4 4 Inclination Reduce any clearance between the left and right cabinets to below 3 mm Fig 3 4 5 53 INSTALLATION AND ASSEMBLY 5 Fix the cabinets and stands using bolts Fig 3 4 20 Cabinet Front M8x45 x 4 provided with each cabinet Please do not use 65mm bolts as these aaa Rear M8x45 x 2 provided with each cabinet may block the light path e light path Stands Front M10x120 x 4 provided with each stand Rear M10x120 x 4 provided with each stand N Front view vag A 5 EM Pi DA M8x45 x 4 Rear view a s elus fo f A ton AN M10x120 4 Ae MAU M8x45 x 2 mH ll AE Ki ay a a SM Pd ib T AT Ex A un rx T R Fig 3 4 20
7. 5 2 FEATURES OF THE MULTI VIDEO PROCESSOR hereinafter referred to as the MVP 6 3 FEATURES OF THE PROJECTION STAND hereinafter referred to as the Stand 6 CHAPTER 2 GENERAL SPECIFICATIONS nennen nenne 7 1 SPECIFICATIONS OF THE DIFFERENT UNITS 7 1 Multi Projection Unit RM V2550BU RM V255OE seesseseseeeeeenneeeennnen nennen nnns 7 2 Projection Screer Kits SEES 8 3 Multi Video Processor RMD V3104U RMD V3104A 14 4 Multi Video Processor RMD V3216 V3109 3000X 19 5 Projection Stand RMA V5020 20 6 Adjustment Control Unit RU V107 Option esssssesssseeeeee enne enne enne nnne nnne nnn 21 2 Diagram of system dimensions eenia aien aa aaea p aa nnne nennen nennen 22 1 Single Rien Eas We ha an pn eet gave ea 22 VAR GARD E 23 3 3296 3 OV DO ACID 23 CHAPTER INSTALLATION AND ASSEMBLY sees 24 1 INSTALLATION CONDITIONS a aea eere rae a nennen neat eaa A ei aaan a oiean paia initie niai 24 1 W ight toler
8. C VIDEO MVP input i To each MPJ wvB Y C input Rs232C RS 232C To MVP Personal computer for control Switching of Displays e Enlarged display D Select the signal displayed by the matrix SW and send the signal line to the MVP 2 Set the input to Y C e Multi display D Select the signal displayed by the matrix SW and send the signal line of the MPJ m P Set the MPJ input to C VIDEO 5 SPECIAL INSTALLATION 1 Wall inset See the descriptions in 2 4 and 17 under 1 Installation conditions NOTE With the RM V2550S2 the external dimensions of the system may change with changes in temperature and humidity In the case of embedding in a wall make sure that you leave space as follows both at the sides and at the top 2mm per row column of screens Example For 4 screens 2 x 2 4mm of space is required at the sides and 4mm at the top 2 Diagonal installation This system cannot be placed facing upwards or downwards and diagonally Always place it horizontally 3 Architrave processing When enclosing the screen with a frame etc add 15 mm H 15 mm to the dimensions of the assembled screen at the top bot tom left and right Fig 3 4 53 15mm Perform framing constructions after assembling the screen If light leaks from the rear space after constructions place a blind plate over the rear 4 Upside down installation Not possible 15 5 Hanging from ce
9. PIN MID PIN 4D PIN MID 4D PIN Moves the point to be adjusted down in the POINT CONVER ADJUST MODE Selects GREEN HIGH LIGHT in the WHITE BALANCE ADJUST MODE Selects H BLK R in the DEFLECTION ADJUST MODE 9 Adjustment Mode 14 Selects 9 for ID SET and ID SELECT in the ID SET CLEAR SELECT MODE Cyclically selects TV SYSTEM in the OPERATION MODE in the following order zt E Selects V MID LINEARITY in the DEFLECTION ADJUST MODE Cyclically selects the item to be adjusted in the CONVERGENCE ADJUST MODE in the following order Eg SUB PIN gt MID SUB PIN 4D SUB PIN gt MID 4D SUB PIN Selects BLUE HIGH LIGHT in the WHITE BALANCE ADJUST MODE lt Adjustment Mode gt 15 Selects A for ID SET and ID SELECT in the ID SET CLEAR SELECT MODE Subtracts 10 from the current CONTRAST adjusting value in the DEFLECTION ADJUST MODE CONVER GENCE ADJUST MODE and POINT CONVER ADJUST MODE Returns to the original adjusting value when the adjustment mode is exited Selects RED LOW LIGHT in the WHITE BALANCE ADJUST MODE lt Adjustment Mode gt 16 Selects B for ID SET and ID SELECT in the ID SET CLEAR SELECT MODE Selects H PIN in the DEFLECTION ADJUST MODE Selects GREEN LOW LIGHT in the WHITE BALANCE ADJUST MODE Lc lt Adjustment Mode gt 17 Selects C for ID SET and ID SELECT in the ID SET CLEAR SELECT MODE
10. bottom part of the screen top part of the screen using V SIZE and V LINEARITY Also it can adjust the to the right side of the screen using H SIZE and GH LINEARITY Reference information left side of the screen Observe here in addition to the in addition To adjust the NTSC input for horizontal 93 and vertical 92 use the frame size screen of the LD test disc GGT1072 frame No 5941 Horizontal Adjust so that the sixth 92 5 line from the inside can be seen completely Vertical Adjust so that the sixth 92 5 line from the inside can be seen only slightly 93 ADJUSTMENTS 5 6 17 Point convergence adjustment Position of adjustment point on screen In point convergence adjustment the 25 points set on the screen can be adjusted individually In addition the area total ten areas of five lines and ranks of the four sides of the screen can be adjusted Notes e The adjusting points set by the circuit are fixed at the positions shown in the figure In some cases the OSD display may deviate But the actual adjusting points are as shown in the figure e Deviation between two adjusting points will naturally be corrected when the deviation of each point is corrected 94 ADJUSTMENTS Movement of screen by point convergence adjustment OSD display Movement of screen
11. OXO 104 el 1 t SULLAN SLIDE SUL COMIN CRA z 5 Dynamic conve ode conven m rgence In addition to the point conve nvergence adju al tion formed nce adjustment verge V Con J Cu ERES Sul sl zI SUD SRI SU SAMA a UI 7 7 5 cu N ui D N gt a D A ao MYYTY Cu Cu al 1 z i 2 gt e AIA LA e 1215 105 89 NldS 9G NidS CIN H Convergence adjustment ADJUSTMENTS 5 Dynamic convergence dv oo AE LTT LT Nid 8 Nid ZG AJAS AEN MAAS CE dA un ud 8v 345 CIN 106 81 HBLKL and H BLK R adjustments ADJUSTMENTS H BLK L H BLK R adjustments are performed to obtain the optimum convergence adjustment wave form when the display range changes due to changes in the H SIZE Video signal i Display range gt Convergence adjustment wave form Video signal Display g_ range ter size i changed Convergence AE adjustment wave form Convergence adjustment wave form Adjustment Adjustment by H BLKL by H BLK R
12. 2400 4800 9600 19200 7 8 NON ODD EVEN a 2 Setting at shipment This setting can be changed using the DIP switches on the panel Refer to Chapter 2 P 17 MVP panel Baud rate switch Signal name FG Tx Rx RTS CTS DSR SG lt Video Processor Side gt Straight RS 232C IN FG RxD TxD CTSI RTSI SG 1 DSRI Frame Ground Trandmitted Data Received Data Requenst to Send Clear to Send Data Set Ready Signal Ground Pins 4 5 and 6 are short circuited inside Pins not shown in the diagram are NC 153 MVP MANUAL 3 INSTRUCTIONS FOR USING A COMPUTER AS A TERMINAL lt When the IBM PC AT is used gt Use commercially available communications software Use PC DOS internal commands TYPE COPY etc Pay attention to use because only one way transmission of data is possible in this case With the PC 9800 series Use commercially available communications software CCT 98 etc Use the MS DOS commands TYPE COPY etc Pay attention to use because only one way transmission of data is possible in this case Example of a program GW BASIC gt 100 OPEN COM1 9600 7 1 AS 1 110 ON COM1 GOSUB RCV 120 COM1 ON 130 LOOP 140 A INKEY IF A THEN LOOP 150 PRINT 1 A 160 GOTO LOOP 170 RCV 180 IF LOC 1 lt gt 0 THEN PRINT INPUT LOC 1 1 190 RETURN lt Communication mode settings in use of CCT98 gt Set the CCT98 communicat
13. Bolt Anchor Anchor Fig 3 4 51 3 Anchor bolt diameter With both methods a and b in 2 use bolts with diameters of M10 or more 4 L shaped bracket thickness The L shaped brackets used with method b in 2 should be made of sheet iron with thickness of 4 mm or more 5 Effective anchor thread length The anchors and anchor bolds should have an effective thread length of 6 5 mm or more NOTE Besure to check the installation strength after anchor fixation Otherwise the floor may fall out due to mistake in installation mistake or defect in concrete material For detailed dimensions and strength of the anchors refer to their product catalogue etc AN Pioneer will accept no responsibility for accidents or damage resulting from anchors or insufficient anchor installation strength 74 INSTALLATION AND ASSEMBLY 5 Connections for 4 screen system Accessories Interlock cables 6 pin mini DIN cord Connect the provided cables as shown in Fig 3 4 52 After connection clamp cables using cable clamps NOTE When you want to connect the RS 232C communications connector and remote controller from the leftmost position seen from the rear of the system invert the IN OUT connections of the interlock cables 6 pin mini DIN cord The following illustration shows an example in which the are connected from the rightmost position MH at al 2 C4 2 SIE el
14. 12 screen system 6 places Right side of top edge of screen D Left and right sides of top edge of screen 2 Left and right sides of top edge of screen 3 6mm Left side of top edge of screen Screws 2 cross recessed self tapping screws nominal diameter 4 length 10 cone point per connector included as accessories Fig 3 4 30 Connectors Screws Connectors Fig 3 4 29 9 screen system Fig 3 4 29 Connectors 12 screen system Fig 3 4 29 b 62 INSTALLATION AND ASSEMBLY Notes Connectors are also required in the corresponding places on the lower edges of the screens in the bottom row but if these connectors are attached first then it will not be possible to get the screens to stand up unsupported making the subsequent work difficult These connectors should thus be attached after mounting the screens on the cabinets If the system setup is such that it will not be possible to attach the lower connectors after mounting the screens on the cabinets then you should attach these connectors first Step 4 Preparing the screens 2 to Mounting on the cabinets The procedure for this step will be explained separately for the cases of the 4 screen 6 screen 9 screen and 12 screen assemblies Notes As far as possible you should carry out the work on a level floor since otherwise it may be difficult to align the screens correctly Moreover you should carry out the work as close
15. Due to the layout of the red green and blue CRTs when the screens are viewed diagonally they may appear reddish or bluish Color shift For multiple screens as the angles of the left and right screens are different to a viewer they may appear to have different colors O Before adjustments check the user s visual point and adjust at that point c Because the white balance is adjusted using high light drive and low light cutoff the red green and blue may not be balanced at the mid range of luminance In this case adjust R G B LOW LIGHT or R G B HIGH LIGHT at the mid range and make the balance of these colors consistent from low luminance to high lumi nance 116 ADJUSTMENTS 6 External control by MPJ RS 232C As MPJ is equipped with a RS 232C port various controls and white balance and convergence adjustments can be performed by an external computer By programming software it is possible not only to adjust White Balance Convergence but to save and control the adjustment data of each source Note When performing external control of the MVP using RS 232C connect a RS 232C cable to the rear panel of the MVP and refer to the steps in Chapter 7 page 153 Connection with MVP external com Signal Name puter and onwards DInterface 1 Connector D sub 25 pin 2 Pin assignment PIN No Symbol 1 FG Frame Ground 2 RXD Received Data 3 TXD Transmitted Data
16. Status display turns on and off cyclically 32 Cw lt Adjustment Mode gt Moves the convergence down in the POINT CONVER ADJUST MODE 33 lt Adjustment Mode gt Exits the adjustment mode 34 LED for Confirming Transmission 137 ADJUSTMENTS 2 Performing adjustments 1 Entering and exiting the adjustment mode Turn on the power switch and press the two 9 9 J keys of the remote control together The adjustment L ADJ IN 1 mode will be set To exit this mode press the key of the remote control The normal screen will return 2 Using the adjustment mode The following main menu will be displayed when the adjustment mode is entered ADJUST 1 10 SET CLEAR SELECT 2 0OPERATION MODE 3 DEFLECTION ADJ 4 CONVERGENCE ADJ 5 POINT CONVER ADJ 6 WHITE BALANCE ADJ 7 MEMORY READ COPY e Main Menu 1 ID SET CLEAR SELECT mode Used for selecting setting and clearing the ID 2 OPERATION mode Switches the setting such as input selection ABL linkage ON OFF etc 3 DEFLECTION ADJ mode Adjusts the main deflection size etc But all three colors RGB at once except GH LINEARITY 4 CONVERGENCE ADJ mode Adjusts the convergence R G and B can be adjusted individually 5 POINT CONVER ADJ mode Adjusts the convergence by point and zone convergence R G and B can be adjusted individually 6 WHITE BALANCE ADJ mode Adjusts the white balance color 7 MEMORY READ COPY mode Adjusts th
17. 3 Hexagonal nut MB8 eene 5 Light shield black 4 1The RS 232C baud rate is set at 4800 bps upon shipment from the factory The setting can be changed by remote control or from a computer 2 Only RGB 1 or RBG 2 can be used selected by switch 3NTSC color bar signal input and other adjustment data as set upon shipment from the factory 4 Bolts for connecting the MPJ to a stand are not included with the MPJ they are included with the standard stand GENERAL SPECIFICATIONS 2 Projection Screen Kits 4mm screw screen RM V2550S External dimensions 1030 8 x 768 5 x 84 8mm luii RC 13kg Accessories Hook fitting 1 Hook fitting right 1 Screen frame fastener 1 Cross recessed tap tight screws wood screws nominal diameter 4 length 18 2 nominal diameter 4 length 8 18 Cross recessed small screw M6x10 1 Cross recessed tap tight screw with metal washer nominal diameter 4 length 12 1 1mm screw screen RM V2550S2 External dimensions 1030 8 x 768 5 x 84 8mm uto Tm 8kg Accessories Hook fitting left 1 Hook fitting right 1 Screen frame fastener 1 Connector ore die neret cients 1 Cross recessed tap tight
18. N WARNING Never attempt to lift or suspend the cabinet by hooking the holes on it with a crane etc This is extremely dangerous because these holes are not strong enough to withstand the crane car riage Should an accident occurs as a result of an at tempt to carry the cabinet with a crane we can not assume liabilities for resulting damages Fig 3 2 7 38 Fig 3 2 5 Center of gravity Step position Grip Fig 3 2 6 A Never hang the cabinet by the holes indicated by arrows Fig 3 2 7 INSTALLATION AND ASSEMBLY 3 PRECAUTIONS FOR TRANSPORTATION Always place them upright If they are stacked on their sides or backs vibration and shock may cause damage or fire hazards Caution for transportation of cabinet The cabinet is sensible against falling impact and vibration Be careful not to place a heavy object on it or drop it during transportation B Caution for transportation of screen units The screen units have been designed for permanent installation and hardly repackaged and re transported The following description is given for reference for the rare case in which they have to be re transported Pack it properly according to the packaging specifications Fig 3 2 2 Also check the following conditions 1 The protection panel has been properly attached by the transportation screws eight RM V2550S only In the case of the RM V2550S2 make sure t
19. A Input port A selects option port input C Input port C selects video input Inputs that have been selected for each output terminal d1 Magnification in the H horizontal direction 1 8 d2 Magnification in the V vertical direction 1 8 The input port for RM V1000N system processor video input is input port B Monochrome mode is usually cancelled but by adding B to the end of the command you can execute the command while maintaining monochrome display Example M11A22 Display the A input at a magnification of 2 in the horizontal direction and a magnification of 2 in the vertical direction taking the origin as 11 1 2 1 2 1 1 2 2 189 MVP MANUAL Matrix screen no Indicates the position of the output screen that will become the top left corner of the magnified display When this is outside of the 64 actual screens you should consider the 256 imaginary screens shown in the diagram below In this case the screen nos are as follows 11 88 Matrix display area of the 64 actual screens 91 F8 Imaginary screens the 64 screens to the left of the actual screens 19 8F Imaginary screens the 64 screens above the actual screens 99 FF Imaginary screens the 64 screens above and to the left of the actual screens Standard screen for the 256 imaginary screens a EE cin ae cca 9A AA BA aaa pes dm ae EA FA 1A 2A 4A 5A 7A 1 1 4B 5B 6B
20. Adds 10 to the current CONTRAST adjusting value in the DEFLECTION ADJUST MODE CONVERGENCE ADJUST MODE and POINT CONVER ADJUST MODE Returns to the original adjusting value when the adjustment mode is exited Selects BLUE LOW LIGHT in the WHITE BALANCE ADJUST MODE CD Adjustment Mode 132 Selects D for ID SET and ID SELECT in the ID SET CLEAR SELECT MODE Selects GH LINEARITY in the DEFLECTION ADJUST MODE Note This adjustment item is the same as GH LINEARITY in the convergence ADJUST MODE Selects ABL LEVEL in the WHITE BALANCE ADJUST MODE It is validity at COMBINATION ON ADJUSTMENTS 18 lt Adjustment Mode gt Selects E for ID SET and ID SELECT in the ID SET CLEAR SELECT MODE 19 lt Adjustment Mode gt Selects F for ID SET and ID SELECT in the ID SET CLEAR SELECT MODE ADJ 20 18 Adjustment Mode Cyclically switches the adjusting color and direction between RH and RV in the CONVERGENCE ADJUST MODE Selects the adjusting color RED in the POINT CONVER ADJUST MODE ADJ 21 C lt Adjustment Mode gt Cyclically switches the adjusting color and direction between GH and GV in the CONVERGENCE ADJUST MODE Selects the adjusting color GREEN in the POINT CONVER ADJUST MODE ADJ 22 B lt Adjustment Mode gt Cyclically switches the adjusting color and direction between BH and BV in the CONVERGENCE ADJUST MODE Selects the adjusting color BLUE in the POINT CONV
21. Also count in the current leakage of other equipment than the video output equipment assuming that the leaked current of each piece of equipment is 0 5 mA Within Japan the current is generally 15A 20A per circuit It is thus imperative that you route the power supply through a breaker To prevent voltage dropping current waveform degradation and noise induction in the middle of the circuit always supply power directly from the power distribution panel Do not use an existing wall outlet etc to supply power as this is extremely dangerous It is extremely dangerous to supply power from existing wall outlets etc Install the system near the outlet for connecting the units of the system as much as possible Set the current capacity slightly greater about more than 25 of the total consumption power 15 Cables used Use a coaxial cable for the external input cable Normally use a 3C 2V for less than 15m long Use 5C 2V for greater lengths Adjust the length of the cables The distance between the transmission system and MPJ should be as short as possible When the distance is great consider the thickness of the cable and electrical compensa tion carefully The limit is as shown when using the cables to connect the transmission final output terminal and the system 3C 2V 15m 5C 2V 30m To use a longer cable the VIDEO signal must be corrected NOTE To install the system up against the wall use L shaped BNC conversion adapters 16
22. ON 6 Indicates the picture muting on off mode when 4800BPS the input function is switched AUTO NTS 7 Indicates the transfer speed for computer con MEMO 1 trol 8 Indicates the TV system mode 9 Indicates the memory area status for the selected convergence data GENERAL SPECIFICATIONS RGB 1 terminal Analog RGB 0 7 Vp p 75 ohm Synchronizing signal 0 3 Vp p to 4 Vp p 75 ohm Connection terminal 9 pin D SUB male Pin layout 1 R 6 GND 2 G G on Sync 7 VD 3 B 8 2 6 inner thread screw T guapos SEHE 5 HD Sync VIDEO input The video output terminal outputs the signal input to the input terminal through out When connecting other devices terminate the other device at 75 ohm and set the unit s 75 ohm terminating switch to OFF open When not connecting other devices always set the terminating switch to ON Power outlet A Power outlet unswitched RM V2550BU MAX 8A AC 100V to 120V RM V255OE MAX 550W AC 220V to 240V This outlet is for adding multi projection units Do not use it for other purposes Power outlet power consumption Up to two other multi projection units can be connected after one multi projection unit AC OUTLET f UNSWITCHED AC OUTLET f UNSWITCHED AC100 120V 50 60Hz AC220 240V 550W RM V2550BU RM V2550E 13 GENERAL SPECIFICATIONS 3 Multi Video Processor RMD V3104U RMD V3104A Input signal Input video s
23. RBG input selector switch Slide switch Switch for selecting the RGB signal input terminal format RGB input terminal vertical synchronization RGB input terminal horizontal synchronization composite synchronization BNC connector BNC connector RGB signal vertical synchronization input terminal RGB signal horizontal synchronization and composite synchronization for only input signal H V synchronization input terminal RGB input terminal B BNC connector RGB signal B input terminal amp RBG input terminal G G on Sync BNC connector RGB signal G or G on Sync input terminal RBG input terminal BNC connector RGB signal R input terminal Turn the power off with the POWER switch on the set through RS 232C control or with the wired remote control unit sold separately If the power supply is interrupted with the main power switch or if the power cable is disconnected from the outlet the switch settings in 12 above the TV system and the convergence memory settings will not be stored in the last memory Thus for permanent installations to start up and stop the entire system by turning the AC power on and off the power must first be turned off as described above in order to store the settings in the last memory Refer to Chapter 4 2 5 Last memory of adjustment data and settings Total power on time Only counted when power is set
24. Scrambled CATV signal Signal other than NTSC PAL standard signal Signals whose sync signal and video signal phases are considerably different In some cases the centers of H and V cannot adjusted If adjustments can be performed using the expan sion equipment etc use it Signal with extremely narrow feedback period e If the power is repeatedly turned on and off by disconnecting the power cord the count of the hour meter may be incorrect The hour meter serves as a reference for how long the unit has been used and the operation is not affected by the count error 147 2 NOT MALFUNCTION In some cases the screen from appear bluish when seen from the left and slightly reddish when seen from the right This phenomenon called color shift is inevitable due to the structure of the projection system in which the R G B tubes are lined up and light is projected from the rear When bright images are displayed in the dark the light reflected on the lens will shine in the darkness slightly This phenomenon called tube inside reflection is inevitable due to the structure of the projection whose CRT light has been expanded using the lens Fig 6 1 Reflected light Fig 6 1 148 PRECAUTIONS 3 CHECKING THE ADJUSTMENTS 1 Preparation for adjustments Connect the power supply as well as the input signal cables and ABL interlock cables control cables Arrange the connected cables neatly After completi
25. Use this hole to LL fasten Nominal dia 4 x 12 x 4 With a 9 screen system L 2 42 Nominal dia 4 x 12 x6 Fig 3 4 17 7 Fix the screen frames of the upper stage Fig 3 4 18 Use previously removed transport panel V Screws 4 dia x8 2 provided with each screen frame 2 screw points Transport Insert the bent section into the clearance be tween the cabinet and screen 4 screen 2 x 2 screen system Attach to 1 point 9 screen 3 x 3 screen system Attach to 2 points Fig 3 4 18 52 INSTALLATION AND ASSEMBLY 2 9 screen system assembly using the RMA V5020 WL Please refer to the section on 4 screen system assembly for cautionary notes 1 Place the cabinet on each stand 3 cabinets NOTE Always carry each cabinet with more than one person 2 Adjust the positioning of the cabinets Fig 3 4 19 Align the front and rear of each cabinet stand with respect to the L shaped brackets on the stand Align the left and right of each cabinet stand so as to make flush the side surfaces of the cabinet stand on the side which comes in contact with another cabinet stand pair Place the central cabinet stand in a symmetrical position with respect to the other pairs of cabinet stand Left right symmetrical Bolts M8x30
26. 7B 8B s zaf oef Actual screens mmm e zs so os vo oo Actual screens Any designations in the shaded area are invalid Moreover a designation of an imaginary screen e g M99A77 is invalid if the magnified region does not fall within the actual screen area Please ensure that you designate the matrix screen no in such a way that designated display region falls within the actual screen area 190 MVP MANUAL D command Form Dh1h2a Function Outputs the designated input on the designated screen while leaving the images on the other screens as they are distributed output Explanation h1h2 Screen no 00 03 FF 00 03 Designates the screen no FF Designates all of the screens Screen no a Image input A C A Input port A selects option port input C Input port C selects video input Inputs that have been selected for each output terminal The input port for RM V1000N system processor video input is input port B Monochrome mode is usually cancelled but by adding B to the end of the command you can execute the command while maintaining monochrome display The output display is at a 1x1 magnification If you wish to designate the magnification you should use the B command or the M command Example Display the output at a magnification of 1 on screen no 03 ALTA This command can be used only with input ports A and C in the case of the
27. 9 30 and 18 00 weekdays For service at other times and on weekends and holidays contact your salesperson 3 Pioneer has a system of registration for servicing of this system The system must be registered with the Pioneer Service Division regardless of whether it was purchased at an agency or directly from Pioneer Servicing may not be offered for systems that are not registered For details contact the person responsible at Pioneer 4 Pioneer will offer no guarantees or servicing for products purchased domestically which are used in foreign countries 4 CAUTIONS ON ASSEMBLY AND MAINTENANCE Clean the net of the MPJ s fan air intake and exhaust holes periodically to prevent clogging A Working in high places is extremely dangerous If tools or other objects fall they could damage the equip ment or even cause injury Be extremely carefully when working in high places e Repairing the wooden cabinet This model uses a wooden cabinet If the cabinet requires repairs due to visible scratches or chipping Pio neer recommends using a commercially available wood repair product filler touchup pen etc 146 CHAPTER 6 PRECAUTIONS 1 PRECAUTIONS ON FUNCTION AND PERFORMANCE OF SYSTEM The picture may turn to disorder temporarily due to power discharge inside the CRT tube but it will recover automatically after a few seconds In the new CRT the very slight amount of impurities remaining inside in
28. Computer Reges Multi projection Multi projection Multi projection PC9800 etc unit unit unit OUT IN OUT IN OUT or Linking cable Linking cable Remote control unit Generally about 16 multi projection units can be adjusted with the remote control unit 77 ADJUSTMENTS 2 Processing of wires When installing for long periods of time such as for permanent installations rather than short term events use wires of the appropriate length considering the overall routing of the wiring Make sure that the connection terminals are not subject to direct loads or forces For short term installation the wires can be bound together by string etc but for long term installations they should be properly bound 3 Aging After turning on the power input the 100 white signal or moving images and perform aging until multi projection unit stabilizes about 1 hour If adjustments are performed without aging as it takes time until Multi projection unit will warm up and stabilize convergence and white balance will become incorrect 4 Adjustment signals Use the composite video signal for adjustments created in the multi video processor When converters not creating the signals for adjustment are used supply the signals for adjustment from equivalent signal sources signal generator LD player etc Generally required signals Adjustment Signal N
29. EXT control BNC connector Remote input Mini jack Auto input 6 pin DIN connector Output signal Video output Standard level 75 ohm load 1 Vp p Outputs input signals from input terminals Remote output 6 pin DIN connector Computer control Method RS 232C D SUB 25 pin Speed 1200 2400 4800 9600 19200 bps 1 Power supply voltage for RM V2550BU AC 100V to 120V 50 60 Hz for RM V2550E AC 220V to 240V 50 60 Hz Normal power consumption for RM V2550BU approx 300W 3 for RM V2550E approx 300W 3 Maximum power consumption for RM V2550BU sees 400VA for RM V255OE sesseeeeeeeeennreeenns 400VA AC outlet Max 8A AC 100V to 120V for RM V2550BU 1 AC outlet Max 550W A AC 220V to 240V for RM V2550E cccccssessssessssssnseeeeeseeeeeeeeeeeeeneess 1 External dimensions uius 1030 8 W x 1115 H x 665 2 D mm when RM V2550S or RM V2550 S2 fitted 1030 8 W x 1115 5 H x 750 D mm Lbs LLLI 74 kg 87kg when RM V2550S fitted 82kg when RM V255082 fitted Accessories RM V2550BU RM V2550E POWEr CORG 5 4rd 1 4 Control cable 1 Used to control multiple multi projection units Hexagonal bolt w washer M8x65 2 Hexagonal bolt w washer M8x45
30. OV KEY lt 020 gt OV S KEY lt 025 gt OV 4D PIN lt 026 gt OV 4D S PIN lt 009 gt OV MID KEY lt 010 gt OV MID S KEY lt 015 gt OV MID PIN adjustment data 3 BYTE adjustment data 3 BYTE adjustment data 3 BYTE adjustment data 3 BYTE adjustment data 3 BYTE adjustment data 3 BYTE adjustment data 3 BYTE adjustment data 3 BYTE adjustment data 3 BYTE adjustment data 3 BYTE adjustment data 3 BYTE adjustment data 3 BYTE adjustment data 3 BYTE adjustment data 3 BYTE adjustment data 3 BYTE adjustment data 3 BYTE adjustment data 3 BYTE adjustment data 3 BYTE adjustment data 3 BYTE adjustment data 3 BYTE lt O16 gt OV MID S PIN adjustment data 3 BYTE lt O21 gt OV MID 3D KEY adjustment data 3 BYTE lt O22 gt OV MID 3D S KEY adjustment data 3 BYTE lt O27 gt OV MID 4D PIN adjustment data 3 BYTE lt O28 gt OV MID 4D S PIN adjustment data 3 BYTE 6 ETX 03H Note 0 RorGor B 3 lt GDD gt GET DEFLECTION DATA Deflection adjusting data is output Format Output in the following order D STX 02 H HSI H SIZE VST V STATIC VSI V SIZE adjustment data 3 BYTE adjustment data 3 BYTE adjustment data 3 BYTE 5 VLI V LINEARITY adjustment data 3 BYTE 6 VMS V MID SIZE adjustment data 3 BYTE 7 VML MID LINEARI
31. R61 P CONV ADJ 61 x O O RED point convergence adjustment Same as BLUE RPO P CONV ADJ PO RHI RED HIGH LIGHT x O O RED HIGH LIGHT adjustment RLW RED LOW LIGHT x O RED LOW LIGHT adjustment RON RED ON x X X Turns ON RED ROF RED OFF x X X Turns OFF RED RYN RELAY NO x X X Turns combination relay off Note 7 RYY RELAY YES X X X Turns combination relay on Note 7 S SHP SHARPNESS x O O Adjusts SHARPNESS Note 6 STD STD W B DATA x x x Re writes white balance adjusting data in factory memory STC STD CONV DATA x x X Re writes convergence adjusting data in factory memory SW1 SWITCH MENU 1 X Displays various settings in OSD T TNT TINT x O O Adjusts TINT Note 5 TS1 TEST CROSS 1 X X X Displays test cross TVA TV SYSTEM AUTO O X X Sets TV SYSTEM mode to auto mode U UPO UP 10 X X X Increases adjusting value by 10 UPn UP n X X X Increases adjusting value by n UPF UP FULL X X X Maximizes adjusting value US1 USER 1 O X X Switches convergence adjusting data to user 1 Note 4 US2 USER 2 O X X Switches convergence adjusting data to user 2 Note 4 US3 USER 3 O X X Switches convergence adjusting data to user 3 Note 4 V VSI V SIZE x O O Adjusts V deflection SIZE VLI V LINEARITY x O Adjusts V deflection LIN VST V STATIC x O O Adjusts V deflection STATIC VMS V MID SIZE x O Adjusts V deflection MID SIZE VML V MID LINEARITY x O O Adjusts V deflection MID LIN VMY VIDEO MUTE ON X X X Sets video mute to ON when the input function switch
32. REMOTE MODE Remote state MANUAL MODE Manual state 7 Slot number 8 Type of input board NTSC BOARD NTSC input board V SCAN BOARD Variable scan board option NO BOARD No input board is incorporated 9 NTSC input board state STANDARD MODE When standard NTSC signal is input NO STANDARD MODE When non standard NTSC signal is input 10 Display of VBS Y C select switch state VBS Composite video signal input Indicates V FIL ON for the V SCAN BOARD Y C Y C separation signal input Indicates V FIL OFF for the V SCAN BOARD 11 Type of output board 4 OUT BOARD 4 output board NO BOARD No output board is incorporated 5 To perform NTSC input board picture quality adjustment 1 To set the adjustment mode AJYC command 2 To exit the adjustment mode AJN command Input AJYC J AUN Explanation AJYC command Sets the NTSC input board to the adjustment mode AJN command Exists the adjustment mode When adjusting the NTSC input board the adjustment command will be ignored if AJYC is not executed To set the optional variable scan board to the adjustment mode Use the A command Refer to page 171 and on 165 MVP MANUAL 3 Bright compensation BRT command Input BRTd Explanation Corrects the brightness of the NTSC input board d Compensation value 0 to F BRTd Displays the current value and moves to the sub command mode To execute this command it is nec
33. Stepladder or similar type of support size selected according to number of stages and installing height Double ended wrenches 13 x 2 Spanners 17 19 x 2 each Box wrenches may be unusable in certain positions Please refer to the pages listed in the following table for the assembly procedures Installing screen RM V2550S RM V2550S2 4 screens P43 to 6 screens See P43 to 9 screens P54 12 screens See P54 to 41 INSTALLATION AND ASSEMBLY D 4 screen system assembly using the RMA V5020 WL Installing the cabinets 1 Place the cabinet on each stand 2 cabinets NOTE Always carry each cabinet with more than one person 2 Adjust the positioning of the cabinets Align the front and rear with respect to the L shaped brackets on the stand Align the left and right so as to make flush the side surfaces of the cabinet and stand on the side which comes in contact with the other pair of cabinet and stand E RS Ma En Bl a ETE gt T Bolts M8x30 Flush i FU T 10 OL i5 y Fig 3 4 1 3 Fix the cabinets using bolts Front M8x30 x 2 provided with each stand Rear M8x60 x 2 provided with each stand Rear view M8x60 x 2 Fig 3 4 2 42 INSTALLATION AND ASSEMBLY 4 Align the left and right cabinets If the following
34. Tint adjustment TNT command Input TNT didzd3 J Explanation Corrects the tint of the NTSC input board Compensation value 0 to 255 TNT Help display TNT Displays the current value and moves to the sub command mode To execute this command it is necessary to set the adjustment mode by AJYC Refer to the AJYC command If data input is skipped the sub command input mode is set after the data is displayed The sub command mode is the same as with the COL command The changed value is memorized the last Example TNT Indicates the current tint value 128 6 Controls the panel switch function 1 To set the manual mode MNL command 2 To set the remote mode RMT command Input MNL J RMT J Explanation Manual mode Makes the following switch functions effective Variable scan board filter on off switch 2 VBS Y C select switch MODE switch The RESET button is required The manual mode is set at POWER ON or RESET button e Remote mode Mode in which the above switching setting are selected via the RS 232C line In this case the above switch states are ignored The settings which can be switched by the remote mode are as follows Optional RGB board FILTER ON OFF switching Refer to the DSY and DSN commands RMD V3020 V IN Composite video YC separate switching Refer to the CIC and YIC commands V OUT output format MODE switching Refer to NT NTR NTD commands 3 To sel
35. V MID LINEARITY 5 key H SIZE key H PIN key V LINEARITY D key LINEARITY isthe same as GH LINEARITY in 4 CONVERGENCE ADJ 4 Adjusting the green horizontal size GH SIZE 1 Enter the adjustment mode 2 Press the key to select 4 CONVERGENCE ADJ c C22 3 Press the key until the OSD display becomes GH The following can be adjusted in the same way R key gt RV key BH gt BV 4 Press the key until the OSD display becomes SIZE Then use the and keys to adjust the GH SIZE The following can be adjusted in the same way key STATIC t SIZE gt MID SIZE gt 5D SIZE LINEARITY MID LINEARITY 6D EAN key SKEW 3D SKEW 5D SKEW 5 Jkey gt KEY MID KEY 3D KEY MID 3D KEY key SUB KEY MID SUB KEY 3D SUB KEY MID 3D SUB Kex key pt BOW 4D BOW 60 BOW 87 key MID PIN 4D PIN MID 4D PIN 9 kev m SUB PIN MID SUB 4D SUB PIN gt MID 4D SUB PIN F 140 5 6 7 ADJUSTMENTS Adjusting the red point convergence 1 Enter the adjustment mode 2 Press the 5 key to select 5 POINT CONVER ADJ 3 Press the key so that only the blue of the screen is erased The following can be selected in the same way Green adjustment Blue adjustment 4 Use the CA r and keys to move the OSD display to th
36. When stacking the upper screen unit make sure that it does not brush the lower screen unit as it has panel screws projecting out 39 INSTALLATION AND ASSEMBLY 4 ASSEMBLING THE SYSTEM 1 System assembly flowchart Fix a cabinet on the projection stand lt See P 43 gt Arrange the required number of cabinets horizontally and connect them between each other See P 44 Connect the cabinet for the second stage See P 46 3 stage configuration With a 9 screen system connect the cabinet for the third stage after 2 stage configuration connecting that for the second stage See P 58 Move the system YES up against the wall lt See P 48 gt Do you install the system up against the wall lt See P 48 gt NO Perform the system wiring on the rear See P 48 Check power supply operation etc See P 48 Fix the adjusters lt See P 48 gt Prevent tumbling down and fix the anchors lt See P 26 76 gt Connect the screen frames vertically lt See P 49 gt Hook the screens on the cabinets all lt See P 50 gt Fix the screen frames and cabinets lt See P 53 gt 40 INSTALLATION AND ASSEMBLY 2 Assembling the system Install the screen unit after stacking the cabinets Required assembly tools Minimum number of operators 4 screen 3 persons 9 screen 4 persons No 2 screwdriver
37. You should take particular care if the backyard is a closed room with no windows and powerful air conditioning is installed 30 INSTALLATION AND ASSEMBLY 14 Power supply A 7 Power supply voltage The guaranteed voltage of this system is 10 of the rated voltage But if the impedance of the power wires is high the voltage waveform will become distorted and show the same symptoms as when voltage drops abnormally As the following must be noted even if the voltage is within the allowable range check the power wiring again The voltage drop from the switchboard to this system is great The voltage changes greatly when the power of the system is turned on and off Roughly 5 of the rated voltage 2 Power supply capacity When calculating the capacity assume that the maximum power consumption per multi projection unit is 400 VA by reserving a certain headroom Current capacity Multi projection units Power capacity RM V2550BU RM V2550E 120V 220V 240V 1 screen 400 VA 3 3A 1 8A 1 7A 4 screens 1600 VA 13 3A 7 3A 6 7A 9 screens 3600 VA 30 0A 16 4A 15A The current increases as the voltage drops Design the power supply by reserving a headroom by referring to the connection description in below When a single power line same power distribution panel is used to power another system be careful not to exceeds the power distribution capacity by taking the power consump tion of the other system in cons
38. command or the TACT switch on the rear panel and finish the adjustment mode if you were set each data in the adjustment mode They will not be memorized by AC ON OFF When starting up stopping the system by AC ON OFF under the long term installation conditions memorize the contents before executing AC ON OFF There is a limit to the RS 232C communication buffer in the MPJ If too many commands are sent at once it will not operate properly The RS 232C command excecution time When sending RS 232C command send the next command after minimum 500m sec Especially the following commands need more than 500msec a The assigned command of the POINT CONVERGENCE ADJUST POINT 1 5 b IN1 3 Input switching 1sec c TVA NTS PAL TV system setting 1sec If the next commands are sent before these time they may not be received Care when making programs like the direction Exiting the personal computer adjustment mode The personal computer adjustment mode is automatically exited when the following steps are performed a When the rear panel switch is set b When the power is turned OFF c When the input signal is switched the cable is disconnected or the mode is switched NTSC AL However in some cases switching between PAL and no signal may not exit the mode To continue adjustments set the re adjustment mode again ADJUSTMENTS 7 Adjustments by remote control MPJ adjustments can be performed using the remote c
39. nor throw into fire the dry batteries provided 143 CHAPTER 5 OPERATION AND MAINTENANCE 1 MAINTENANCE 1 Re adjustments after 3 months Even if the RM V2550BU is adjusted adequately at the time of installation adjustment values may start to devi ate with time These values will not change when adjustments are performed the second time The appropriate time for performing re adjustments is 3 months after installation It is recommended that these adjustments be taken into consideration when the unit is installed 2 Periodic maintenance For the unit to display its best performance stably for a long period of time it is recommended that periodic maintenance be performed There are mainly two types of periodic maintenance Cleaning Although this depends considerably on the environment used in the CRT lens surface screens etc are cleaned mainly e Re adjustments Re adjustments must be performed if required Pioneer recommends that contracts on periodic maintenance be signed 3 Replacement of parts Replacement and addition of parts are as follows and are to be performed by Pioneer service personnel Request for these services when required D CRT The luminance decreases as the unit is used as with other visual equipment How much it decreases depends on the images displayed and the using conditions As an approximate the decrease is about half for 10000 hours Although this 10000 hours four years with eight hours of use
40. 34 T Confirmation cask E d rn A roce C deiode ee 34 PAMIBI ore doro 34 3 Carrying the units after opening packaging ssssseeeeseeeeeeneennnee nennen 37 3 PRECAUTIONS FOR TRANSPORTATION nennen nnns nennen entren nnn rrr rennes rennen 39 4 ASSEMBLING EHE SYSTEM aug ead 40 1 System assembly flowchart aa r ra 40 2 Assembling the SySter treten tek iin ae eno 41 3 Installation without using stands Direct floor installation esses 72 4 Fixation using ANCH OTS 73 b Connections for 4 screen system 75 SPECIAL INS TAL A T O N 5 doce NN NER EUROS 76 1 Mall Ld Et E cL 76 2 Diagonal installation 76 3 Architrave processing E E T E E E E T 76 4 Upside down 76 b cire ne eon aea ee Ea cede 76 CHAPTER 4 ADJUSTMENTS 77 1 ADJUSTMENT PREPARATIONS cc ccceseeeeeeeneeeeseeeeesenee
41. 5 28 INSTALLATION AND ASSEMBLY Horizontal field angle 2 horizontal screen configuration Fig 3 1 6 3 horizontal screen configuration Fig 3 1 7 29 INSTALLATION AND ASSEMBLY 11 Lighting Projection screens do not reflect external light like the CRT but the screens and their base materials may still cause reflection if strong light of a spotlight etc is directly incident to them In such a case prevent the illumination lighting from hitting the screen surfaces directly e Glass plates for safety protection purpose may sometimes have to be attached on the screen surfaces de pending on their installation location In this case examine the installation positions carefully so that the front glass plates do not reflect the external light As the actual intended images of the system may not be obtained in very bright locations consider the position of lighting and direction of sunlight when installing the system Especially when the system is ex posed to direct light sunlight etc from behind the light may be reflected on the screen Avoid such instal lations Take note that in bright places images may appear dark even when the luminance has been increased In addition increasing the luminance and contrast more than required may affect the life of the system espe cially the CRT 12 Effects of earth magnetism Due to effects of earth magnetism the position of the image displayed will di
42. 54 6 INSTALLATION AND ASSEMBLY Place the cabinet of the second stage on that of the first stage Fig 3 4 7 NOTE 1 To prevent hazard never mount on a cabinet NOTE 2 Always carry each cabinet with more than one person If three persons are available two of them should carry each cabinet from both sides and the third person should support the rear where the center of gravity comes 7 Adjust the positioning of the cabinets Fig 3 4 8 8 Front rear Line up the wood surfaces of the front of the cabinets Left right Form across on the center point where the 4 screens meet Fix the connections between cabinets using bolts Fig 3 4 21 3 4 22 Front M8x45 x b provided with cabinets Please do not use 65mm bolts as these may block the light path e light path Rear M8x65 x 6 provided with cabinets M8x45 x 2 provided with cabinets Front view 8 45 x 2 TI 8 45 x 3 Fig 3 4 21 55 INSTALLATION AND ASSEMBLY Rear view 56 8 65 x 6 Fig 3 4 22 as X 8 45 x 2 het MU INSTALLATION AND ASSEMBLY 9 Place the cabinet of the third stage on that of the second stage Fig 3 4 22 NOTE To prevent hazard never mount on a cabinet NOTE Place the cabinet
43. A EEE E 173 3 Tracking adjustment TRK command eese nnne 175 4 Contrast adjustment CNT command esses nennen eene nnne nnne nnne 175 5 R G B gain adjustment RGN GGN BGN 175 6 Brightness adjustment BRT command eene nenne 175 7 R clamp adjustment BLV RLV commands eeeeeeeeeeeeeeeeee eene 176 8 Blanking window level adjustment BKL command eem 176 9 Horizontal vertical direction screen display position adjustment HPS VPS commands 176 10 Horizontal vertical blanking window position adjustment HWN VWN commands 177 11 Horizontal vertical blanking window width adjustment HWD VWD commands 177 12 Full dot number compensation HFD command 178 13 Freeze frame Y ON N OFF FZY FZN commands 178 14 Vertical filter ON OFF DSY DSN DSX commands eere 178 15 Vertical compression filter conversion rate input LCV 179 16 Program ROM version display VER command eeesessesseseeeeeeeeeenneennn nene 179 17 To indicate the current function setting STS command eene 179 18 To select preset model M command
44. ABL switching setting Refer to page 111 5 White balance adjustment White balance adjustment COMBI OFF START Black level adjustment white 10 HIGH LIGHT adjustment white 50 LOW LIGHT adjustment white 20 NG HIGH LOW LIGHT check white 0 to 100 OK ABL GAIN adjustment White 10096 Fix to maximum normally ABL link and LINEAR WHITE flesh color adjustment COMBI ON ABL LEVEL adjustment White 10096 LINEAR WHITE adjustment Cross hatch Fix to maximum normally HIGH LOW Light check white 0 to 100 OK ABL check white 0 to 100 NG Re LINEAR WHITE adjustment Cross hatch ABL LEVEL adjustment White 100 m HIGH LIGHT adjustment White 80 50 ABL GAIN adjustment White 100 Re LOW LIGHT adjustment White 20 HIGH LOW LIGHT check White 0 to 100 Is INPUT NO COLOR TINT OK Function SHRPNESS check RGB E NG COLOR adjustment TINT adjustment SHARPNESS adjustment Rough adjustment end Note Moving adjustment When W B is incorrect After completing adjustments if the lumi nance of the multi screen has dropped or NG the luminance is not consistent change Moving image check Fine adjustment input the setting of the ABL switch and repeat OK from step End 110 ADJUSTMENTS 5 White balance adjustment Before adjusting white balance Adjusting the white balance means to adjust the color tone This adjustment is nece
45. ADJUST MODE of the main menu of the adjustment mode Selects 4 for ID SET and ID SELECT in the ID SET CLEAR SELECT MODE Cyclically switches COLOR MODE 1 2 in the OPERATION MODE Cyclically selects the item to be adjusted in the CONVERGENCE ADJUST MODE in the following order eg SKEW 3D SKEW 5D SKEW Moves the point to be adjusted to the left in the POINT CONVER ADJUST MODE Selects TINT in the WHITE BALANCE ADJUST MODE only invalid for RGB and PAL signal input Select the pattern 2 3 for copying the convergence data between memories in the MEMORY READ COPY MODE CS Adjustment Mode 10 Selects 5 POINT CONVERGENCE ADJUST MODE of the main menu of the adjustment mode Selects 5 for ID SET and ID SELECT in the ID SET CLEAR SELECT MODE or clear the ID number in the ID clear mode Cyclically switches COMBINATION ON OFF in the OPERATION MODE Selects H SIZE in the DEFLECTION ADJUST MODE Cyclically selects the item to be adjusted in the CONVERGENCE ADJUST MODE in the following order mud KEY MID KEY 3D KEY MID 3D KEY Selects SHARPNESS the WHITE BALANCE ADJUST MODE only invalid for RGB input Select the pattern 3 1 for copying the convergence data between memories in the MEMORY READ COPY MODE lt Adjustment Mode gt Selects 6 WHITE BALANCE ADJUST MODE of the main menu of the adjustment mode Selects 6 for ID SET and ID SELECT in the ID
46. IN input image will be displayed on a single 1x1 display Use the crosshatch etc for V IN input images For convergence adjustment refer to the MPJ s adjustment items Returning to 4 screen enlarged display The VIN input image is set to 4 screen enlarged display by 9 For the commands refer to page 163 159 MVP MANUAL 3 To set the system back to 4 screen magnification command Input h h 8 or 9 Explanation For setting the system back to 4 screen magnification after convergence adjustment etc Used also when the normal 4 screen magnification output cannot be obtained due to incorrect operations etc 8 lA Sets 4 screen magnification of the OPTION input Sets the 4 screen magnification of the V IN input NOTE An input board must be added in order to display the image of the OPTION input Option 2 Adjusting the picture frame 1 To perform fine adjustment of the picture frame amp G command Input amp Gh Explanation Performs fine adjustments of the picture frame of the screen specified by the parameter h value h VOUT output No 0 to 3 The parameter h value is as shown in the following figure when viewed from the front 0 1 2 3 Picture frame fine adjustment command If the picture frame moves considerable first perform coarse adjustments of the picture frame using the amp P2 command and amp O2 command Refer to page 164 When amp
47. Main deflection adjustment setting table Test cross see below Main deflection adjustment setting table V STATIC 128 6128 V SIZE 128 G128 V M SIZE 128 G128 H SIZE 128 G128 inc on Convergence green V LI 128 G128 adjustment settings corresponding to the various main deflec 0 2 3 5 6 7 H BLK L 128 8 9 B D H BLK R 128 tion adjustments V MLIN 128 G128 H PIN 128 G128 GH LIN Remote km This item convergence GH LINEARITY alone unit key number can be selected and adjusted directly from Main deflection this menu Other convergence data adjust ment items within G cannot be selected directly from this menu adjustment setting NOTES e The set operates as follows when the above is displayed e No key is pressed gt Adjustment mode is canceled after about 180 seconds e MAIN MENU or ADJ IN pressed gt Main menu reappears e ADJ OUT pressed gt Adjustment mode is canceled e Any key from 0 to D pressed gt Main deflection adjustment mode corresponding to that key is set e The adjustment settings cannot be changed when the above adjustment settings are displayed Inthe convergence adjust mode the test cross is turned on Adjustment item Test Inthe white balance adjust mode switches the following cycle Normal adjustment White balance adjustment setting White balance adjustment setting
48. NO 08272 Readjust the Linear White adjustment if the whiteness on the white peak screen differed on each screen 9 Confirm the moving images View the moving images If W B is incorrect set to rough adjustment If the luminance of the multi screen is dark or inconsistent set the ABL switch 1 Precautions Avoid adjusting with images with high tube reflection FRAME NO 13590 If only one spot is bright in a very dark image the screen will look bright due to the spot 2Precautions on screen hue If the hue of the screens is green or yellow images will not be displayed clearly The white parts of bright images especially will appear yellow These images can be made clear by adjusting so that they appear slightly bluish However if made bluish excessively brightness may appear insufficient due to the CRT characteristics 115 ADJUSTMENTS Co Color adjustment White balance a Effects of brightness Take note of dark images which have some high luminance parts The reflected light overlap with surrounding dark parts at the face of the CRT and surface of projection lens and luminance and hue become different from the adjoining screen b Differences caused by visual points Although the joined parts of multiple screens are improved by peripheral light amount correction the image may not be natural at some points Adjustment of vertical direction using the installation table
49. PIN B45 BLUE 45 x O O Adjusts BH 3D S KEY B46 BLUE 46 X O O Adjusts BH 4D S PIN B47 BLUE 47 X O O Adjusts BH 6D LIN B48 BLUE 48 X O O Adjusts BH MID SIZE B49 BLUE 49 X O O Adjusts BH MID KEY B50 BLUE 50 X O O Adjusts BH MID PIN B51 BLUE 51 X O O Adjusts BH MID 3D KEY B52 BLUE 52 X O O Adjusts BH MID 4D PIN B53 BLUE 53 X O O Adjusts BH 5D SKEW B54 BLUE 54 x O O Adjusts BH MID LIN B55 BLUE 55 X O O Adjusts BH MID SUB KEY B56 BLUE 56 X O O Adjusts BH MID SUB PIN B57 BLUE 57 X O O Adjusts BH MID 3D S KEY B58 BLUE 58 x O O Adjusts BH MID 4D S PIN B59 BLUE 59 X Adjusts BH 6D BOW B61 P CONV ADJ 61 X X Note 2 Adjusts BLUE point convergence B62 P CONV ADJ 62 X X Note 2 Adjusts BLUE point convergence B63 P CONV ADJ 63 X X Note 2 Adjusts BLUE point convergence B64 P CONV ADJ 64 X X Note 2 Adjusts BLUE point convergence B65 P CONV ADJ 65 X X Note 2 Adjusts BLUE point convergence B71 P CONV ADJ 71 X Note 2 Adjusts BLUE point convergence B72 P CONV ADJ 72 X Note 2 Adjusts BLUE point convergence B73 P CONV ADJ 73 X x Note 2 Adjusts BLUE point convergence B74 P CONV ADJ 74 X Note 2 Adjusts BLUE point convergence B75 P CONV ADJ 75 X X Note 2 Adjusts BLUE point convergence B81 P CONV ADJ 81 X Note 2 Adjusts BLUE point convergence B82 P CONV ADJ 82 X X Note 2 Adjusts BLUE point convergence B83 P CONV ADJ 83 X X Note 2 Adjusts BLUE point convergence B84 P CONV ADJ 84
50. PROJECTION PRESENTA TIONS 1 Switching between enlarged individual display on the multi video processor NTSC NTSC Multi video Multi projection processor unit Source TV SYSTEM AUTO Convergence data required for presentation 1 set 2 Switching the sources input to the multi video processor LDP 1 O NTSC Multi video ad Multi projection processor RGB unit LDP 2 QO There is a phase There is only one difference between set of frame data LDP 1 and LDP 2 TV SYSTEM AUTO Convergence data required for presentation 2 sets For example LDP 1 adjusted by MEMORY 1 LDP 2 adjusted by MEMORY 3 data switching by external control when LDP switched 89 ADJUSTMENTS 4 SCREEN ADJUSTMENTS 1 Adjustment flowchart The following shows the order for performing the adjustments generally required in the setup of this system For details see the descriptions on the next page and later D Give ID Refer to page 86 to 90 2 Adjust the size of each screen Adjust the convergence of each screen Adjust the joining of the screens Adjust the MVP Refer to MVP Manual in Chapter 7 page 155 5 Check that there is no information missing and color deviation on the moving image If information is missing or color has deviated return to 2 and readjust 6 Adjust the white balance of each screen Adjust
51. Ror Gor B 124 adjustment data 3 BYTE adjustment data 3 BYTE adjustment data 3 BYTE adjustment data 3 BYTE adjustment data 3 BYTE adjustment data 3 BYTE adjustment data 3 BYTE adjustment data 3 BYTE adjustment data 3 BYTE adjustment data 3 BYTE adjustment data 3 BYTE adjustment data 3 BYTE adjustment data 3 BYTE adjustment data 3 BYTE adjustment data 3 BYTE adjustment data 3 BYTE adjustment data 3 BYTE adjustment data 3 BYTE adjustment data 3 BYTE adjustment data 3 BYTE adjustment data 3 BYTE adjustment data 3 BYTE adjustment data 3 BYTE ADJUSTMENTS 2 lt GRV gt GET RV CONV DATA RED horizontal convergence data is output lt GGV gt GET GV CONV DATA GREEN horizontal convergence data is output lt GBV gt GET BV CONV DATA BLUE horizontal convergence data is output Format Output in the following order D STX 02H lt O00 gt OV STATIC adjustment data 3 BYTE lt o06 gt OV SKEW adjustment data 3 BYTE lt O12 gt OV BOW adjustment data 3 BYTE 5 lt O01 gt OV SIZE adjustment data 3 BYTE lt O02 gt OV LINEARITY 0 lt O07 gt OV KEY lt O08 gt OV SUB KEY 9 lt 0O13 gt OV PIN lt O14 gt OV SUB PIN lt 018 gt OV SKEW lt 024 gt OV 4D BOW lt O11 gt OV 5D SKEW lt O17 gt OV 6D BOW 49 lt O03 gt OV MID SIZE lt O04 gt OV MID LIN lt 023 gt OV 5D SIZE lt O29 gt OV 6D LIN lt O19 gt
52. Semi outdoor installation This system is basically designed for use indoors When the system is installed in semi outdoor locations the following problems may occur Take the following measures before using the system Waterproof and rustproof measures Temperature difference and humidity difference Light on the screen So that it is not exposed to direct sunlight Wind containing salt 17 Caution for use of user prepared parts We basically recommend that the user uses the projection stands manufactured and recommended by us However if you want to prepare them by yourself use care in the following point Install the stands so that the system is maintained level Be sure to calculate the floor strength and take sufficient measures to prevent the system from tumbling down When not using a Pioneer recommended stand Pioneer will accept no responsibility for accidents or damage due to improper installation or mounting or to natural disasters 32 INSTALLATION AND ASSEMBLY 18 Ventilation To prevent the rise in the internal temperature the system is equipped with a vent and a vent with a fan on the top panel and vents on the bottom and rear panels Fig 3 1 8 Vent Vent Bottom Fig 3 1 8 Be careful not block these vents Otherwise heat will be stagnated inside the system and may result in a fire hazard When the system is used in a 2 stage configuration or is installed up against the wall reserve spaces
53. Stand Take horiz ontal level of the Stand Select such floor Flat and horizontal Capable of bearing the weight of System for long time use When several stands are in use do not fix Stands to each other before taking their level Find out highest point of the installation location Check that the stand is not distorted Be sure to use a level to adjust front rear and left right inclination f several stands are in use take level of the stand which is located on the highest point of the floor then based on the aligned Stand take the level of the other stands Adjust with the floor levelers on Stands Do not make the casters of stand to support Countermeasure Reinforce a weak floor with such as steel frames when the floor is not bare concrete ex covered by carpet place a hard plate such as metal plate under the floor levelers to avoid concentration of weight of System Adjust inclination to less than 2 1000 mm refer to Note What may happen Whole System will eventually deforms as time passes and this will cause come off screens and light leakage f stands are fixed to each other before taking level it will be difficult to align the levels afterwards and this may also cause light leakage Whole System will deform as time passes and that may cause come off screens and light leakage Very important Pay attention to adjustment Points to follow What may
54. VIDEO MUTE of input switch ing baud rate setting TV SYSTEM setting and convergence memory state setting will be preserved in the memory only when the power is turned off using the remote control command of a Personal Computer POF or the rear panel tact switch and finish the adjustment mode when you set each data in the adjustment mode The last data will not be memorized when the main power switch is turned ON OFF or when the AC power is turned ON OFF using the external switch When starting or stopping the system by AC ON OFF in an installation condition for demonstration use this method to preserve the conditions in the memory first and confirm the initial condition by AC ON OFF The following phenomena may occur when discharge occurs Example During performance in which inputs are switched using the personal computer VIDEO RGB When discharge occurs RGB is switched to VIDEO This phenomenon occurs because at the same time discharge occurs the INPUT set is initialized in the previous memorized state in this example it is the VIDEO input Therefore pay careful attention when using the memory 82 ADJUSTMENTS 6 Assigning ID numbers ID numbers are numbers which identify the different multi projection units in a system consisting of multiple multi projection units 4 screen systems 9 screen systems etc When the ABL linking cables are connected and ID numbers are assigned commands can be sent to specific multi projec
55. X X Decreases adjusting value by n DWF DOWN FULL X X X Minimizes adjusting value DIY OSD DISP YES X X X Enables OSD display DIN OSD DISP NO X X X Disables OSD display DPN DELAYED POWER ON NO X X X Function for turning the power on at differ ent times using the ID numbers off DPY DELAYED POWER ON YES X X X Function for turning the power on at differ ent times using the ID numbers on G GOO GREEN 00 x O O GREEN convergence adjustment Same as BLUE G59 GREEN 59 120 ADJUSTMENTS Com MUN Normal Number UP DW Function mand Valid Direct Command G61 P CONV ADJ 61 GREEN point convergence adjustment Same as BLUE GPO P CONV ADJ PO GHI GREEN HIGH LIGHT X O O Adjusts GREEN HIGH LIGHT GLW GREEN LOW LIGHT x Adjusts GREEN LOW LIGHT GON GREEN ON x X X Turns ON GREEN GOF GREEN OFF x X X Turns OFF GREEN GGH GET GH CONV DATA x x X Calls GH convergence adjusting data For each mode GGV GET GV CONV DATA X X Calls GV convergence adjusting data For each mode GRH GET RH CONV DATA x Calls RH convergence adjusting data For each mode GRV GET RV CONV DATA x Calls RV convergence adjusting data For each mode GBH GET BH CONV DATA X X Calls BH convergence adjusting data For each mode GBV GET BV CONV DATA X X X Calls BV convergence adjusting data For each mode GDD GET DEF DATA X X X Calls the main deflection adjusting data for each mode GWB GET W B DATA
56. case of screen of a 4 screen system take off the protective metal plates on the top and left sides Attach the hook fittings left and right see P49 1 for how to do this Screws 4 cross recessed self tapping screws nominal diameter 4 length 10 cone point per fitting included as accessories Fittings H SALE ELIE LE LALA EEL LEE FERIERE UPPER Remove Fittings V AI EIFE IEEE ELSIE ETE Remove LSS a CNN Lr au ELE Leave Fig 3 4 27 Work for 9 and 12 screen systems only Push position determining pins diameter 4mm length 15mm included as accessories into the places shown in Fig 3 4 28 3 4 29 and 3 4 290 The hole for the pin is on the right side of the screen frame and is marked with a circular seal 9 screen system 4 places 12 screen system 6 places Circular seal Fig 3 4 28 61 INSTALLATION AND ASSEMBLY Notes t may be hard to push in the pins in which case you may tap gently with a hammer However hitting a pin too hard could knock the frame out of shape Please take due care When a pin has been pushed in properly it will stick out 6mm Fig 3 4 30 Attach connectors included as accessories in the places shown Fig 3 4 29 3 4 290 3 4 29 9 screen system 4 places Right side of top edge of screen D Screen surface Left and right sides of top edge of screen 2 Left side of top edge of screen
57. case that the screen is viewed from the front Step 1 Preparing the cabinets Attach the screen frame fasteners as for the RM V25508 see P48 9 Step 2 Opening the packaging Remove the screens from their packaging see P37 Decide in advance where in the multi screen assembly you will put each screen Take out the accessories affixed to the bottom of the packaging Notes Handling the screens 1 When carrying a screen make sure that you hold it in the designated positions Fig 3 4 26 In particular do not hold the screen near the middle of the long side since if you do so there is a risk of it being damaged 2 Handle the joints with care When carrying out the work avoid knocking the joints or touching them with your fingers since if you do so there is a risk of damage 3 It is difficult to get the screens to stand up unsupported so if you wish to leave one somewhere temporarily you should either stand it up against a wall taking care that the joints do not come into contact with the wall or else lay it down with the screen surface facing upwards Carry the screen in both hands holding it from the points marked with circles O Do not hold it around the middle of the edge of the frame Fig 3 4 26 60 INSTALLATION AND ASSEMBLY Step 3 Preparing the screens Take off those protective metal plates fittings and V which will not form the outer edge of the system Fig 3 4 27 Example in the
58. conditions are not satisfied adjust using the adjusters on the stands Front rear Line up the wood surfaces of the front of the left and right cabinets Fig 3 4 3 Top bottom Align the height of the bottom plates on the front of the left and right cabinets Fig 3 4 4 E Difference T d 1 Fig 3 4 3 Po Le E ZE TR A D Jj i x n fu e J yo j X n pen five 1 i LO OL NOTE The illustration shows the assembled view of a 9 screen system No Good Height difference Fig 3 4 4 43 INSTALLATION AND ASSEMBLY Inclination Reduce any clearance between the left and right cabinets to below mm Keep the gap as close as possible to 0 mm Fig 3 4 5 Fig 3 4 5 5 Fix the left and right cabinets and stands using bolts Fig 3 4 6 Front M8x45 x 2 provided with each cabinet Please do not use 65mm bolts as Cabinets lt Rear M8x45 1 provided with each cabinet these may block the light path Stands Front M10x120 x 2 provided with each stand Rear M10x120 x 2 provided with each stand Front view Rear view x UAR H E gt j P d M8x4 x 2
59. every day is a rough approximate for replacing the CRT decide according to the state of the unit 2 Screen If a screen needs to be replaced due to scratches etc please seek advice from the sales department in charge 144 OPERATION AND MAINTENANCE 2 CAUTIONS DURING PRESENTATIONS When the power is turned off from the remote control unit or using the tact switch on the rear panel the input function MULTI ON OFF peripheral brightness selection VIDEO MUTE ON OFF COMBI ON OFF ABL link ing selection COLOR MODE 1 2 white balance selection TV system selection and convergence memory status are only stored in the last memory if the adjustment mode has been canceled when the conditions have been set in the adjustment mode The settings are not stored in the last memory when the AC power is turned on and off When the entire system is started up or stopped by turning the AC power on and off for permanent installa tions store the settings in the last memory using the above operation before turning the AC power on and off The main methods for muting the picture during presentations are described in 1 to 3 below 1 2 3 Setting by external computer command Example To mute the picture of the unit with ID number 11 11 A OF gt 11INO picture muted input switching picture mute canceled 1 To set the input function to VIDEO 2 To set the input function to Y C 3 To set the input funct
60. gt gt AUTO gt NTSC PAL 9 key Convergence memory selection area switching 141 ADJUSTMENTS 8 9 10 142 To return the convergence and white balance adjustment data to that at shipment 1 Set the adjustment mode 2 Press the key Select 7 MEMORY READ COPY 3 Select the number from the SUB MENU key The convergence and deflection adjustment data will return to that at shipment key The white balance adjustment data will return to that at shipment To copy the convergence adjustment data between memories 1 Set the adjustment mode 2 Press the key Select 7 MEMORY READ COPY 3 Press the key of the SUB MENU Select 4 CONV MEMORY COPY 4 Select the copy pattern keys 1 to 6 5 If the copy pattern number is correct press the Co key within 5 seconds If not the copy pattern will be displayed again If the copy pattern number is wrong press the key and repeat from step 2 again Resetting the setting 1 Set the adjustment mode 2 Press the key Select 7 MEMORY READ COPY 3 Press the _3_ key of the SUB MENU As a result the following settings will be set e MULTI Peripheral light amount correction ON Baud rate 4800 bps COLOR MODE 1 TV SYSTEM AUTO VIDEO MUTE OFF COMBINATION OFF Convergence memory NTSC input VIDEO Y C RGB MEMO 1 PAL input VIDEO Y C RGB MEMO 2 The adjustments using the above settings can be performed very easily Example When the ba
61. in a Multi screen system it may cause difficulty in ABL adjustment The low light and the high light adjustment act on the signal at low luminance level and signal at high luminance level but they also influence other luminance levels If the low light and the high light is not balanced well following symptoms may appear Although middle luminance level is aligned luminance where CRT start to light will be different between each projection unit in a multi screen system Luminance level where ABL function is working will be different between each projection unit 2 ABL adjustment ABL Auto Brightness Limit is a function to limit luminance level automatically to prevent CRTs being destroyed due to too high luminance It detects current flown in FBT and controls the luminance by controlling Contrast and Brightness to not exceed a certain level ABL GAIN adjustment and ABL LEVEL adjustment exist for ABL adjustment 3 ABL GAIN adjustment The adjustment equalizes the ABL operating point of each projection unit composing a multi screen ABL operates to limit brightness when total anode current of R G and B three color CRTs becomes 1 4mA Following chart shows two different CRT characteristics projection unit A and B A amp B start to light at same current but since there is difference in luminance efficacy of CRTs ABL working point may be different In the example below ABL of projection unit A works at point and ABL of pro
62. line Fig 3 4 33 Forward backward alignment Align so that the screen surfaces wrench surfaces are at the same height 63 INSTALLATION AND ASSEMBLY 3 Place screen 2 on top of screen and connect it to screens D and 4 Fix in 2 places left and right top and bottom Fix in 2 places left and right of lower edge Screws Cross recessed small screws nominal diameter 4 length 25 included as accessories Alignment Left right alignment Push screen against the right edge of screen D Forward backward alignment Place screen 2 on top of screen 4 4 Mount on the cabinets as for RM V2550S see P50 3 Align so as to form a straight line Y First Fix CD 2 TD Second Fix 2 Fig 3 4 33 Fig 3 4 34 Notes When carrying the 4 screen assembly make sure that 2 people hold the screen with one person holding each edge as in Fig 3 4 35 and that a third person supports the top of the assembly Before mounting the screens on the cabinets check that there is no dirt on the screens If there is dirt on the screens wipe them clean with a soft cloth In particular you will not be able to clean the Fresnel surface after mounting on the cabinets For small pieces of dirt on the joints do not use a dry cloth but rather wipe clean with a cloth that you have moistened with water and then wrung out well 5 Fix the screen frame Fix with a screw in one place only the center of the lower edge of
63. of at least 10 cm 4 inches to the left and right sides of the system When it is used in a 3 stage configuration also make sure that there is a clearance of at least 5cm 2 inches between the rear panel and wall and at least 10 cm 4 inches on the sides Fig 3 1 9 With these conditions it is assumed that there is a space of at least 10cm between the system and the ceiling Wall aan Uj et Set 10 cm 10 cm 2 stage configuration BS dl HENRI MEME See 1 1 3 stage configuration oom Fig 3 1 9 33 INSTALLATION AND ASSEMBLY 2 INSTALLATION AND ASSEMBLY 1 Confirmation Decide the position for installing the system according to the installation conditions in Chapter 3 Check items 1 Dimensions of installing position space at the back distance to the ceiling 2 Floor flatness strength roughness 3 Position of power supply 4 Installing location Necessity for special measures for floor or wall reinforcement covers sheets planks etc route by which set is to be moved in and out width of route availability of elevator size and weight restrictions of elevator air conditioning air currents etc 5 Position specifications and structure of a transmission equipment and image type 6 Model number of equipment used and their quantity perform according to list Check if there is enough equipment for each un
64. of the actual images of the computer Tracking may deviate in some cases when clamp level adjustment is performed after TRK adjust ment After adjusting the clamp level adjust TRK 8 Blanking window level adjustment BLK command Input BLKd dzds Explanation Compensation data 0 to 254 Adjusts the bright level of the blanking window Use to adjust the VS board picture frame and prevent burning Adjust the blanking window position and width using HWN HWD VWN and VWD 9 Horizontal vertical direction screen display position adjustment HPS VPS commands Input HPSdidzd3 5 Explanation Compensation data 0 to 254 HPS Moves the screen horizontally VPS Moves the screen vertically However the blanking window does not move and only the screen inside the window moves The moving range of the screen is not limited to the blanking window Monitor frame Blanking window Does not move PC image Figure Example of HPS Command Execution Note HPS HWN and HWD are commands to change reading and writing timings of the image memory and are mutually correlated For this reason Each of these three commands has a limited value without varying the 0 to 255 range VPS VWN and VWD are also the same When the above command become the limited values the image blinks three times 176 MVP MANUAL 10 Horizontal vertical blanking window position a
65. phase of multi video processor can not adjusted adjust the center position of image using V STATIC of the deflection adjustment DO NOT USE GH STATIC of convergence adjustment or Point convergence 44 lt Description 3 gt Size adjustment Point Image size adjustment must be done with V size adjustment at the deflection adjustment Do not use GH size GV size at the convergence adjustment for the adjustment 1 The image size can be adjusted by either the deflection adjustment adjusting three colors R G and B together or the convergence adjustment adjusting three colors R G and B individually If size is changed greatly by the convergence adjustment load current increases and leads to the distorted image Moreover even if no symptom appears on the displayed image this will cause increase of the convergence IC temperature that may result in broken convergence IC after long use Adjust the size using not the green convergence but the H SIZE and V SIZE at the deflection adjustment Confirm that the the value of the GH SIZE and GV SIZE within 128 10 Be sure to keep this adjustment method when there is need to widen the image size less than 90 of image size is to be displayed with full screen size like in the case of displaying image from PC through Multi video processor VS board in full screen size The size adjustment values of the red and blue convergence are not needed to be checked once size of green image
66. place it standing on a level surface Fold the mirror mat which has been wrapped around the screen kit into two place the folded mat on a level surface and lay down the screen kit on it paying attention not to apply impact Gently peel off the pieces of black tape attached on the four edges of the screen then peel of the pieces of black tape attached on the two ends of the right side Peel off slowly and cautiously so as not to damage the reticular sheet Remove the 8 transport screws black and 4 protection panels The protective panels are attached using transport screws Retain the removed panels if you expect to need them in the future When installing the system do not remove the screen kit protection panel at the outmost location The shorter protective panels are necessary for use in connecting the left and right of the topmost screen kit when installing the system For details please read the system assembly procedure When unpacking the multiple kits first store them in a separate location to prevent damage and cover them with a sheet to protect them from dust 1 2 3 Urethane pads B Urethane pads C Top cover 4 5 6 Transport screws x 8 black Protective panels Black tape Fig 3 2 2 INSTALLATION AND ASSEMBLY 3 Carrying the units after opening packaging D Screen To carry the screen unit after opening the packaging hold them by the parts shown in the figure and lif
67. removing any gaps see P52 5 Screws Cross recessed small screws nominal diameter 6 length 10 included as accessories 5 Attach connectors to the lower edges of the screens in 6 places Fig 3 4 45 Screws 2 cross recessed small screws nominal diameter 4 length 10 cone point per place included as accessories 6 Fix the groups of vertically connected screens on the left and the right 4 places Fig 3 4 46 Screws 1 cross recessed small screw nominal diameter 4 length 25 per place included as accessories 70 INSTALLATION AND ASSEMBLY 7 Fix the screen frame Fix with a screw in one place only the center of the lower edge of the system see Fig 3 4 48 and P53 6 Screw self tapping screw nominal diameter 4 length 12 cone point included as accessory When there are 2 columns of screens Screen frame fastener Fix with a screw in one of these places When there are 3 columns of screens Screen frame fastener Fix with a screw in one of these places When there are 4 columns of screens Screen frame fastener Fix with a screw in one of these places Fig 3 4 48 71 INSTALLATION AND ASSEMBLY 3 Installation without using stands Direct floor installation For installation of this system we basically recommend the use of our recommended stands or other stands equipped with adjusters and casters Nevertheless if you should install the system directly on the flo
68. screen frame ass y to the other cabinet in the same way as above b Adjust the positioning Fig 3 4 16 NOTE 1 With the vertical joint remove any clearance between horizontally adjacent screens However variance in parts may cause clearance up to about 2 mm NOTE 2 With the horizontal joints make the formed lines straight If the horizontal joint is not straight after step 4 adjust the left and right heights by attaching a height adjustment screw M6x100 provided with each screen frame to a screen frame support bracket and turning it with a screwdriver Horizontal joint Horizontal joint Horizontal joint Vertical joint Vertical joint mm m Vertical joint m NOTE With a 4 screen system NOTE With a 9 screen system MAX 20mm X x 8 M6x10 T X Screen frame support bracket Height adjustment Fig 3 4 16 51 INSTALLATION AND ASSEMBLY 6 Fix the screen frames of the lower stage Fig 3 4 17 Screws 4 dia x 12 x 4 provided with each screen frame NOTE Screw tightening method 1 If the screen frame assembly is not flush against the screen frame fastener Do not tighten completely Fasten by 2 or 3 threads 2 If a screen frame ass y is in close contact with the screen frame support bracket Tighten the screws completely With a 4 screen system
69. screen surfaces wrench surfaces are at the same height 4 Mount the group consisting of the 3 vertically connected screens and 8 on the central cabinet as for RM V25508 see P50 3 Align so as to form a straight line Fig 3 4 42 Fig 3 4 41 Notes There should be a position determining pin in each of screens and which have already been mounted on a cabinet Since these pins protrude about 6mm when you mount the vertically connected group of screens you should at first leave a gap of at least around 10mm between this group and the right hand side of the already mounted group screens and Fig 3 4 43 You should then push the group of screens and 9 to the left until the vertical joints come together When doing this you should make sure that the pins go into the holes in the left hand sides of the frames of screens and as in Fig 3 4 43 b You will then be able to line up the heights of the vertical joints on the two groups of screens You should not carry out the fixing work yet 67 INSTALLATION AND ASSEMBLY 5 Vertically connect screens 3 and Fig 3 4 44 You should connect in the order 99 Fix in a total of 4 places left and right Screws Cross recessed small screws nominal diameter 4 length 25 included as accessories Alignment Left right alignment Align so that the joints on the left sides of screens 3 an
70. screws nominal diameter 4 length 10 10 nominal diameter 4 length 12 1 nominal diameter 4 length 18 2 Cross recessed tap tight screws M4 length 25 eeessessesseseeeeeeeeeennnennn 3 M6 length 10 1 lp 1 1 When either above mentioned D or 2 is used as a single panel screen you will need one more set consisting of a screen frame fastener etc and so you should obtain the following service parts set AAX1056 Power Supply Panel OUTLET UMSNTTCHED ACwOV BAMAX BO S0Ha INSTRUCTION MANUAL CAUTION GENERAL SPECIFICATIONS AG DET Fig 2 1 1 No Name Type Function AC inlet Connect the power cord here AC outlet Connect other multi projection units here Not linked to main power switch 1 Main power switch Seesaw switch Turns the power supply to the set on and off When on the set is set to the mode stored in the last memory standby or power on Fuse holder The fuse is in here Only service personnel should touch this NOTE 1 Refer to 13 Power supply connection GENERAL SPECIFICATIONS Control Panel Fig 2 1 2 GENERAL SPECIFICATIONS No Name Type Function ABL linking switch Slide switch When ABL linking is on the ABL linking co
71. the ABL level Check the ABL level and white balance using the video actually transmitted If there is deviation return to and readjust Adjust the color tone using the video actually transmitted Recheck to 90 ADJUSTMENTS 2 Convergence adjustment flowchart Find the center of the screen Input the adjustment signal 3 Using only green adjust the P 92 center of V STATIC GH STATIC 4 Adjust the size of V SIZE V LIN P 93 H SIZE GH LIN P 92 P 92 Is the Horizontal size standard 9396 8 Adjust H BLK Ljand YES P 107 BLK R 5 Adjust joining of peripheral screens P 94 in green point convergence mode i 6 Adjust linearity of green point conver P 94 gence mode 7 Adjust green red blue color deviation P 94 point convergence mode 91 ADJUSTMENTS 3 Convergence adjustment contents The numbers correspond to the numbers in the flow chart 1 Measurement of screen center zZ 3 The center can be found easily by pasting threads in the spaces of the protection panels at the screen frame NN 2 Adjustment signal input For adjusting size Frame size
72. the input and output boards to be adjusted and set by connecting the external computer The following are items which can be set 1 158 MVP settings For adjusting the picture frame output image position Coarse adjustments Refer to amp P amp O command fine adjustment amp G command and correcting the joinings of the magnified screen NTSC input board setting The settings shown below use the RMD V3104U as an example Bright adjustment Refer to BRT command Color correction Refer to COL command Tint adjustment Refer to TNT command Variable scan board settings For adjusting the screen display position Refer to HPS VPS HWN VWN HWD VWD commands Sets the variable scan board position to the correct position on the screen Tracking adjustment Refer to TRK command For correcting lateral vibration of displayed characters shaking and tracking noises Full dot number adjustment Refer to HED command For correcting vertical bit lines of displayed characters and pictures with high resolution Normally the full dot number need not be changed Blanking frame bright adjustment Refer to BKL command For setting the luminance level of the blanking frame for decreasing burning when there are blanking frames in the surrounding area Take note that of the effective display range of the PC screen and blanking frame position are not accurate this adjustment will on the contrary have negative effects Vertical filter conv
73. the system see Fig 3 4 48 and P53 6 Screw self tapping screw nominal diameter 4 length 12 cone point included as accessory Fig 3 4 35 64 INSTALLATION AND ASSEMBLY 6 screen assembly work requires at least 3 persons 1 First make a 4 screen assembly using screens D and See the procedure for the 4 screen assembly 2 Horizontally connect screen to the side of screen Fig 3 4 36 Fix in 2 places top and bottom Screws Cross recessed small screws nominal diameter 4 length 25 included as accessories Alignment Up down alignment Align screens 5 and 6 such that their upper edges are at the same height Fig 3 4 36 Forward backward alignment Align so that the screen surfaces wrench surfaces are at the same height 3 Place screen on top of screen and connect it to screens and Fig 3 4 37 Fix in 2 places top and bottom of left edge Fix in 2 places left and right of lower edge Screws Cross recessed small screws nominal diameter 4 length 25 included as accessories Alignment Left right alignment Push screen 3 against the right edge of screen 2 Fig 3 4 37 Forward backward alignment Place screen on top of screen 6 Align so as to form a straight line Fig 3 4 36 First Fix 2 3 Second Fix G 4 6 Fig 3 4 37 4 Mount on the cabinets as for RM V2550S see P50 3 Fig 3 4 38 Notes When carr
74. unit regarded as the average white balance 3 Abnormal convergence When the convergence data become unadjustable or the image become abnormal reset the data to the factory standard data and re adjust from the beginning Even if the image looks OK after continuing the adjustment of abnormal data it may be causing overload to the convergence amp Check Point If too high or too low value is set as the convergence adjustment data the power may shut down immediately after turning on the power due to operation of power down circuit caused byoverload of convergence amp In this case correct the convergence data according to the following steps 1 Set the power to stand by mode for 10 seconds Power LED at the rear panel indicates red the main power switch is on 2 Turn off the main power switch to reset the protection circuit operation 3 Turn on the main power switch again 4 Turn on the power by sending POC command from a personal computer or push ADJ IN push two keys at the same time then POWER ON from the remote control This will mute the output from convergence amp therefore the convergence of the image will not change evenif displayed convergence data is changed on the screen 5 In this condition correct the wrong abnormal convergence data or reset data to factory standard data 6 Send POF command or push POWER key on remote control to set the unit in to STANDBY mode Then turn on the power again and normal o
75. vacuum may occasionally evaporate when hit with electron beam However this will not occur after the CRT has been used for 100 to 200 hours When the power remains off for some time it may indicate that a fault has occurred inside malfunction of parts Turn off the main power switch of the MPJ and after several seconds turn it on again If the power goes off again it indicates a fault If it works normally it indicates abnormal operations due to external factor and will not affect operations thereafter e If the screen color and brightness is abnormal or the switches do not function turn off the main power switch once and turn it on again several seconds later When the one image still image and caption is displayed for a long period of time the image will stick onto the screen and cannot be removed As this is inevitable due to the projection system it must be resolved through software contents displaying method system structure etc e When switching between the VIDEO and Y C input using the EXT CONTROL terminal for different TV formats the image will be disturbed for several seconds when they are switched automatically even if TV SYSTEM is set to AUTO Example Image is disturbed Image is not disturbed VIDEO input NTSC Y C input PAL VIDEO input NTSC YY C input NTSC When the following signals are input the image may be distorted VCR signal which repeats copying VCR signal with copy guard
76. z Observe here Use especially when adjusting the horizontal size of the left side of the screen In addition there are nine other area adjustments It is a convenience to adjust deviation of circumference I1 I 95 ADJUSTMENTS m 71 ru L J L L 1 L J L J ADJUSTMENTS Lo i ADJUSTMENTS In adjustment step 5 observe the external part of the screen adjust the 16 adjusting points there taking note of linearity in the peripheral area such as joining with other screens crosshatch etc Ignore the distortion inside the screen In adjustment step 6 adjust the inside of the screen and produce linearity The following are examples of adjusting points in point convergence adjustments and their movements on the screen 98 ADJUSTMENTS Displayed OSD Movement on screen HEHHEHE 99 ADJUSTMENTS lt lt lt 100 ADJUSTMENTS 101 ADJUSTMENTS 102 ADJUSTMENTS HBHE 103 ADJUSTMENTS Note If only one point is moved greatly in the point convergence mode it may not move in areas smaller than the desired adjusting area Does not move to the set position In this case adjust while moving the other points slowly
77. 11 that the Projection Screen Kit RMS V4011 4011C 5011 5011C are attached to and the Multi Projection System RM V1000NA series 2 Additional notes on ADJUSTMENTS Be sure to follow this technical manual additional version 2 0 in adjusting the convergence Even if the adjustment is completed without following this revised manual that causes reliability problems such as broken ICs after a certain time of use Although this section is described based on RM V4000V series the basic points are the same as those of RM V2400N V2550 1000NA Refer to the TECHNICAL MANUAL for metod of adjusting the convergence 2 Additional notes on ADJUSTMENTS 2 1 Before adjustments 1 Place the projection unit on a correct position and fix it firmly Even if the projection unit moves slightly images get out of the position widely on the screen because images are projected to be amplified on the screen Be sure not to move the position of the projection unit in fixing it and the screen the projection frame The check points are as follows 1 Screw the projection unit on the projection frame after confirming the correct position of the projection unit 2 Fix the slide table to the base of the projection frame with screws 3 Attach the screen to the correct position on the projection frame 2 Check images displayed on each projection unit before adjustments Perform aging with the white 100 flat frame signal for an hour before adjustments of the
78. 2 al usi 4 14 xx oc f i SET l op geo eeg dee ass me fa eens IN 1 1 1 1 1 ae Li Te F i i 1 t E EE aes 1 Li 1 1 a 4 1 gt 1 a A Cs i e C 3 tab dane y 4 vo eR PAN i oof yve n f itin 1 i male of I BOT i aL Sota ee he Lere i cad we i i i REANG fore re anicatio o5 cable 1 Renca 1 zeriela 1 1 fob i ee ew ea t 1 07 pM The broken lines are for when the RS 232C cable and remote control unit are relayed through the MVP The double solid lines are for when there is no relay Fig 3 4 52 75 INSTALLATION AND ASSEMBLY Examples of System 5 LDP O 2 1 Enlarged display only i LDP C VIDEO LDP C VIDEO To MVP To MVP input LDP O 8 input o LDP z 2 Multi display LDP To C VIDEO MPJ input i LDP C VIDEO input DPO To C VIDEO MPJ input To C VIDEO MPJ input
79. 5 CTS Clear To Send 7 GND Signal Ground 3 Baud rate 4800 bps 1200 2400 9600 19200 bps can also be selected 4 Data format Start 1 bit Data 8 bit Parity 0 No parity Stop 1 bit b Connection COMPUTER COMPUTER MPJ IBM PC MPJ FG 1 1FG TXD 3 2 RXD TXD 2 2 RXD RXD 2 3 TXD RXD 3 3 TXD CTS 8 5 CTS CTS 5 5 CTS GND 5 7 GND GND 7 7 GND 1FG Straight cable 6 Protocol MPJ from computer ID 2 Byte ASC II COMMAND 3 Byte ASC 11 stx 02h etx 03h stx ID COMMAND etx stx COMMAND COMMAND COMMAND etx Up to 3 commands possible stx ID COMMAND ARGUMENT etx ARGUMENT 3 Byte ASC II 117 ADJUSTMENTS 2 RS 232C commands table Com Normal Number UP DW Name Function mand Valid Direct Command A ABL ABL LEVEL AJN ADJUST NO AJY ADJUST YES AOF ALL OFF AON ALL ON ABG ABL GAIN ABL operation link level adjustment Note 1 Adjustment mode exit Adjustment mode start up R G B all color off R G B all color on XOOOXEX ABL gain adjustment B BOO BLUE 00 B01 BLUE 01 B02 BLUE 02 B03 BLUE 03 B04 BLUE 04 B06 BLUE 06 B07 BLUE 07 B08 BLUE 08 B09 BLUE 09 B10 BLUE 10 B11 BLUE 11 B12 BLUE 12 B13 BLUE 13 Adjusts BV STATIC Adjusts BV SIZE Adjusts BV LINEARITY Adjusts MID SIZE Adjusts MID LIN Adjusts BV SKEW Adjusts BV K
80. 68 MVP MANUAL 8 DEMO PATTERN SETTINGS AND CAUTIONS The MVP does not have an RMD V3216 type DEMO switch but 2x2 enlarged screen automatic display is pos sible by reading the input selector switch OPTION V IN when the power is turned on and executing the com mand corresponding to that setting Because of this upon shipment from the factory command examples for displaying the MVP 2x2 enlarged screens have been written into the demonstration switch No 8 and No 9 areas which were user program areas on the RMD V3216 Switch No 8 contains the command example for displaying 2x2 enlarged screens for the OPTION input picture A input Switch No 9 contains the command example for displaying 2x2 enlarged screens for the V IN input picture C input 2x2 enlarged screens may not be displayed if the contents of demo No 8 and demo No 9 are replaced If this happens reset the factory defaults The commands written into the set upon shipment from the factory and the procedure for writing the com mands are described below Start the command interpreter and input the following commands amp NOO11 Matrix screen number setting Set VOUT1 matrix coordinate to 11 amp NO121 Matrix screen number setting Set VOUT2 matrix coordinate to 21 amp NO212 Matrix screen number setting Set VOUTS3 matrix coordinate to 12 amp NO322 Matrix screen number setting Set VOUT4 matrix coordinate to 22 8 Wri
81. CAUTIONS 4 CAUTION AND NOTES ON THE MPF INSTALLATION Item The system has been designed exclusively for permanent installation The wood cabinets cannot stand the heavy duty rental use Stacking of screens The screens can be stacked in up to 3 stages Installation location The system should be installed on a level surface or the stands should be provided with the adjustment mechanisms Installation work Do not mount on the cabinets during installation Otherwise they may tumble down or be deformed Installation caution Asthe system has been designed with slimmer depth than the previous models it tend to tumble down more easily than them Be sure to take countermeasures against tumbling down Servicing space The screens mirrors and lenses can be cleaned from the front side but the electri cal assemblies should be accessed from the rear when replacing them Installation up against the rear wall 2 stages P 25 34 The above consideration on the servicing space is important Use L shaped BNC connectors Headroom should be reserved at the top and left right in consideration of the rise in internal temperature A Work at a high position is always accompanied with danger If you drop a tool it may not only damage the equipment but injure other persons in worst case Be very careful in conducting work at a high position 5 NOTE IN USE OF THE OPTIONAL JOINT LESS SCREENS The areas corres
82. Color deviation When size is increased with H BLK L and H BLK R not adjusted No color deviation A Image after H BLK L and H BLK R has been ad justed 107 ADJUSTMENTS H BLK R adjustment RGB Output all three colors R G B observe the right side of the screen and adjust with H BLK R so that the color stops deviating Observe here When H BLK R adjustment is not properly performed H BLK L adjustment Output all three colors R G B observe the left side of the screen and adjust with H BLK L so that the color stops deviating Observe here Note There are points at which the screen does not move even through the H BLK L value changes This is not a malfunction 108 ADJUSTMENTS Confirming the optimum H BLK L H BLK R values Optimum H BLK R value OSD display Movement on screen When point A is lowered by point convergence point B should not move Confirming the Optimum H BLK L Value When point C is lowered by point convergence point D should not move Note Convergence can be adjusted even if the optimum values are slightly different from the above optimum values during adjustments But if the screen changes markedly re adjust H BLK L or H BLK R and adjust the convergence 109 ADJUSTMENTS 4 White balance adjustment flowchart O When adjusting the multi projection unit Initial setting Multi on
83. DJ PO x X Note 2 Adjusts BLUE point convergence BR1 BAUD RATE 1 X X X Sets RS 232C baud rate to 1200 BPS BR2 BAUD RATE 2 X X X Sets RS 232C baud rate to 2400 BPS BR3 BAUD RATE 3 X X X Sets RS 232C baud rate to 4800 BPS BR4 BAUD RATE 4 X X X Sets RS 232C baud rate to 9600 BPS BR5 BAUD RATE 5 X X X Sets RS 232C baud rate to 19200 BPS BHI BLUE HIGH LIGHT x Adjusts BLUE HIGH LIGHT BLW BLUE LOW LIGHT x Adjusts BLUE LOW LIGHT BOF BLUE OFF x X X Turns OFF BLUE BON BLUE ON x X X Turns ON BLUE BRT BRIGHTNESS X Adjusts BRIGHTNESS C CBN COMBINATION NO O X X Turns OFF ABL operation link CBY COMBINATION YES O X X Turns ON ABL operation link CM1 COLOR MODE 1 O X X Sets white balance data to color mode 1 CM2 COLOR MODE 2 O X X Sets white balance data to color mode 2 CNT CONTRAST X Adjusts CONTRAST COL COLOR X Adjusts COLOR Note 3 COF COLOR OFF X x x Turns OFF COLOR Note 3 CON COLOR ON x X X Turns ON COLOR Note 3 C12 CONV DATA COPY 1 gt 2 X X X Copy Convergence data MEMO 1 to 2 C13 CONV DATA COPY 1 gt X X X Copy Convergence data MEMO 1 to 3 C21 CONV DATA COPY 2 gt 1 X X X Copy Convergence data MEMO 2 to 1 C23 CONV DATA COPY 2 gt 3 X X X Copy Convergence data MEMO 2 to 3 C31 CONV DATA COPY 3 gt 1 X X X Copy Convergence data MEMO 3 to 1 C32 CONV DATA COPY 3 gt 2 X X X Copy Convergence data MEMO 3 to 2 D DOF DISPLAY OFF X X x Turns OFF OSD display DWO DOWN 10 X X X Decreases adjusting value by 10 DWn DOWN n X
84. E P eu m Ed a 22 7 p di P ni ey T7 p A 2 lt le gt Fig XG 170 MVP MANUAL lt Board layout gt Lane exclusively for control boards gt fie eg ee ea ae 5 L1 lt Insertion lane Lane exclusively for option boards gt ores tees 4 L2 lt Insertion lane Lane exclusively for input boards gt P ee q L3 lt Insertion lane Lane exclusively for output boards gt p LIII M L4 Insertion lane Power unit Only service personnel should touch this Relationship between board insertion lanes and rear panel connectors Board insertion lane Rear panel connector refer to the diagram of the rear panel on page 16 L2 lt OPTION L3 V IN L4 OUT The board insertion lanes and rear panel connectors are paired as shown above Please refer to P166 for the relationship between the board lanes and image input selection 171 MVP MANUAL 10 RMD V3020 COMMAND REFERENCE 1 Outline of the RMD V3020 Introduction The RMD V3020 is an input board hereafter referred to as VS board which supports variable scanning for inputting images of computer hereafter referred to as PC to the MVP Horizontal frequency 24 kHz to 35 kHz Vertical frequency 55 Hz to 72 Hz Dot clock Up to 35 MHz Signal Non interlace signal The HDTV 15 kHz RGB signal will not be dis played because it is
85. ER ADJUST MODE 23 Rea Adjustment Mode Cyclically switches RED ON OFF in the DEFLECTION ADJUST MODE CONVERGENCE ADJUST MODE POINT CONVER ADJUST MODE and WHITE BALANCE ADJUST MODE Normal Mode Sets the input function to VIDEO 24 Adjustment Mode e Cyclically switches GREEN ON OFF in the DEFLECTION ADJUST MODE CONVERGENCE ADJUST MODE POINT CONVER ADJUST MODE and WHITE BALANCE ADJUST MODE Normal Mode Sets the input function to Y C 25 Bea Adjustment Mode Cyclically switches BLUE ON OFF in the DEFLECTION ADJUST MODE CONVERGENCE ADJUST MODE POINT CONVER ADJUST MODE and WHITE BALANCE ADJUST MODE Normal Mode Sets the input function to RGB 133 ADJUSTMENTS 26 lt Normal Mode gt Cyclically switches the input function in the following order VIDEO gt RGB 27 Ca lt Adjustment Mode gt Moves the convergence up in the POINT CONVER ADJUST MODE 28 lt Adjustment Mode gt Returns the main menu of the adjustment mode 29 lt lt Adjustment Mode gt Decreases the adjusting value Moves the convergence to the left in the POINT CONVER ADJUST MODE 30 gt lt Adjustment Mode gt Increases the adjusting value Moves the convergence to the right in the POINT CONVER ADJUST MODE 134 ADJUSTMENTS 31 lt Adjustment Mode gt Inthe deflection adjust mode switches cyclically as follows Normal adjustment item
86. EY Adjusts BV SUB KEY Adjusts BV MID KEY Adjusts BV MID S KEY Adjusts BV 5D SKEW Adjusts BV BOW Adjusts BV PIN B14 BLUE 14 Adjusts BV SUB PIN B15 BLUE 15 Adjusts BV MID PIN B16 BLUE 16 Adjusts BV MID S PIN B17 BLUE 17 Adjusts BV 6D BOW B18 BLUE 18 B19 BLUE 19 B20 BLUE 20 B21 BLUE 21 B22 BLUE 22 B23 BLUE 23 Adjusts BV 3D SKEW Adjusts BV 3D KEY Adjusts BV 3D SUB KEY Adjusts BV MID 3D KEY Adjusts BV MID 3D S KEY Adjusts BV 5D SIZE B24 BLUE 24 Adjusts BV 4D BOW B25 BLUE 25 Adjusts BV 4D PIN B26 BLUE 26 Adjusts BV 4D SUB PIN B27 BLUE 27 Adjusts BV MID 4D PIN B28 BLUE 28 B29 BLUE 29 B30 BLUE 30 B31 BLUE 31 B32 BLUE 32 B33 BLUE 33 Adjusts BV MID 4D S PIN Adjusts BV 6D LIN Adjusts BH STATIC Adjusts BH SKEW Adjusts BH BOW Adjusts BH 3D SKEW B34 BLUE 34 Adjusts BH 4D BOW B36 BLUE 36 Adjusts BH SIZE B37 BLUE 37 Adjusts BH KEY x KK KK OX OX KKK KKK KK KKK KKK KK KKK KK KK KK KK KK Q O9Q QVO O OOOO O Or OVO O OVO Or OOO OO OVO OG OFO B38 BLUE 38 Adjusts BH PIN 118 ADJUSTMENTS Com Name Normal Number UP DW Function mand Valid Direct Command B39 BLUE 39 X O O Adjusts BH 3D KEY B40 BLUE 40 X O O Adjusts BH 4D PIN B41 BLUE 41 X O O Adjusts BH 5D SIZE B42 BLUE 42 X O O Adjusts BH LINEARITY B43 BLUE 43 x O O Adjusts BH SUB KEY B44 BLUE 44 X O O Adjusts BH SUB
87. Gh is executed the following is shown on the computer display amp G3 J Bottom right screen of 4 screen F F The horizontal and vertical adjustment values are output at the F and F positions Input the following commands after To reset the picture frame fine adjustment data To move the screen to the left To move the screen to the right To move the screen up To move the screen down Ends the adjustment mode Note For details of the picture frame adjustment procedure refer to Picture Frame Adjustment Procedure Note To end the adjustment be sure to input J If J is not input commands input thereafter may not be executed Note If the power is cut in this state the new screen start position data will not be saved To save the data execute amp W1 2 Refer to the amp W command 160 MVP MANUAL 2 To perform coarse adjustments of the picture frame amp P2 amp O2 commands Input amp P2dzhihzhs amp O2dshihzhs Explanation amp P2 command Horizontal direction Note Note Note amp Q2 command Vertical direction dz Screen position 1 to 2 hihzhs crew start position data amp P2 000 to 1C5 amp O2 000 to 20A Although the data is an absolute value the relative value with the current data can also be speci fied Input amp P2d amp P2d2 9 0 amp O2d O amp O2d 23 3 dz Screen position 1 to 2 Leftdirection ho
88. MULTI ON 5 GVO GET ABL VOLTAGE The ABL voltage is converted within the range of 0 to 5V identified in 256 steps and output 3 BYTE 6 lt GUS gt GET CONV USER DATA Deflection and convergence data memory area setting state is output D 126 STX 02H Memory area selected when INPUT VIDEO or Y C amp input signal NTSC 3 BYTE Example US 1 Indicates CONV MEMO 1 is selected Memory area selected when INPUT VIDEO or Y C amp input signal PAL Or other than NTSC containing no signals 3 BYTE Example US 2 Indicates CONV MEMO 2 is selected Memory area selected when INPUT RGB amp input signal NTSC 3 BYTE Example US 1 Indicates CONV MEMO 1 is selected Memory area selected when INPUT RGB amp input signal PAL Or other than NTSC containing no signals 3 BYTE Example US 2 Indicates CONV MEMO 2 is selected IETX 03H ADJUSTMENTS 7 lt GST gt GET STATUS Various setting states are output Note 1 Note 2 D STX 02H Version of microcomputer software 5 BYTE Example V1 00 Indicates VERSION 1 00 Input function state 3 BYTE Output in command name Example IN 1 Indicates VIDEO input MULTI state 3 BYTE Output in command name Example MLY Indicates MULTI ON COLOR MODE state 3 BYTE Output in command name Example CM 1 Indicates COLOR MODE 1 COMBINATION state 3 BYTE Output in command name Example CMY Indicates COMBINATION ON TV SYSTEM MODE state 3 BYTE Output in c
89. OD OE OF 10 11 12 13 14 15 16 17 18 19 1A 1B 1C 1D 1E 1F 20 21 22 23 24 25 26 27 28 29 2A 2B 2C 2D 2E 2F 30 31 32 33 34 35 36 37 38 39 3A 3B 3C 3D 3E 3F 182 Note 1 Note 2 Note 3 Note 4 MVP MANUAL The relative address and data are as follows However relative addresses 20 to 3F are the system reservation range Relative Relative ADDR Data Contents ADDR Data Contents 00 Model data No 10 Reservation 01 Horizontal frequency 11 Vertical frequency 02 NNN NNN kHz 12 NNN NNN kHz 03 BCD 6 digits Note 1 13 BCD 6 digits 04 Total horizontal dots 14 Total vertical line number 05 BCD 4 digits 15 BCD 4 digits 06 Horizontal effective start position 16 Vertical effective start position 07 BCD 4 digits 17 BCD 4 digits 08 Horizontal effective dot number 18 Vertical effective line number 09 BCD 4 digits 19 BCD 4 digits 0A Clamp head 1A Line conversion rate Note 4 0B Clamp period 1B Gain upper limit 1C Reservation 0 Clamp upper limit 1D OE Sync method Note 2 1E PLL gain OF Sync polarity Note 3 1F Reservation For example taking the PC9800 table on the previous page as an example as the relative addresses 01 02 and 03 contain data 02 48 and 30 the PC9800 horizontal frequency setting value is 24 83 kHz FF when the method is not limited FF when the polarity is not limited If the relative address data is 65 Indicates 6 5 conversion 7 Indicates 10 7
90. ONS 5 Projection Stand RMA V5020 Top Front Specifications External dimensions max Accessories Main unit mount bolt M8x30 Main unit mount bolt M8x60 Side coupling bolt M10x120 Side coupling washer for M10 bolt Side coupling nut for M10 bolt Package dimensions Package weight 20 Side unit mm Fig 2 1 4 1031 W x 781 H x 650 D mm For 100 inch 4 screen systems system height is 2600 mm 51 5 kg GENERAL SPECIFICATIONS 6 Adjustment Control Unit RU V107 Option unit mm PIONEER amp i ADJUSTMENT CONTROL UNIT N 0 LD Cien n GD Cable length 5m Fig 2 1 5 Accessories AA dry battery ROP i ete pce evecta epe vega 2 el Xe 3 21 GENERAL SPECIFICATIONS 2 Diagram of system dimensions For the detailed system dimensions please refer to chapter 3 External dimensions do not include protuberances such as screw heads etc 1 Single panel RM V2550BU RM V2550E RM V2550S RM V2550S2 84 8 228 437 2 1115 5 36 2 Surface unit mm Fig 2 2 1 22 GENERAL SPECIFICATIONS 2 2 x 2 100 inch 2062 750 1031 312 3
91. RMD V3104U RMD V3104A system and only with input ports A and B in the case of the RMV 1000N system It is thus necessary to use the command with image input compatible with the system being used C Input port A RMD V3104U RMD V3104A system Can be used Can be used Can be used RMV 1000N system Can be used 191
92. RVICING SYSTEM 146 CAUTIONS ON ASSEMBLY AND MAINTENANCE 146 CHAPTER 6 PRECAUTIONS eere tected oh eases ones Reeds 147 1 PRECAUTIONS ON FUNCTION AND PERFORMANCE OF SYSTEM 147 2 NOT MAL FUNC TO N 148 3 CHECKING THE ADJUSTMENTS e a e a aa a aaa nenne Eaa Ei 149 4 CAUTION AND NOTES ON THE MPF INSTALLATION essere enne nennen 150 5 NOTE IN USE OF THE OPTIONAL JOINT LESS SCREENS esee 150 6 TROUBLESHOOTING reete cin en etn aee Enter EE onde Ea tee MEE 151 CHAPTER 7 MVP MANUAL cii tiet corr er Saco oor coc ro lente 152 1 INTRODUCTION C 152 2 CONNECTION WITH MVP EXTERNAL COMPUTER c ccceseeeeeseeeeeseneeeeeneeeesaneeeseeeeeesaeeeseeenes 153 3 INSTRUCTIONS FOR USING A COMPUTER AS A TERMINAL 154 EO dzwilcdelp cM 155 5 MVP VIDEO OUTPUT MODES sesssesseseseeeeennne nennen nnne nennen n nnns npa nE rentre senes sn nnnn rennen 157 6 ADJUSTMENT FUNCTIONS rre reete reme cssvecaevsescviscstscusctevaccetecesteenaveteaveccsnvesccteedteceae 158 7 PICTURE FRAME ADJUSTMENT PROCEDURES 159 1 Gommiand
93. SET CLEAR SELECT MODE Cyclically switches VIDEO MUTE ON OFF in the OPERATION MODE Selects V LINEARITY in the DEFLECTION ADJUST MODE Cyclically selects the item to be adjusted in the CONVERGENCE ADJUST MODE in the following order or SUB KEY MID SUB KEY 3D SUB KEY MID 3D SUB ES Moves the point to be adjusted to the right in the POINT CONVER ADJUST MODE Selects LINEAR WHITE in the WHITE BALANCE ADJUST MODE Select the pattern 3 2 for copying the convergence data between memories in the MEMORY READ COPY MODE 11 lt Adjustment Mode gt Selects 7 MEMORY READ MODE of the main menu of the adjustment mode Selects 7 for ID SET and ID SELECT in the ID SET CLEAR SELECT MODE Cyclically selects the RS 232C baud rate in the OPERATION MODE in the following order 1200 2400 4800 9600 19200 Selects H BLK L in the DEFLECTION ADJUST MODE Cyclically selects the item to be adjusted in the CONVERGENCE ADJUST MODE in the following order m BOW 4D BOW 6D Selects RED HIGHLIGHT the WHITE BALANCE ADJUST MODE 131 ADJUSTMENTS 12 lt Adjustment Mode gt 13 Selects 8 for ID SET and ID SELECT in the ID SET CLEAR SELECT MODE Cyclically selects TV SYSTEM in the OPERATION MODE in the following order AUTO NTSC m Cyclically selects the item to be adjusted in the CONVERGENCE ADJUST MODE in the following order
94. TSC or PAL according to the input signal When the input signal is NTSC or PAL and the TV SYSTEM is set to NTSC or PAL it can enable the input to be switched smoothly little screen noises and prevent signals from being differentiated incorrectly due to signal disturbances and cuts In some cases even if the same TV format is used more than two types of convergence data will be required For example when there are signal phase differences for every input source etc In such cases use two types of memories Switch them using the personal computer 81 ADJUSTMENTS 3 White balance adjustment memory ADJUSTMENTS has altogether six white balance adjustment memories 1 VIDEO Y C input memory RGB input memory Factory shipment memory Color mode 1 Normal Color mode 2 Re expose VIDEO Y C input memory RGB input memory Factory shipment memory Four memories can be actually adjusted except the factory shipment memory The factory shipment memory contains the normal white balance adjustment data and re expose white balance adjustment data When set to color mode 1 by computer command etc the white balance data can be switched synchronously when the input is switched The same is true for color mode 2 In addition if it is necessary to change between color modes 1 and 2 for the same input function or for the VIDEO and Y C input modes connect a computer and switch between the modes as necessary
95. TY adjustment data 3 BYTE HBL H BLK L adjustment data 3 BYTE 9 HBR H BLK R adjustment data 3 BYTE HPI H PIN adjustment data 3 BYTE ETX 03 125 ADJUSTMENTS 4 lt GWB gt GET W B DATA White balance adjustment data is output Format Output in the following order D OGOOC 5 02 lt LWT gt LINEAR WHITE adjustment data 3 BYTE lt CNT gt CONTRAST adjustment data 3 BYTE lt BRT gt BRIGHTNESS adjustment data 3 BYTE lt COL gt COLOR adjustment data 3 BYTE Note 1 lt TNT gt TINT adjustment data 3 BYTE Note 1 and Note 3 lt BLW gt BLUE LOW LIGHT adjustment data 3 BYTE lt GLW gt GREEN LOW LIGHT adjustment data 3 BYTE lt RLW gt RED LOW LIGHT adjustment data 3 BYTE lt BHI gt BLUE HIGH LIGHT adjustment data 3 BYTE lt GHI gt GREEN HIGH LIGHT adjustment data 3 BYTE lt RHI gt RED HIGH LIGHT adjustment data 3 BYTE lt SHP gt SHARPNESS adjustment data 3 BYTE Note 1 and Note 5 lt ABL gt ABL LEVEL adjustment data 3 BYTE Note 4 lt ABG gt ABL GAIN adjustment data 3 BYTE Note 2 ETX 03H Note 1 Dummy when INPUT RGB Note 2 No dependent on mode Has one data Note 3 Dummy when PAL signal is input INPUT VIDEO or Y C Note 4 Dummy when COMBINATION OFF Data is output when COMBINATION ON Note 5 SHARPNESS data for OFF is output when MULTI OFF and SHARPNESS data for ON is output when
96. W for RMD V3104U 100W 200VA for RMD V3104A 100W 200VA Operating temperature humidity range 5 to 35 C 85 or less without condensation External dimensions GENERAL SPECIFICATIONS External Dimensions 382 Unit mm Front Panel MULTI VIDEO PROCESSOR RMD V3104 J D POWER indicator Lights when the power is ON 2 POWER switch Press to switch the power ON OFF 15 GENERAL SPECIFICATIONS Rear Panel H CS Vi VB C G D VBS Y C switch Selects whether the VBS video signal or Y C signals are input to the V IN Video input The factory preset is VBS video signal 2 V FIL Vertical interpolation filter ON OFF switch When the optional variable scan board RMD V3020 is installed use this switch to switch the vertical interpolation filter ON OFF Set this switch to ON if the top and bottom of the com puter screen image cannot be accommodated entirely by the screen The factory preset is set to ON 3 INPUT switch Selects whether the V IN Video or OPTION input is
97. X X Note 2 Adjusts BLUE point convergence B85 P CONV ADJ 85 X X Note 2 Adjusts BLUE point convergence B91 P CONV ADJ 91 X X Note 2 Adjusts BLUE point convergence B92 P CONV ADJ 92 X X Note 2 Adjusts BLUE point convergence B93 P CONV ADJ 93 X X Note 2 Adjusts BLUE point convergence B94 P CONV ADJ 94 X X Note 2 Adjusts BLUE point convergence B95 P CONV ADJ 95 X X Note 2 Adjusts BLUE point convergence BA1 P CONV ADJ A1 X x Note 2 Adjusts BLUE point convergence BA2 P CONV ADJ A2 X Note 2 Adjusts BLUE point convergence BA3 P CONV ADJ A3 x x Note 2 Adjusts BLUE point convergence BA4 P CONV ADJ A4 X x Note 2 Adjusts BLUE point convergence BA5 P CONV ADJ A5 X X Note 2 Adjusts BLUE point convergence BP1 P CONV ADJ P1 X X Note 2 Adjusts BLUE point convergence 119 ADJUSTMENTS Com Ten Normal Number UP DW Eugen mand Valid Direct Command B BP2 P CONV ADJ P2 X X Note 2 Adjusts BLUE point convergence BP3 P CONV ADJ P3 X X Note 2 Adjusts BLUE point convergence BP4 P CONV ADJ P4 x X Note 2 Adjusts BLUE point convergence BP5 P CONV ADJ P5 X X Note 2 Adjusts BLUE point convergence BP6 P CONV ADJ P6 x X Note 2 Adjusts BLUE point convergence BP7 P CONV ADJ P7 X X Note 2 Adjusts BLUE point convergence BP8 P CONV ADJ P8 X X Note 2 Adjusts BLUE point convergence BP9 P CONV ADJ P9 X X Note 2 Adjusts BLUE point convergence BPO P CONV A
98. X X X Calls the white balance adjusting data for each mode GUS GET CNV SEL DATA X X X Calls the current state of the convergence data GST GET STATUS DATA x x X Calls the various setting states GVO GET ABL VOLTAGE x x X Recalls ABL control voltage HPI H PIN X Q O Adjusts H deflection PIN HSI H SIZE X Adjusts deflection SIZE HBL H BLK L X O O BLK width adjustment for forming conver gence correction waveform Left HBR H BLK R X O O BLK width adjustment for forming conver gence correction waveform Right IDS ID SET X X X Sets ID IDC ID CLEAR x x X Clears ID IN1 INPUT 1 O X Selects video input IN2 INPUT 2 O x X Selects Y C input IN3 INPUT 3 O x x Selects RGB input LOR LIGHT ONLY RED X X X Displays only RED LOG LIGHT ONLY GREEN X X Displays only GREEN LOB LIGHT ONLY BLUE X X X Displays only BLUE LWT LINEAR WHITE x O Adjusts LINEAR WHITE MLY MULTI YES O X X Turns ON peripheral light amount correction MLN MULTI NO O X X Turns OFF peripheral light amount correction NTS TV SYSTEM NTSC O X X Sets TV SYSTEM to NTSC Note 4 121 ADJUSTMENTS Com aiding Normal Number UP DW Function mand Valid Direct Command P PON POWER ON O X Turns ON power POF POWER OFF O X X Turns OFF power POC POWER ON MUTE O X X Turns ON power with the convergence DAC muted PAL TV SYSTEM PAL O x X Sets TV SYSTEM to PAL Note 4 R ROO RED 00 X O RED convergence adjustment Same as BLUE R59 RED 59
99. al commands B command Form Function Bh1h2ad1d2d3d4 Controls the designated screen individually Explanation h1h2 no 00 03 FF 188 00 03 Directly designates the VOUT port output single screen FF Designates all of the screens Screen no a Image input A C A Input port A selects option port input C Input port C selects video input Inputs that have been selected for each output terminal d1 Magnification in the H horizontal direction 1 8 d2 Magnification in the V vertical direction 1 8 d3 Screen position in the H direction 1 8 counting from the left d4 Screen position in the V direction 1 8 counting from the top The input port for RM V1000N system processor video input is input port B Monochrome mode is usually cancelled but by adding B to the end of the command you can execute the command while maintaining monochrome display Example B01A2212 Magnify the A input by a factor of 2 in the horizontal direction and a factor of 2 in the vertical direction and then display the image in position 1 from the left position 2 from the top on output screen no 01 MVP MANUAL M command Form Mh1h2ad1d2 Function Displays a magnified screen Explanation h1h2 screen no 11 FF Indicates the position of the output screen that will become the top left corner of the magnified display For more details see the next page a Image input A C
100. ame Screen center adjustment Monoscope Screen size adjustment Convergence adjustment Crosshatch Tilted crosshatch White balance adjustment white signal Can be linearly varied between 096 and 10096 Or 10 step Linear white adjustment Crosshatch Total adjustment Moving image scenery faces Color tint etc Color bar etc 78 5 Equipment required for adjustments The following are required for the adjustments performed during the set up of MPJ Recommended ADJUSTMENTS quality adjust ment Picture of beauty Various adjustment signals demonstration 2 Not for sale Equipment Role Required Function Model Remarks Personal For adjusting RS232C communication Computer function Adjusting For adjusting Pioneer Prepare a Personal Computer or remote RU V107 this remote control for adjust control ment Signal For generating Gray scale Especially white variable is generator white balance White variable important and color tint adjusting sig nals Adjusting LD Total image High definition image LD Perform color or final and overall adjustments with the actual im ages justing size con vergence LD player For playing ad With still function Pioneer justing LD LD V4400 Cable For connecting D Sub 25 pin male The length differs according to the RS 232C straight cable place adjustment is performed at but prepare at
101. an be regarded to be proportional with the calorific value Conversion into calorific value kcal h W x 0 86 kcal h Calorific value per multi projection unit 300 x 0 86 258 kcal h Conversion into British thermal unit W x 3 41 B t u h Calorific value per multi projection unit 300 x 3 41 1023 B t u h Projection units Calorie kcal h British B t u h 1 screen 258 1023 4 screens 1032 4092 9 screens 2322 9207 8 Temperature and humidity conditions Closely observe the following conditions on the temperature and humidity of the location of installation 1 Operating temperature 5 to 35 degC No condensation 2 0perating humidity 20 to 80 96 3 Storing temperature 10 to 45 degC The lenticular sheet will stretch and consequently the center of the screen will rise if the humidity is relatively high In this case the focus may slightly change and therefore readjustments in the installing conditions of the location must be performed when your system arrives Avoid wetting the system at all times Due to the shape of the product it is easily affected by external condi tions Especially to be avoided is wetting the MPJ and screen Thorough water proof measures must be taken when installing them in locations where there is a high level of moisture in the air such as near air condition ing vents and water sprays Take note that in new buildings moisture is frequently produced
102. and Input LCVd d2dsd Explanation did2 00 to 15 Add 0 before all numbers below 9 Vertical direction rate before conversion dsd4 00 to 15 Add 0 before all numbers below 9 Vertical direction rate after conversion Due to the use of a compression filter the condition is didz gt Both LCV0000 and LCV0101 are not convertible Directly changes the vertical filter conversion rate of the data table of the model using the VS board currently When the conversion rate is changed for DSY the image compressed by the new conversion rate will be output Example LCV0605 Set 6 gt 5 conversion 16 Program ROM version display VER command Input VER Explanation Indicates the version of the program ROM mounted in the current VS board Example VER PROGRAM VERSION BXY 1004 X VX XX 199X XX XX 17 To indicate the current function setting STS command Input STS Explanation Displays the model data No selected state auto or forced vertical filter ON OFF and freeze ON OFF selected by the VS board currently Example e STS Autolocks to PC9801 with the left display indicates vertical STATUS DSY FZN filter ON freeze OFF MODEL NO 09 AUTO STS Forcible locks the Macintosh with the left display indicates STATUS DSY FZN vertical filter ON freeze OFF MODEL NO 03 FIXED 179 MVP MANUAL 18 To select preset model M command Input Mh h2 Explanation Refer to VS Bo
103. and ID SELECT e Cyclically selects the input function in the OPERATION MODE in the following order VIDEO gt Y C RGB Selects the V SIZE in the DEFLECTION ADJUST MODE e Cyclically selects the item to be adjusted in the CONVERGENCE ADJUST MODE in the following order re SIZE MID SIZE 5D SIZE Moves the point to be adjusted up in the POINT CONVER ADJUST MODE Selects BRIGHTNESS in the WHITE BALANCE ADJUST MODE Returns the WHITE BALANCE ADJUST DATA to the factory set data in the MEMORY READ COPY MODE Select the pattern 1 3 for copying the convergence data between memories in the MEMORY READ COPY MODE n s Adjustment Mode Selects 3 DEFLECTION ADJUST MODE of the main menu of the adjustment mode Selects 3 for ID SET and ID SELECT in the ID SET CLEAR SELECT MODE e Cyclically switches MULTI ON OFF in the OPERATION MODE Selects V MID SIZE in the DEFLECTION ADJUST MODE Cyclically selects the item to be adjusted in the CONVERGENCE ADJUST MODE in the following order E LINEARITY gt MID LINEARITY 6D pre a Selects COLOR in the WHITE BALANCE ADJUST MODE only invalid for RGB input Resetthe various setting value in the MEMORY READ COPY MODE e Select the pattern 2 1 for copying the convergence data between memories in the MEMORY READ COPY MODE 130 ADJUSTMENTS 8 lt Adjustment Mode gt Selects 4 CONVERGENCE
104. ands aaa Executes and ends ARS DSN DSX DSY FZN FZY Displayed commands aaa Displays and ends FRO TBL STS VER Numerical commands aaa Displays and sets sub command state aaaddd Performs immediate settings displays and sets sub command state aaaxxx Performs special settings displays and sets sub command state TRK RGN GGN BGN CNT RLV BLV BRT BKL HPS VPS HWN VWN HWD VWD HFD Sub commands ddd Performs immediate settings and displays Xxx Performs special settings and displays Performs UP1 special settings and updates display Performs DW1 special settings and updates display Ends sub command state Other commands can be input even if the sub command state has not been ended In this time the sub command input mode will be canceled automatically Errors When aaa contains an error the COMMAND ERROR state is set and the current value is displayed When ddd contains characters other than 0 to 9 or is outside the 0 to 255 range the DATA ERROR state is set and the current value is displayed When xxx contains an error the DATA ERROR state is set and the current value is displayed When an error occurs the sub command state the SUB COMMAND ERROR state is set and the current value is displayed 173 MVP MANUAL 2 Exceptional commands Model data commands TBL Displays the current model data table TBLhh Displays the hh model data table M Displays t
105. ard Model Selection described later for the VS board model selection Forcible locks the model data preset Model data No hi h 0 0 Discriminates the model 0 1 VGA 640 x 480 0 2 IBM PC EGA emulation 0 3 Macintosh 13 inch monitor mode Standard 0 4 Macintosh 13 inch monitor mode RasterOps type 0 5 Macintosh 13 inch monitor mode Power Mac 0 6 FM R50 0 7 IBM Think Pad 230C 0 8 X68000 0 9 NEC PC9801 640 x 400 mode 1 0 Unused area Do not specify using the M command N N N User preset area Use only with the command 9 9 Models other than above This model data can be locked only using the M command The data range which can be preset by the user is 28 to 58 28 to 58 contains the VGA data same as 01 at shipment Refer to Mode 99 mentioned later for details of model No 99 180 MVP MANUAL 19 Model fresh F command Input Fhih2 Explanation Sets back to the model data preset at shipment Model data No h2 gt Auto VGA 640 x 480 IBM PC EGA emulation Macintosh 13 inch monitor mode Standard Macintosh 13 inch monitor mode RasterOps type Macintosh 13 inch monitor mode Power Mac FM R50 IBM Think Pad 230C X68000 NEC PC9801 640 x 400 mode 0000000000 COON OO FWD gt N N S y Unused area Do not specify using the M command User preset area KA co co Models other than above This model data can be
106. arnit ete pee a a a aaa tiae ieai aaa iaei 24 2 Geillng h lghE au eoe AE E T 24 3 Front paCe ounce a LG td ied a e PT ace etatis 24 4 Bear Space tente ettet ed kt eel etes eed i tute ere ted ee 24 5 Stacking Stages EM ER 24 6 Installation work to prevent toppling 25 7 Heat value calculation E T 26 8 Temperature and humidity conditions eeessssssssssssesseeeeeeeeee eren nnne 26 9 CondernsatlOrn eri 26 10 Visual field angles visible range essseseeeeeeeeeeeeeenneenneee nennen nnne nennen rennen 27 ARTE aia aro ERE 30 12 Effects of earthmagnetiS Messenien osea na aad a Era 30 13 Backyard ventilatiOn entier Een terrere det ole te tede eet ech aniraa Eear 30 14 POWEr Supply e 31 15 Gables USC aevi eb eem e ate peto in viter i faite e Ee ede ka euin 32 16 32 17 Caution for use of user prepared parts 32 19 Ventilation nien ce ee Dado deat eb are perte telae cin desit obe Se roseus 33 2 INSTALLATION AND ASSEMBLY eco rade ont EN C e n Eig ke Egon E AEEA aa aE
107. as possible to the cabinets 4 screen assembly work requires at least 2 persons although 3 persons is better 1 Horizontally connect screen to screen 2 Fig 3 4 31 3 4 32 Fix in 2 places top and bottom Screws Cross recessed small screws nominal diameter 4 length 25 included as accessories Alignment Make sure you carry out the alignment based on the screens and not the frames In the case of the 4 screen system align the screens such that the center becomes a cross shape Up down alignment Align screens 3 and 2 such that their upper edges are at the same height Fig 3 4 32 Forward backward alignment Align so that the screen surfaces wrench surfaces are at the same height Fig 3 4 32 Frames Align so that screen surfaces lie within the same plane Screen surfaces Corner fitting Align so as to form a straight p 2 line The arrows show the directions in which the bolts M4 are inserted Fig 3 4 31 Fig 3 4 32 2 Place screen D on top of screen 3 of the assembly in which screens 3 and 4 are already horizontally connected and vertically connect Fig 3 4 33 Fix in 2 places left and right of lower edge Screws Cross recessed small screws nominal diameter 4 length 25 included as accessories Alignment Left right alignment Align so that the joint on the right side of screen D and the joint on the right side of screen 3 form a straight
108. board must be added in order to display the image of the OPTION input Option 163 MVP MANUAL 4 To indicate the current MVP state SYS command Input SYS Explanation The current MVP state is shown when SYS is input 7 Example RMD V3000 Series PROGRAM Ver 1 00A ID 0 This is displayed continuously MODE 8 DEMO 8 GEN LOCK INTERNAL MANUAL MODE L2 INPUT V SCAN BOARD L3 INPUT NO BOARD L4 INPUT NTSC BOARD STANDARD MODE VBS L6 OUTPUT 4 OUT BOARD countinuously L7 OUTPUT NO BOARD L8 OUTPUT NO BOARD L9 OUTPUT NO BOARD Contents RMD V3000 Series PROGRAM Ver 1 00 1 ID 0 2 MODE 8 3 DEMO 8 4 GEN LOCK INTERNAL 5 MANUAL MODE 6 L2 INPUT V SCAN BOARD 8 L3 INPUT NO BOARD 9 10 L4 INPUT NTSC BOARD STANDARD MODE VBS L5 INPUT NO BOARD L6 OUTPUT 4 OUT BOARD 11 L7 OUTPUT NO BOARD L8 OUTPUT NO BOARD L9 OUTPUT NO BOARD 1 Program version information 2 ID No selection switch setting 3 Mode switch setting 4 Input video switch setting 8 4 screen magnification by optional RGB input board 9 4 screen magnification by NTSC input board 5 GEN LOCK internal and external displays 164 GEN LOCK INTERNAL Internal synchronization normally fixed at internal synchro nization MVP MANUAL 6 Display of remote and manual states
109. by computer command CM1 and CM2 4 Combined use of remote control and personal computer Although it is possible to connect both the remote control RU V107 and Personal Computer adjustments cannot be performed using both at the same time Remote control Personal Computer commands and rear panel switches operated the latest are given priority When the adjustment mode is set by the Personal Computer while adjusting with the remote control the adjust ment mode will be set by the Personal Computer disabling adjustments to be performed using the remote control If the adjustment mode is set by the remote control using adjustments by the Personal Computer adjustments by the Personal Computer will be disabled Furthermore if the rear panel switches are operated when the adjustment mode is set by the remote control or Personal Computer the adjustment mode is exited and the rear panel switches operations are started 5 Memory of adjustment data and settings When adjustments are ended in the adjustment mode such as convergence white balance etc always exit the adjustment mode AJN for Personal Computer ADJ OUT key for remote control If the power is turned off AC OFF without exiting the adjustment mode a part of the adjustment data will not be preserved in the memory The input function MULTI ON OFF peripheral light amount switching COLOR MODE 1 2 white balance switching COMBINATION ON OFF ABL link switching VIDEO MUTE ON OFF
110. ckets onto the bottoms of the cabinets using screws Fig 3 4 10 Screen frame support brackets x 4 provided with screen frames Screws 4 dia x 16 x 8 provided with screen frames Ne NOTE To prevent hazard never mount on a cabinet Screen frame support brackets Fig 3 4 10 10 Block the holes on the cabinets on the surfaces that become the outer panels of the system using light insulating stickers Fig 3 4 11 Light insulating stickers 10 provided with cabinets Top panel 1 hole per surface Side of cabinet a Light insulating RS Side panel 2 holes per surface Fig 3 4 11 B Procedure when the system is installed up against the rear wall 11 When the system is to be installed up against the rear wall perform the procedure till step 10 above while the system is apart from the rear wall then complete the rear wiring 12 Check the operations including those of the power supply 13 After ensuring that there is no problem in operation release the adjusters of the stands temporarily and approach the entire system to the wall by moving it slowly and cautiously 14 After moving the system to the installation location secure the adjusters of the stands 47 INSTALLATION AND ASSEMBLY Installing the screen frame ass ies 1 Attach hooking brackets L R onto all of the screen frames to be used Fig 3 4 12 NOTE Be sure to sta
111. clination level beforehand 2 1000 with 0 5mm m precision level is the point where you can just recognize bubble of the level shifted slightly to left or right from the center The inclination of 2 1000 means ascending or descending 2 mm with moving 1000mm 19 CHAPTER 1 FEATURES 1 FEATURES OF THE MULTI PROJECTION UNIT hereinafter referred to as the MPJ Thin space saving design 75 cm deep and installable flush against the wall when stacked in two levels in a 4 screen configuration etc Split structure for easy carrying and assembly The structure is split by screen making it easy to carry and assemble the system Excellent features with a reasonable price Can be stacked in up to three levels Under 2 meters high when stacked in two levels allowing installation in stores with low ceilings Improved adjustment procedures Uniform simplified ABL level adjustment using ABL control voltage indication Lists of main deviation and white balance adjustment values can be displayed when performing adjustments with the remote control unit making it simple to check adjustment values and compare with other screens Variety of screens available 1 Screw width approx 4mm RM V2550S 2 Screw width 1mm RM V25508S2 Usable in bright places High screen brightness 420 ft L allowing use in lobbies exposed to external light and bright offices e Full of functions for providing high picture quality with en
112. conversion 22 Horizontal frequency input command Input HFOd d2ds d4dsde Explanation Directly changes the horizontal frequency of the model data table used for the VS board cur rently Input the frequency using 6 digit decimal numbers When data input is omitted the horizontal frequency on the current model data table is displayed Refer to Using Methods of HFO VFQ VLN described later on the using methods Example HFO035 123 lt Input 35 123 kHz Take note to input O at first Although numbers outside the horizontal frequency specification range 24 0 kHz to 35 0 kHz range of this board can be input they cannot be used as preset data 183 MVP MANUAL 23 Vertical frequency input command Input VFOd d2ds d4dsde Explanation Directly changes the horizontal frequency of the model data table used for the VS board cur rently Input the frequency using 6 digit decimal numbers When data input is omitted the vertical fre quency on the current model data table is displayed Although numbers outside the vertical specification range 55 0 kHz to 72 0 kHz range of this board can be input they cannot be used as preset data Refer to Using Methods of HFO VFO VLN described later on the using methods Example VFO060 123 lt Input 60 123 kHz Take note to input O at first 24 Vertical full line input VLN command Input VLNd dzds Explanation 3 digit decimal nu
113. crews nominal diameter 4 length 25 included as accessories Align so as to form a straight line Fig 3 4 47 Alignment Left right alignment Align so that the joints on the left sides of screens 8 and 2 form a straight line Fig 3 4 47 Forward backward alignment Align so that the screen surfaces wrench surfaces are at the same height 3 Mount the group consisting of the 3 vertically connected screens 2 8 and 2 on a cabinet as for RM V25508 see P50 3 Notes There should be a position determining pin in each of screens and which have already been mounted on a cabinet Since these pins protrude about 6mm when you mount the vertically connected group of screens and 12 you should at first leave a gap of at least around 10mm between this group and the right hand side of the previously mounted group screens 8 and 2 You should then push the group of screens 5 8 and 2 the left until the vertical joints come together When doing this you should make sure that the pins go into the holes in the left hand sides of the frames of screens 8 and 2 as in Fig 3 4 43 b You will then be able to line up the heights of the vertical joints on the two groups of screens You should not carry out the fixing work yet 4 Adjust the heights of the joints and tilts of each of the groups of 3 vertically connected screens using the following screws After this realign the vertical joints
114. cted Press the key to return to the main menu b Ending the adjustment mode Press the key and return to the NORMAL OPERATION MODE Note c Adjusting another unit Repeat the mentioned operation 1 to 7 Note Even if a certain unit has timed out and is shifting to the normal mode be sure to perform one of the following steps a or b or c If not the unit for which ID SELECT has not been performed will remain in the standby state Example When the ID 13 screen in the right figure is selected and left for more than 180 seconds without performing any operation Bottom left screen Normal mode Other screens Standby state of the remote control adjustment mode ID 21 To exit from these states perform the following a To continue adjustment Press the L9 key to set all screens into the remote control adjustment mode and perform adjust ments b To end adjustments Press the key and exit from the remote control adjustment mode of screens in the standby state c To turn OFF the power Press the key to turn OFF the power of all screens STANDBY state 139 ADJUSTMENTS 3 Adjusting the H SIZE 1 Enter the adjustment mode 2 Press the _3_ key to select 3 DEFLECTION ADJ 3 Press the 5 key to select H SIZE Then use the and keys to adjust the H SIZE The following can be adjusted using similar methods LO key V STATIC key H BLK L key V SIZE key H BLK R key V MID SIZE L9 key
115. d form a straight line Fig 3 4 44 Forward backward alignment Align so that the screen surfaces wrench surfaces are at the same height 6 Mount the group consisting of the 3 vertically connected screens 3 and 9 on a cabinet as for RM V2550S see P50 3 Notes There should be a position determining pin in each of screens and which have already been mounted on a cabinet Since these pins protrude about 6mm when you mount the vertically connected group of screens and you should at first leave a gap of at least around 10mm between this group and the right hand side of the previously mounted group screens and Fig 3 4 43 3 You should then push the group of screens 3 and to the left until the vertical joints come together When doing this you should make sure that the pins go into the holes in the left hand sides of the frames of screens and 9 as in Fig 3 4 43 b You will then be able to line up the heights of the vertical joints on the two groups of screens You should not carry out the fixing work yet Cabinet Screens Align so as to form a straight line Approx 10mm View from above Fig 3 4 43 Align so as to form a straight line Fig 3 4 43 b Fig 3 4 44 68 INSTALLATION AND ASSEMBLY 7 Adjust the heights of the joints and tilts of each of the groups of 3 vertically connected screens using the following
116. d are as follows Picture frame data Data changed by the amp G command Screen start position data Data changed by the amp P2 command amp 02 command Note When this command is executed the setting will be saved even if the power is turned off Therefore all precious settings will be erased 4 To load the picture frame data amp L command Input amp LO amp L1 Explanation amp LO Loads the picture frame data set at shipment on the RAM amp L1 Loads the picture frame data saved at the end on the RAM Data when power is turned on The parameters loaded by the amp L command are as follows Picture frame data Data changed by the amp G command Screen start position data Data changed by the amp P2 command and amp O2 command Use this command to reference the adjustment data temporarily 162 MVP MANUAL 3 To switch the image input IFF command Input IFFa Explanation Switches between the V IN input 4 screen enlarged display and the OPTION input 4 screen en larged display a Image input A or C A OPTION input image display C VIN input image display Example OPTION input Parsonal computer CADO PIAS LD V IN input IFFA IFFC 123456789 ABCODEIFGH KW RGB Personal computer Refer to the command page 163 if the normal 4 screen magnification cannnot be set due to incorrect operations input
117. djustment HWN VWN commands Input HWNdideds VWNd dzds Explanation Compensation data 0 to 254 HWN Adjusts the blanking window position VWN the V blanking window position However the picture inside the blanking window also moves HWN VWN adjustments NZ Figure Example of HWN VWN Command Adjustment Note HPS HWN and HWD are commands to change reading and writing timings of the image memory and are mutually correlated For this reason Each of these three commands has a limited value without varying the 0 to 255 range VPS VWN and VWD are also the same When the above command become the limited values the image blinks three times 11 Horizontal vertical blanking window width adjustment HWD VWD commands Input HWDd d d VWDd d d 17273 17273 Explanation Compensation data 0 to 254 The pedestal of the video signal is masked by blanking which can adjust the bright level HWD Adjusts the H blanking window width VWD Adjusts the V blanking window width HWD adjustment gt Figure Example of HWD Execution Note HPS HWN and HWD are commands to change reading and writing timings of the image memory and are mutually correlated For this reason Each of these three commands has a limited value without varying the 0 to 255 range VPS VWN and VWD are also the same When the above command become the limit
118. djustment is performed to correct this tendency Blue becomes weak when data is set to UP and strong when set to DOWN If Linear White is added excessively the ABL voltage becomes unbalanced and the medium luminance of blue may be erased etc Also make sure that the blue is not blur when MULTI ON is set because the top left and bottom left of the screen are affected first LINEAR WHITE becomes effective LINEAR WHITE Down 113 ADJUSTMENTS C ABL GAIN adjustment White 100 The ABL GAIN adjustment adjusts the white 100 luminance of a unit to other units after low luminance and medium luminance have been adjusted Normally when white 10096 is input ABL is imposed and the current is controlled so that the current flowing in the CRT does not exceed a certain level Even if the current flowing in the CRT of each unit is the same the difference in the characteristics of each CRT will cause their luminance to become inconsistent The ABL GAIN adjustment converges this inconsistency It adjusts the ABL current flowing virtually In white 10096 inputs as the ABL works efficiently the luminance drops when the ABL GAIN of a unit with high luminance is decreased use this adjustment to adjust its luminance to the other units Turn off the ABL in the adjustment Normally set the ABL GAIN to maximum ABL level adjustment white 10095 The ABL level adjustment is used to suppress the differences in the ABL control voltage of the differen
119. e external computer DPY Delayed Power On Yes Delayed power on function enabled DPN Delayed Power On No Delayed power on function disabled By default initial settings this function is enabled The on screen display when this command is set is as shown below DELAY ON OFF Fig 2 On screen display for delayed power on function status on or off e set s current status whether or not the function is on or off can be checked by sending the GST direct command from an external computer For details refer to page 130 84 lt Assigning IDs from a computer gt IDC ID Clear Clear assigned ID Command IDS ID Set Assign ID ADJUSTMENT S The IDS command is only valid when no ID is assigned and is value from the unit closest to the computer remote control unit Example With a 4 screen system when assigning ID numbers for the first time from a computer Computer Multii projection unit Multii projection unit Multii projection unit Multii projection unit AJY ID 01 01IDS AJY ID 02 02IDS AJY ID 03 A 03IDS AJY ID 04 04IDS ID numbers can be assigned to all the units by sending commands in this order However the ABL linking cables must also be connected as shown above The characters that can be used for ID numbers are numbers 0 to 9 letters A to F not case sens
120. e connected cube system the cube with the lowest voltage in the sys tem can be found by reading the ABL control voltage with the RYY status Refer to GVO page 126 Meanings of the command table Normal valid Command which can be used only when the adjustment mode is set using a command O Receive a command regardless of AJY AJN X Receive a command AJY Number direct Command which can directly be specified as the adjusting value when added with 000 to 255 The value provided is a direct command Example For CNTO70O the contrast is set to 70 X Not a Numeral direct command Example For IN1128 only IN1 is executed UP DW command A command which manipulates the adjustment value for the value UPn DWn n is an arbitrary num ber between 0 to 9 and F provided after the command 123 ADJUSTMENTS List of GET commands What are GET commands Commands which output adjustment data etc from MPJ microprocessor to the PC The adjustment data is output for every mode Example 1 When GGH command is set when CONV DATA MEMO 1 is selected the GREEN horizon tal convergence data of MEMO 1 will be get In the same way when lt GGH gt command is set when CONV DATA MEMO 2 to 3 are selected the GREEN horizontal convergence data of MEMO 2 to 3 will be get Example 2 When lt GWB gt command is set when COLOR MODE 1 and at the same time INPUT RGB the W B DATA for COLOR MODE 1 and INPUT RGB will be ge
121. e current value both convergence and white balance to the value set at shipment and copy the convergence data between the memories 138 ADJUSTMENTS 3 Adjustment examples 1 Setting the ID 1 Enter the adjustment mode by key 2 The main menu will be displayed Press the key to select 1 ID SET CLEAR SELECT 3 Check that the ID display at the top left of the screen is Press the key to select 1 ID SET When an ID has already been provided delete the ID as follows and perform from step 1 a Press the 2 key to set the adjustment mode The main menu will be displayed b Press the key and select 1 ID SET CLEAR SELECTI c Press the C5 key after pressing the key to clear the ID number 4 The ID input standby state will be set Use the O to 9 Jand A to keys to input the ID 5 If several units are used return to step 1 and set the ID of the next unit 2 Entering the adjustment mode of certain units only 1 Enter the adjustment mode 2 Check that all the screens display the adjustment mode Press the key to select 1 ID SET CLEAR SELECT of the main menu 3 Another menu will be displayed Press the key to select 2 ID SELECT 4 Input the ID of the unit to be adjusted 5 Only the unit corresponding to the ID input will display the main menu All other units will be in the standby state 6 Perform the usual adjustments 7 To continue adjusting the screen for which ID has been sele
122. e point to be adjusted on the screen and use the Ca Cw and keys to adjust the convergence of that point 5 Pressing the key will select the area adjustment and point adjustment cyclically Adjusting the red high light 1 Set the adjustment mode 2 Press the key to select 6 WHITE BALANCE ADJ 3 Press the key to select R HIGH And use the and keys to adjust the red high light The following can be adjusted in the same way LO key ABL GAIN key R HIGH key CONTRAST key G HIGH key BRIGHT L9 key B HIGH COLOR Note 1 key RLOW key TINT Note 2 key GLOW 5 SHARPNESS Note1 BLOW key LINEAR WHITE ABLLEVEL Note 3 Note 1 It is invalid for RGB input Note 2 It is invalid for RGB and PAL input Note 3 It is valid only at COMBINATION ON Turning on the peripheral light amount correction MULTI 1 Enter the adjustment mode 2 Press the key to select 2 OPERATION MODE 3 Press the 3 key to turn on off the peripheral light amount correction MULTI The following can be performed in the same way key Input selection VIDEO Y C RGB 3 key Peripheral light amount correction ON OFF key Color mode 1 2 L5 key COMBINATION ON OFF key VIDEO MUTE ON OFF key Baud rate selection gt 1200 5 gt 2400BPS gt 4800BPS 9600 5 gt 19200BPS1 TV system selection
123. ear atthe top and bottom as shown in the figure lt Dusts appearing at the top and bottom A In such cases use the VWM VPS and VWD commands to mask the dirt The RGB board is the upper limit at which the dot clock 35 MHz ensures performance The following is a simple calculation method of the dot clock Dot clock Hz Effective dot number x Horizontal frequency Hz x 1 35 Use Mode 99 to output images temporarily When used it is recommended that the user preset area No 28 to 58 be changed and used after checking the frequency etc using FRO command The G on Sync model is not locked in the Mode 99 185 MVP MANUAL 12 VS BOARD MODEL SELECTION PC signal input NO NO Preset PC Locked in Mode 99 01 to 09 0 YES YES Output in Mode 99 The model may be outside V the application range Auto locked Y Check frequency line number using FRO command Lock preset model data using M command Frame color adjustment lt When using the Mode 99 data as it is Description With the VS board first the input PC frequency and full line number are measured Next if there are preset models which have three matching measuring data it is determined that these models are connected and they are set into the autolock state In the autolock state 01 AUTO is displayed by the STS command If there exists no preset mod
124. ect composite video input CIC command Input CIC Explanation Select the composite video input of NTSC input board This command is executed in the remote mode It is ignored in the manual mode Refer to the RMT command 4 To select YC separation input YIC command Input YIC Explanation Selects the Y C separation input of the NTSC input board This command is executed in the remote mode It is ignored in the manual mode Refer to the RMT command 167 MVP MANUAL 5 To set the output to the NTSC mode NT command 6 To set the output to standard RGB mode NTR command 7 To set the output to the double speed RGB mode NTD command Input NT 3 NTR 3j NTD 3 Explanation NT Sets the NTSC input mode 15 734 kHz V 59 94 Hz Composite video Y C output NTR Sets the standard speed RGB mode 15 734 kHz V 59 94 Hz NTD Sets the double speed RGB mode H 31 469 kHz V 59 94 Hz This command is executed in the remote mode It is ignored in the manual mode Refer to the RMT command NOTE With the RMD V2550BU only standard speed input is possible 8 Optional variable scan board adjustment mode settings A command Input tA Explanation Used when adjusting the optional variable scan board RMD V3020 To exit the adjustment mode omit the parameters and input For details on adjustments refer to VS Board Command Reference on the following pages 1
125. ed values the image blinks three times 177 MVP MANUAL 12 Full dot number compensation HFD command Input HFDddd Explanation didzds Compensation data 0 to 254 Corrects the preset sampling clock Vertical bit lines can be erased by executing the HFD command The HFD and HPS data are correlated and have limited values Bit lines Figure Bit Lines which can be Erased by HFD Execution 13 Freeze frame Y ON N OFF FZY FZN commands Input FZY FZN Explanation Continuously outputs the image the moment the FZY is executed This is canceled by FZN Whether the state is FZY or FZN can be determined by executing the STS command Do not perform position adjustments in the FZY state 14 Vertical filter ON OFF DSY DSN DSX commands Input DSY DSN DSX Explanation Converts the vertical line number so that the computer images can be displayed fully on the monitor The conversion rate preset by the LCV command can be changed Refer to LCV command Whether the state is DSY or DSN can be determined by executing the STS command DSY 480 vertical lines 400 vertical lines DSN lt N Figure Example of DSY and DSN Executions MAC 6 5 Conversion Example The DSX is a command which makes the V FIL switch on the rear of the MVP effective 178 MVP MANUAL 15 Vertical compression filter conversion rate input LCV comm
126. eecaeeeeeaeeeeecaeesesaaeeseaaeeessaeeeesaeesesaeeeseeeees 77 IBI aedy 77 2 Processing OF Wires roche teer dene rh eere on ra naa Er aea e eda du 78 3 Aging n Sct eset cttm une Sings ia ees Shah EER 78 4 Adjustment signals iore sctchdsoneenseneceqnetseuhiviccedaceeenscdedenasteceatecs ara Ea ieSe taieri eie iaaa ana 78 Equipment required for adjustments 79 CONTENTS 2 BEFORE ADJUSTMENTS 80 1 Convergence adjustment memory eseesssssssesseeeee eene nnn nennt nnne nnns nennen nn 80 ABBAS CINE XE 81 3 White balance adjustment memory sees nnn 82 4 Combined use of remote control and personal computer 82 5 Memory of adjustment data and settings sessessssesssesseeeeee enne nnne nnne 82 6 Assignirig ID n rnbers cuori terrere tti nee enit Pri aun 83 7 Focus adjustment eee a e iet ette ee eter S e 88 3 GENERAL EXAMPLES OF MULTI PROJECTION PRESENTATIONS 89 1 Switching between enlarged individual display on the multi video processor 89 2 Switching the sources input to the multi video processor
127. een frames carry out the work with at least three persons 10 om Q The illustration shows system with 3 stage configuration a _ _ aS Lower lt Fig 3 4 14 49 INSTALLATION AND ASSEMBLY NOTE 4 When lowering the screen frame ass y in the end of this step hold it by the points shown below so as not to get your fingers hands crushed by metallic parts Fig 3 4 15 NOTE 5 Adjust the left right positioning with respect to the center where the 4 screens meet When adjusting the left and right positioning do not push the screen frame ass y laterally with a strong force but the screen frame ass y should be lifted slightly by 2 persons If lateral force is applied to the screen frame ass y while it is in the lowest position the screens reticular sheets may drop out NOTE 6 Adjust the top down positioning by lowering the screen frame ass y until it comes in contact with the screen frame support brackets below it Caution areas Bottom of cabinet Screen frame support bracket NOTE As the screen frame ass y approaches the bottom while it is lowered be sure to hold it by points within the safety range shown in the illustration If you hold it by the caution areas at less than 200 mm from each end you may get your fingers hands crushed by it Fig 3 4 15 50 INSTALLATION AND ASSEMBLY 4 Attach the other
128. el data corresponding to the measuring data all models are autolocked to Mode 99 Refer to MODE 99 Take note that there are DOS V personal computers which have 640 effective dot number and 480 effective line number but a different full line number 526 or 524 from the standard VGA 525 In this case their models are autolocked to Mode 99 As the frequency is close to the VGA when the VS board is forcible locked to the VGA by M01 and data is output the image frame etc will be optimum In this way the M command is used when using the preset data as substitute data 13 USING METHODS OF HFO VFQ VLN There is a need to autolock unpreset models without using the Mode 99 accoridng to the state in which the VS board is used The procedure is as follows Input a PC without the preset data Autolock to 99 Check the frequency and full line number using the FRO command Forcible lock using the M command to the model with a similar frequency Input the checked data using HFO VFO and VLN Execute M00 and check that it has been auto locked Unpreset models can also be autolocked using the above procedure To set back the original state use the F command 186 MVP MANUAL 14 SELECTING THE SYNC SIGNAL When adjusting the VS board care must be taken regarding the relation of the priority order of the sync signal Order of selecting the sync signal The priority order for selecting the sync signal of t
129. enlarged into 4 screens The factory preset is set to V IN Always press the reset button after changing the position of this switch 4 Remote control input connector Connects the display s remote control unit Adjustment or changes to the settings of the unit cannot be accomplished with the remote control unit 5 RS 232C switch When performing adjustments from a computer use this switch to switch between this unit MVP and display DISPLAY 16 6 RS 232C connector Connects RS 232C cable RS 232C connector diagram gt RS 232C pin layout 25 14 lt RS 232C connection diagram gt Use an RS 232C straight cable for connection lt External computer gt lt MVP unit gt RS 232C RS 232C IN connector FG 1 straight cable 1 FG TxD 2 gt 2 RxD RxD 3 4 3 TxD RTS 4 2 4 RTS CTS 5 5 CTSI DSR 6 6 DSRI SG 7 7 SG Pins 4 5 and 6 are internally shorted Pins which are not shown in the diagram are not used Signal name ca Frame Ground eh Transmitted Data RxD Received Data aranana Request to Send CTS iiie Cleat to Send Data Set Ready ICM E Signal Ground 7 Baud rate switch Selects the baud rate for the RS 232C Baud rate switch 8 bit DIP switch Functions of bits Factory preset values Switch No Function ON OFF 1 Parity Yes No 2 Parity polar
130. er switch to ON Video is not displayed All Video is not displayed Multi video processor The video input cable is unplugged from the video input The video cable is plugged into a wrong jack The cable is disconnected or other wise defective The option board is inserted in completely The INPUT switch is set improp erly The MODE switch is set improp erly The demonstration pattern is set erroneously Insert the cable properly into the jack Connect the cable properly Use another cable that is not defec tive Re insert the option board prop erly Set the INPUT switch properly and press the reset button Set the MODE switch properly and press the reset button Set it properly See the caution on the demonstration pattern setting on page 169 The joints are glossy Multi projection units Notes on the input signal The joints reflect external light Adjust the position etc of the light source The video may not be displayed normally if any of the following signals is input VCR signal obtained after repeated dubbing copies VCR or DVD signal containing copy guard signal Other signal than the standard NTSC signal Notes on the input images Colored characters or characters on color background may be hard to read due to color blur When displaying characters it is recom mended to use those without colors or display them on a background witho
131. ersion rate setting Refer to LCV command For correcting the aspect ratio etc However the vertical resolution deteriorates according to the compensation rate RGB gain adjustment Refer to RGN GGN and BGN commands R Y B Y clamp level adjustment Refer to RLV BLV commands Contrast adjustment Refer to CNT command Bright adjustment Refer to BRT command MVP MANUAL 7 PICTURE FRAME ADJUSTMENT PROCEDURES Adjust the MVP picture frame as follows 1 Connect the RS 232C cable to the MVP panel Refer to P 153 Connection with MVP external computer 2 Initialize the picture frame data in RAM ex amp LO d Refer to amp L command 3 Set to the magnified screen to be adjusted ex M11C22 Refer to the M command 2 command 9 2 4 Perform coarse adjustment of the picture frame ex amp P21 J Refer to the amp P command b Perform fine adjustment of the picture frame ex amp GO J LLRU J Refer to the amp G command 6 Repeat steps 4 and 5 for every position on the screen 7 Save the adjustment data in the EEPROM ex amp W1 Refer to the amp W command 1 Command reference 1 To shift to the operation mode command Input Explanation By executing this command when the power is on various commands be executed 2 To set different screens for adjusting convergence DFFC command Input DFFC A Explanation By executing this command the V
132. es VMN VIDEO MUTE OFF X X X Sets video mute to OFF when the input function switches 122 Note 1 Note 2 Note 3 Note 4 Note 5 Note6 Note 7 ADJUSTMENTS The ABL command is valid only in the ABL combination ON CBY state The ABL level setting and the ABL voltage for the individual units are displayed on the on screen display The UP DOWN commands that can be used for the point convergence adjustment are as follow Move up gt UP1 Move down gt DW1 Move to right gt 1 Move to left gt LE1 Adjustment of each area use the commands as follow File area adjustment 1 and LE1 are available Command name RPO GPO BPO O 2 4 6 8 0 Line area adjustment and DW1 are available Command name RPO GPO BPO O 1 3 5 7 9 The COL CON and COF commands are not valid during RGB input The TV SYSTEM selection command and convergence adjustment data memory area selection com mand can be set separately for when the input function is set to VIDEO or Y C and when it is set to RGB The TNT commands are not valid during RGB input Neither valid during PAL input besides RGB The SHP commands are not valid during RGB input Turns the combination on off relay RY1000 on and off The ABL voltage for that individual set can be found by reading the ABL control voltage with the RYN status Refer to GVO page 126 The ABL voltage for the entir
133. es with a level anchor bolts when the level come off screens and light after assem bling the System The inclination of Stands must be less is more than 2 1000 mm leakage than 2 1000 mm 18 10 Attach Be sure to fix Screens with bolts from the when Screens are out of Screen frames deform that may Screens lowest center to the outside low by low the correct position cause come off Screens and Do not assemble in the column direction Be sure to loosen the bolts light leakage Do not push or add extra force to Screen in which fix Screen frames Screen frame once deformed attaching especially after fixing them to the and then align them has stress even if the shape is projection frames Do not correct the screen corrected frame position without Therefore replace it with new loosening the bolts Left and bottom edges of screens are attached Check left and to the screen frames by adhesive tape Confirm bottom edge of that screen have not come off from the screen the screen and frame make sure that there is no gap between screen and screen frame Left top Left bottom Bottom center Note Applied models Projection unit RM V2400N 2500N RM V4000V 5000V Projection frame RMF V4011 5011 Screen RMS V4011 5011 Use a highly precise level whose precision is more than 0 5 mm m It is suggested to check the relation of bubble position and measuring line of the level according to the in
134. essary to set the adjustment mode by AJYC Refer to the AJYC command The changed value will be memorized the last Example BRT3 Sets the bright level to 3 Sub command mode of BRT command The sub command mode is set by BRT J Example BRT3 indicates the current value Input and at the cursor position Always input CR to end 4 Color compensation COL command Input COLad dzds Explanation Corrects the color of the NTSC input board Compensation value 0 to 255 COL Help display COL Displays the current value and moves to the sub command mode To execute this command it is necessary to set the adjustment mode by AJYC Refer to the AJYC command If data input is skipped the sub command input mode is set after the data is displayed COL sub command mode The COL sub command mode is set by COL J Example COL xx indicates the current value Input the following sub command at the cursor position Always input CR to end 0 to 255 Ends the sub command mode after a number has been input Increases decreases the data by one step UP1 to 9 0 Increases the current data by 1 to 10 steps DW1 to 9 0 Decreases the current data by 1 to 10 steps RES Defaults the adjustment value factory setting Ends the sub command input mode The changed value will be memorized the last Example COL UPO Increases the color compensation value by 10 steps 166 MVP MANUAL 5
135. fect the ABL operation Fix the initial value for ordinary use Perform the W B adjustment in the order of R G B HIGH LIGHT and R G B LOW LIGHT Fix the CONTRAST and BRIGHTNESS Change the HIGH LIGHT luminance using G HIGH LIGHT and the LOW LIGHT luminance using G LOW LIGHT Basically fix the CONTRAST level to 128 if the ABL function feature well 112 ADJUSTMENTS 5 Rough adjustments 1 Black level adjustment Signal White 1096 Adjust R LOW G LOW and B LOW to the point where the CRT starts lighting up 2 HI LIGHT adjustment Signal White 5096 Adjust R HI G HI and B HI so that the CRT becomes white First adjust so that the brightness of R G and B becomes the same and while maintaining that brightness balance R G and B and adjust so that the CRT becomes white 3 LOW LIGHT adjustment Signal White 2096 Adjust R LOW G LOW and B LOW so that the CRT becomes gray 4 Convergence adjustment Signal White 5096 2096 Repeat 2 to 3 and converge the light If the HI LIGHT of R G and B is moved their LOW LIGHT will change greatly Therefore pay special attention to the value of the LOW LIGHT Amount of Hi Up Amount of Low Down Hi Up Low Down Low Light starts to deviate LINEAR WHITE adjustment When white peak signals such as WINDOW are input due to the characteristics of the Blue CRT there is a tendency for the peak to become yellow compared to other colors The linear white a
136. ff the power once When operating several MPJ simultaneously do not press the buttons quickly and continuously as some MPJ may not synchronize with the other MPJ MPJ not assigned an ID cannot be operated using the remote control unit To exit this state perform one of the following 1 Start up the remote control adjustment mode using the button 2 Exit the remote control adjustment mode using the button 3 Turn off the power The remote control signal is output to the next MPJ via the link terminal only when a certain ID is set to the MPJ When operating several MPJ set this ID to all the MPJ Only connected with the link cable located after the MPJ to which the remote control unit is connected can be operated Handle the wire carefully Warning for Use of Dry Batteries W Using dry batteries incorrectly will result in battery liquid leakage damage etc Take note of the follow ing Also refer to precautions provided for dry batteries Load the and sides of the batteries correctly as shown on the battery case Do not use old and new batteries together Batteries of the same shape may have different voltages Do not use different batteries together When not using the unit for a long period of time one month remove the batteries to prevent battery liquid leakage If leakage occurs wipe the liquid thoroughly and load new batteries Do not charge short circuit disassemble
137. ffer according to the installed direction Difference is about several mm in the up down left right directions but the degree of change varies according to the strength of the earth magnetism of each area Misconvergence may also occur due to slight rotations Thus when performing adjustments before moving the set to the place where it is to be installed do so in the same direction as the direction of installation then readjust in the final position of installation e Normally perform adjustments in the final position of installation The system is not only affected by earth magnetism but by the following magnetisms generated by various items in its surrounding as well Steel frame of building Power cables on the floor Large speaker systems Special equipment Those generating magnetic force Metallic installation table frames etc 13 Backyard ventilation A temperature difference between the front and back of the screen may occur for any of a number of reasons such as an increase in the internal temperature of the system or a change in the effectiveness of air conditioning When such a temperature difference occurs air will try to flow in order to equalize the temperatures If there is no path for the air to follow between the area in front of the screen and the backyard area then the screen may warp You should make sure that there are paths in the backyard and in front of and behind the screen that will allow ventilation
138. from the center position Fig 3 4 23 10 Adjust the positioning of the cabinets Fig 3 4 8 Front rear Line up the wood surfaces of the front of the cabinets Left right Form across on the center point where the 4 screens meet 11 Fix the connections between cabinets using bolts Fig 3 4 21 3 4 22 Front M8x45 x b provided with cabinets Rear M8x65 x 6 provided with cabinets M8x45 x 2 provided with cabinets 12 Attach the screen frame support brackets onto the bottoms of the cabinets using screws Fig 3 4 10 Screen frame support brackets x 6 provided with screen frames Screws 4 dia x 16 x 12 provided with screen frames 13 Block the holes on the cabinets using light insulating stickers Fig 3 4 11 Light insulating stickers x 15 provided with cabinets 57 INSTALLATION AND ASSEMBLY Installing the screen frame ass ies 1 Attach hooking brackets L R onto all of the screen frames to be used Fig 3 4 12 NOTE Be sure to stand the screen frames vertically during work 2 Connect three screen frames vertically to form screen frame ass ies Fig 3 4 24 Adjust their positioning before attaching using screws Front rear positioning Make the rear surfaces flush Left right positioning Align the left vertically connected screens with reference to their right side edges the central vertically connected screens with reference to their left side edges and the right vertically connected scree
139. from the concrete and the humidity level subsequently rises Electrical equipment such as this system should not be installed in high humidity environments Follow the precautions below when high humidity is expected Never install the MPJ and screen in locations that do not meet their respective specifications Ground the units Ensure that there is no condensation Install the units where no one can touch them Ensure that water droplets do not fall onto the units 9 Condensation One problem that occurs in the winter season is Condensation When the temperature of the room in which this system is installed rises suddenly condensation occurs on the screen and lens thereby the system cannot display its best performance In such cases turn off the power once leave the system off for one hour and turn on the power again Increasing the room temperature gradually is another method 26 INSTALLATION AND ASSEMBLY 10 Visual field angles visible range Uniform images can be obtained by installing the system in any of the ranges shown below Vertical field angle 2 stage configuration 7m 6m 5m 4m 3m 2m m Fig 3 1 2 3 stage configuration m 7m 6m 5m 4m 3m 2m Fig 3 1 3 27 INSTALLATION AND ASSEMBLY 2 stage configuration using stands RMA V5020 7m 5m 4m 3m 2m 1m Fig 3 1 4 3 stage configuration using stands RMA V5020 10m Om 8m 7m 6m 5m 4m 3m 2m 1m Fig 3 1
140. happen 4 Fix connect When several stands are used level the top Correct the surface gap and Stands to each surface of Stands with bolts and fix them fix again other with Be sure not to move Stands in fixing bolts Fix Stands on the floor with Anchor bolts Be sure not to move Stands in fixing Weld or bolt such as L shaped plates on Stands if there is no area to hold the weight of screen frame Confirm that there is at least 15mm area from the front of stands to front of projection flame to hold Screen frame Make sure when using Stands that are not Pioneer products Confirm the top and front surface of Projection frames to be flat Place the lowest Projection frames on Stands Screen frames will slide down by their own weight and frame will deform This may cause come off screens and light leakage Fix left right Projection Do not move Projection frames in fixing with frames amp bolts Stands 7 Stack the rest of Projection Confirm the top and front surface of Projection frames low by frames to be flat low and fix them 8 Place amp fix Projection units Check the Measure level of front rear and Check and adjust the level of Whole System is deformed as horizontal and left right of the bottom of the lowest Projection Stands after loosening time passes and that may cause vertical level fram
141. hat fittings H and V are firmly attached using screws 12 places in total Use the protection screws provided with the unit 2 The protection tapes are pasted to the four corners of the protection panels RM V2550S only Paste the protection tape on the protection panel Use a relatively weak tape about 20 mm to 30 mm in width Recommended Tape Name Acetate cloth adhesive tape 25 mm width When transporting or storing the units in the packaged state always face them up The number of units that can be stacked in storage is 20 Asthe screen is at the top be careful not to step and place heavy objects on this top side nor hit it with sharp objects Notes RM V2550S2 Be sure to set the screen unit right side up Of the sides on which the screw heads are exposed the sides with the shipping screws the longer side is the top Check that the shipping screws protective panel and black tape have been removed before mounting the screen unit on the system When installing the system do not remove the protective panel located on the outermost edge When stacking screen units use gloves and perform operations with at least two people to prevent acci dents To prevent damage to the lenticular sheet be as careful as possible when mounting the screen unit so as not to subject it to excessive hocks and vibrations When the screen units are stacked the head of the panel fixing screws and 12 mm holes will engage
142. he VS board is Separate sync gt composite sync gt Green on sync However if the sync signal of a certain method is selected once according to the connection and power ON OFF order even if sync signals with a higher priority order than that sync signal are connected later sync selection will not be switched In this case however the priority order will be selected again when the power of the converter is turned on again Frame for Sync Signal The horizontal frame values are saved according to the sync signal currently selected For this reason the horizontal frame may deviate according to the type of sync signal even with the same computer Example When models with both the composite sync and green on sync are connected Frequently with Macintosh Connect cables G R and CS in this order with the power of the input personal computer and con verter gt green on sync is selected After connecting the cable with the power of the input personal computer on turn on the power of the converter gt composite sync will be selected When frame adjustment is carried out in the D state 2 state is set when the power is turned on the next time meaning that the frame deviates It is necessary to set state 2 at all times so that the same sync signal is selected during both adjustments and use 187 MVP MANUAL 15 RMD V3104U RMD V3104A addition
143. he current model number Mhh Sets the hh model number Fhh Sets the hh model number data to the initial value When the hh model data does not exist NO DATA is displayed When hh contains characters other than 0 to 9 a to f and A to DATA ERROR is set Frequency commands HFO Displays the current model determination H frequency HFORES Sets the current model determination H frequency to the initial value and displays it HFOddd ddd Changes and displays the current model determination H frequency Take note of the decimal point VFO Displays the current model determination V frequency VFORES Sets the current model determination V frequency to the initial value and displays it VFOdadd ddd Changes and displays the current model determination V frequency Take note of the decimal point In the case of frequency commands both the integer and decimal of ddd ddd must be decimal 3 digit num bers Numbers between 000 000 to 999 999 can be input When is a character other than 09 when the number of digits is wrong or the decimal point is at the wrong place DATA ERROR is set and the current model determination frequency is displayed Line conversion command LCV Displays the current model line conversion rate LCVRES Sets the current model line conversion rate to the initial value and displays it LCVdddd Changes and displays the current model line conversion rate In the case of line conversio
144. her screens The specific method is at first focus on the brightness make the brightness the same and correct the differences in R G and B Pay the attention that changing the HI LIGHT value affects the balance of the LOW LIGHT considerably Strictly speaking as W B deviation cannot be checked using moving images and W B cannot be corrected just by performing fine adjustments check using rough adjustments If the DEMONSTRATION II LD can be used correct the following points 1 Dark images Almost black image FRAME No 32300 to 33200 Check that the brightness of the screens appears the same Check that black is not blur or emphasized 2 Bright images Almost white image FRAME NO 7400 to 8100 Focus on where the brightness is the same especially the white peak and check in the same way as for dark images in 1 3 Skin color images FRAME NO 26900 Check if the skin color of a face image is the same as in the other screens 4 Colored images FRAME NO 19100 Use when performing adjustments during VIDEO input or Y C input Adjust so that the colors of vegetables fruits etc are of the same brightness and same depth If consistency cannot be adjusted with animated images re input the rough adjustment data and re adjust View the moving images If a screen is darker than the others due to excessive ABL increase the contrast and decrease the R G B High Light so that ABL is suppressed 5 White peak images FRAME
145. hes are as shown in the following table At shipment the mode switch value is set to 8 The settings shown below use the RMD V3104U as an example Mode switch No Bus format Output format Sync signal frequency Dropout reduction function 0 VBS Y C 1 NTSC e Standard speed OFF 2 Double speed 3 Reserved 4 Standard speed PAL RGB OFF 5 Double speed 6 Reserved 7 8 VBS Y C 9 NTSC Sem Standard speed ON A Double speed B Reserved C PAL RGB Standard speed ON D Double speed E Reserved F Bus format NTSC digital signal transmission method Bus format p PAL PAL digital signal transmission method Output format VBS VIDEO signal Can be switched between Y C and RGB However VBS and Y C can only be used for the standard speeds Sync signal frequency Standard speed Horizontal 15 734 kHz vertical 59 94 Hz interlace NTSC Horizontal 15 625 kHz vertical 50 00 Hz interlace PAL Double Horizontal 31 469 kHz vertical 59 94 Hz non interlace NTSC Horizontal 31 250 kHz vertical 50 00 Hz non interlace PAL Dropout reduction function Function for alleviating dropout due to the scanning line structure particular to NOTE multi vision systems With the RMD V2550BU only standard speed input is possible Double speed signals can not be displayed 157 MVP MANUAL 6 ADJUSTMENT FUNCTIONS MVP enables
146. ideration 3 Connection Each multi projection unit has an AC OUTLET connector which can accept the connection of up to 2 multi projection units in addition to the first multi projection unit Do not connect other equipment than multi projection units to the AC OUTLET Multi projection Multi projection Multi projection Multi projection unit unit unit unit To power outlet Connect the system components so that their current consumption does not exceed the current capacity of the power distribution panel Always reserve a headroom when designing the system Multi projection unit Multi projection unit Multi projection unit To power outlet Multi projection unit Multi projection unit Multi projection unit To power outlet To power outlet Multi projection unit Multi projection unit Multi projection unit 31 INSTALLATION AND ASSEMBLY 2 3 pin plug The power cord of the system has a 3 pin plug This design aims at preventing electric shock due to leaked current Be always sure to connect the power plug into a 3 pole power outlet 5 Ground fault circuit interrupter The system incorporates a power line filter for noise prevention and leaked current of 0 5 mA flows per multi projection unit If your power supply system uses a ground fault circuit interrupter check its sensitive current and make sure that it is above the total current leakage of the system
147. ignal aca e ete ee BNC connector for RMD V3104U eene NTSC for RMD V3104A eene NTSC PAL One set of RGB inputs can be added by adding an optional variable scan board Composite video signal 1 0 V p p 75 ohm terminated Isolated Y C signal Y with synchronization 1 0 V p p 75 ohm S 0 286 V p p 75 ohm Signal format D or 2 selectable 9 Optional RGB input signal RGB signal 0 7 V p p 75 ohm TTL level C SYNC 0 3 to 4 V p p negative logic Green G on Sync 1 0 V p p 75 ohm SYNC section eene 0 3 V p p SYNC order of priority H V C SYNC Green G on Sync RS 232C control input 25 pin D sub Output signal Output video signal Composite video signal 1 0 V p p 75 ohm Q Isolated Y C signal Y with synchronization 1 0 V p p 75 ohm Ie 0 286 V p p 75 ohm Simultaneous output of D and RGB signal Green Sync on Green 1 0 V p p SYNC section 0 3 V p p xt 0 7 V p p emite 0 7 V p p PAL output is available for only signal Others Power supply for RMD V3104U AC 100V 50 60 Hz for RMD V3104A AC 220 240V 50 60 Hz Maximum Power consumption 100
148. iling Not possible 13mm Fig 3 4 53 76 CHAPTER 4 ADJUSTMENTS 1 ADJUSTMENT PREPARATIONS 1 Wiring For the power supply For the power supply up to three units can be connected in a series using the multi projection units AC outlets Use different external power outlets for each set of three units The multi projection unit s AC plug is a 3 pin plug with a ground pin When connecting the power supply be sure to connect the ground pin to the ground in order to prevent electric shocks Connection of signal cables Use coaxial cables In general use 3C 2V cables for lengths of up to 15 meters 5C 2V cables for lengths of up to 30 meters Keep the distance between the signal transmitter and multi projection unit to a minimum Connection of ABL linking cables Control signals RS 232C and remote control signals can be sent to all units by connecting the ABL linking cables in cascade form When connecting via the MVP Computer free Multi video Multi projection Multi projection Multi projection PC9800 etc processor unit unit unit OUT IN OUT IN OUT IN OUT or Linking cable Linking cable Linking cable Remote control unit Only the cables included with the MPJ are provided as linking cables for connecting the MVP and MPJ When extending the connection distance keep to within 20 meters When not connecting the MVP
149. in the same plane Fig 3 4 39 2 Mount the group consisting of the 3 vertically connected screens and on the left hand cabinet as for RM V2550S see P50 3 Alignment Align the left edge of the group of 3 vertically connected screens with the left edge of the cabinet Fig 3 4 40 Cabinet Align so as to form a straight line Screens Fig 3 4 40 66 INSTALLATION AND ASSEMBLY Notes When carrying the group of 3 vertically connected screens make sure that 2 people hold the screen with one person holding each edge as in Fig 3 4 41 and that a third person supports the top Before mounting the screens on the cabinet check that there is no dirt on the screens If there is dirt on the screens wipe them clean with a soft cloth In particular you will not be able to clean the Fresnel surface after mounting on the cabinet For small pieces of dirt on the joints do not use a dry cloth but rather wipe clean with a cloth that you have moistened with water and then wrung out well 3 Vertically connect screens and 8 Fig 3 4 42 You should connect in the order 4 85 0 Fix in a total of 4 places left and right Screws Cross recessed small screws nominal diameter 4 length 25 included as accessories Alignment Left right alignment Align so that the joints on the left sides of screens and form a straight line Fig 3 4 42 Forward backward alignment Align so that the
150. interlaced Basic functions With the VS board standard PC signal information is preset in the memory When the PC signal is inputto the MVP the images are automatically output in the best state through this board after the model has been discriminated For details of the preset models refer to the M commands of the VS board described later Although non preset models must also be adjusted using general data images can be output temporarily and these models are compatible with recent PCs accelerator boards with various resolutions Refer to Mode 99 described later Automatic detection cannot be performed but a user presetable area for 31 models is provided This enables the data of unknown models to be registered and used in the same way as preset model data Precautions in use In some cases problems may occur when communication is carried out with the MVP at 2400 bps in the adjustment of the VS board etc VS board adjustment mode In the communication state with the MVP the VS board adjustment mode can be set by inputting A 172 MVP MANUAL 2 VS board command rules 0 Symbols aaa Command consisting of 3 alphabet letters ddd Basic commands Decimals between 0 to 255 consisting of 1 to digits Can start with 0 Exceptional commands Depends on each command xxx Special data to UP9 DWO to DW9 DWF RES hh 2 character hexadecimals between 00 and FF 1 Basic commands Executed comm
151. ion board is installed Whenthe RMD V3020 variable scan board is used their functions operate as shown below COP Input terminal for the G signal of RGB separate signals Input terminal for the B signal of RGB separate signals Input terminal for the R signal of RGB separate signals Input terminal for the sync or C SYNC signal oeste dre V sync input terminal Asthe NEC PC 9800 IBM PC and DOS V VGA computers use H V separate sync signals their syncsignals should be connected to both the H CS and V connectors H and CS use a common connector Macintosh computers use the CS sync signal which should be connected to the H CS connector 2 V IN video input connectors These connectors receive video data V IN signal images Apply V IN Video input signals to these connectors VBS Y Inputterminalforthe composite video signal or the Y signal of Y C separate signals Input terminal for the C signal of separate signals 18 13 AC INLET Connects the power cord to the unit FUSE Use only a fuse with the specified capacity Unplug the power cord before replacing the fuse 45 8 V OUT connectors 1 to 4 These video output connectors output enlarged video image signals for the 4 screens VBS G Outputterminal ofthe composite video signal or the G signal of RGB separate signals Also outputs the G On Sync signal while it o
152. ion mode before executing the MVP commands After starting up CCT98 EO nude Enter the parameter setting mode Set the following items as follows Communication speed 2400 4800 9600 19200 Character length 7 bits 8 bits Selectable Stop bit 1bit 2 bits Parity bit None ODD EVEN n Character code NEC Transmission carriage return code CR Fixed Reception carriage return code CR 73 SI SO control None X control None T an e OAE MVP setting at shipment Problems may occur in signal transfer at 2400 bps when adjusting the optional variable scan board Refer to the CCT98 manual for how to use the CCT98 154 MVP MANUAL 4 OPERATING MODES 1 Normal mode 2 Operation mode This mode is set when the power and reset switches are pressed This makes the panel switch effective and sets the performance mode according to the switch settings Mode which enables MVP from the external computer This mode is set when the command is transmitted after connecting the computer The normal mode can be set according to the command used Power ON gt Normal mode Operation mode lt 3 Manual mode 4 Remote mode 28 OPTION input 4 screen enlarged 99 V IN input 4 screen enlarged Mode in which the panel switches are effective Both the 1 and 2 modes are set to this mode normally Mode in which the panel switch functions can be contro
153. ion to RGB Setting by remote control unit or computer VIDEO MUTE ON Picture is muted for about 0 4 to 0 5 seconds only each time the input function VIDEO Y C and RGB is switched VIDEO MUTE OFF Picture is not muted even when the input function is switched Setting when switching between NTSC and PAL signal by computer The picture may be disturbed momentarily due to the time required to switch the TV system If the picture is heavily disturbed mute it using the procedure described below Example Muting the picture when switching from NTSC to PAL Initial value TV SYSTEM AUTO For details refer to Chapter 4 2 TV system page 69 NTSC signal input CONV MEMO 1 PAL signal input CONV MEMO 2 Convergence Already adjusted Input signal NTSC gt PAL gt Operation Command lt AOF gt sent by ID computer 1 second 1 4 1sec gt i lt AON gt sent by ID 1 1 START Input signal gt Time switched Input function Fixed However when switched to PAL signal lt AON gt sent after over 1 second has passed 145 OPERATION AND MAINTENANCE 3 SERVICING SYSTEM The following describes the servicing system for this system 1 Repairs will be provided free of charge for a period of one year for natural problems 2 For systems sold or installed directly by Pioneer the Pioneer service outlet will provide primary repairs Requests for service will be accepted by telephone call between
154. is adjusted by deflection adjustment Point Decreasing the adjustment value of the convergence enlarges the image size and increases the load current of the amplifier 2 Changing the image size causes mis adjustment of the convergence It also changes the blanking period When size is changed adjust blanking H BLK L H BLK R before the convergence adjustment 3 It is important to set the left amp right top amp bottom displayed image size to be equal The image size of each screen corresponds to the size of the magnified image on multi screen Description 4 gt Adjustment order of the point convergence 1 Adjust R B colors to be converged to green at the center point 2 Adjust R B horizontal center line and vertical center line to be converged to green center lines 3 Find the point where colors are widely deviated and correct them Moving widely at a point will influence convergence of other points Refer to TECHNICAL MANUAL 4 Correct from the outside points to the inside points 5 After correcting convergence of inside points check the outside points again 4 rs 2 4 White balance adjustment 1 White balance adjustment Green low light and high light adjustments are adopted as function of W B from RM V4000V When adjusting W B adjust with the low light and the high light of each color and do not use contrast and brightness If contrast and brightness differs a lot between each projection unit
155. it These procedures must be performed by only one person 2 Unpacking D 1 2 1 2 34 Packaging specifications Screen D RM V2550S 1149 W x 174 H x 903 D mm 17 5 kg 2 RM V2550S2 1149 W x 174 H x 903 D mm 12 kg Cabinet 1130 W x 1309 x 825 D mm 88 kg Unpacking tips Begin with unpacking the largest carton place smaller cartons in the vacant carton of the larger items and dispose of the packing material while unpacking the cartons After unpacking arrange the items in order of assembly to facilitate the later assembly operation Move the vacant cartons to another place so that they do not come in the way of assembly and reserve as wide a space as possible for the assembly By placing opened cartons upside down they can easily be distinguished from non opened cartons Manage the accessories warranty cards etc so as not to lose them The cabinet is designed with a structure that is easy to tumble down It should be unpacked in as close as possible location to the system installation position The under carton can be used to prevent the cabinet from tumbling down because will not tumble down in that location After unpacking the cabinet from the under carton immediately place the cabinet on the stand when a stand is used and fix using bolts INSTALLATION AND ASSEMBLY 3 RM V2550BU s cabinet and RM V2550E unpacking procedure Fig 3 2 1 1 Remove the upper carton and place it
156. item table 1 see next page table 2 see next page 135 ADJUSTMENTS 136 White balance adjustment setting table 1 PS ea 7 RHIGH __ 128 8 G HIGH 128 9 BHIGH 128 FCU CE RE B GLOW 128 C BLOW 128 1 CONT 2 128 2 BRIGHT 128 Remote control unit key number Bar graph display position For details see next page White balance adjustment setting table 2 List of numerical values example 3 COLOR IL 4 TINT 5 SHARP N amp 128 6 LINWHT 128 ABL 0 GAIN 128 D LEVEL CP UNI Remote control unit key number RGB input mode Not displayed For PAL input same as above for TINT only a COMBI OFF 1 Not displayed ADJUSTMENTS Adjustment Adjustment Adjustment setting 4UP setting 4UP setting 4UP Set to medium bar Settolarge bar Adjacent bar set to medium bar NOTES The set operates as follows when the above is displayed e key is pressed gt Adjustment mode is canceled after about 180 seconds MAIN MENU or ADJ IN pressed gt Main menu reappears e ADJ OUT pressed gt Adjustment mode is canceled e Any key from 0 to D pressed gt W B adjustment mode corresponding to that key is set e The adjustment settings cannot be changed when the above adjustment settings are displayed Normal Mode
157. itive and The asterisk can be used as follows DC Clears all the ID numbers assigned to the units 0 Sets the adjustment mode only for units with 0 as the second digit 3 IN1 Sets the input function to VIDEO only for units with 3 as the first digit 85 ADJUSTMENTS lt Assigning IDs from the remote control unit gt 1 Use the key to start up all the screens in the adjustment mode 2 The main menu is displayed Press the 1 key to select 1 ID SET CLEAR SELECT 3 Check that the ID indicator at the top left of the screen reads then press the key to select 1 ID SET If ID numbers are already assigned press 0 key to select 0 ID CLEAR from the main menu 0 ID CLEAR OK PUSH 5 KEY When this is done the ID clear verification display appears as shown in the diagram Now press the 5 key to return to 1 Enter adjustment mode then assign the ID number 4 The ID input standby mode is set Use keys to 9 and C A to _F_ to input the ID numbers b To adjust multiple screen multi projection units return to 1 Enter adjustment mode then assign the ID number for the next multi projection unit NOTE To return to the main menu display after assigning the IDs for all the screens operate the key 86 ADJUSTMENTS lt Selecting ID numbers from the remote control unit gt Use this function to select the screen to be adjusted f
158. ity Even Odd 3 Character bits 8 bits 7 bits 4 Stop bits 2 bits 1 bit Baud rate setting See table below 7 Note Reserved 8 Note Reserved Note SW7 should always be set to OFF SWS should always be set to ON Baud rates available with SW 5 and 6 SW5 SW6 Baud rate bps ON ON 19200 OFF ON 9600 ON OFF 4800 OFF OFF 2400 GENERAL SPECIFICATIONS MODE switch Selects the video output mode MODE switch details SW Output Mode Details No Frequency Output Standard Middle cut mode mode Double scan recovery mode 0 NTSC VBS Y C Standard OFF 1 RGB 2 Double scan 4 PAL RGB Standard OFF 5 Double scan 8 NTSC VBS Y C Standard ON 9 RGB A Double scan C PAL RGB Standard ON D Double scan The factory preset is 8 for RMD V3104U e Frequency mode Vertical refresh rate 59 94Hz PAL ostii Vertical refresh rate 50 00Hz Output mode VBS Video signal Y C or RGB is able to selected Yet VBS Y C output are useful is only NTSC Standard mode e Standard Double scan Standard Interlace sess Horizontal frequency 15 625kHz PAL Horizontal frequency 15 734 kHz NTSC Double scan Non interlace Horizontal frequency 31 250 kHz PAL IE Horizontal frequency 31 468 kHz NTSC Output mode It is the functi
159. jection unit B works at poinf2 which is brighter than projection unit A With ABL GAIN adjustment FBT current is increased virtually by micro computer control in order to change the operating point of ABL In the actual adjustment ABL GAIN value maximum default of B is reduced so that the ABL current is increased virtually to B as shown in the following chart This will equalize the ABL operating point and the luminance at the point of projection unit A and B However ABL GAIN can only adjust a bright projection unit to a dark projection unit The adjustment is utilized when the brightness of the screen is widely different between the projection units such as the old one and the new one Current 1 4 mA luminance 4r Procedure and notes on ordinary installation permanent installation units This procedure is based on the system composed by RM V2400 series or RM V4000V series RMF V4011 series and RMS V4011 series For RM V2550 all precautions are mentioned on TECHNICAL MANUAL Please read carefully for details of RM V2550 This explains clearly the installation procedure and notes that are not described in TECHNICAL MANUAL to prevent come off screens and light leakage Read carefully the TECHNICAL MANUAL for the basic installation procedure Follow this Points to follow basically although installation procedure may differ depending on the installation circumstances Confirm installation location Install
160. larged images and a strong sense of picture unifor mity Though the peripheral brightness is sufficient for multi screen images a multi function is also included for activating a peripheral light compensation circuit and achieving enlarged pictures with even more uniform brightness There is also a function for achieving the optimum contour compensation level with enlarged images thereby providing natural high quality enlarged pictures An auto white balance function and ABL Auto Brightness Limiter linking function suppress differences in colors and brightness on the different screens Convergence memory function Up to three sets of adjustment data in addition to the standard factory default settings can be stored in the memory FEATURES Color mode selection function for convenient camera reshooting The MPJ is equipped with a color mode selection function allowing the selection of two white balance data settings When used for example in a broadcast station s studio for reshooting the colors will be unnatural if a camera suited to the brightness in the studio is used but if one color temperature is set to 4500 K natural colors can be reproduced at the touch of a button On screen display function Adjustment values and various settings can be displayed on the screen External control function The MPJ is equipped with an RS 232C external control terminal This makes it possible to use a computer to perform the
161. least 10 m For connecting video Adjusting LD For generating Monoscope Test disc Use for adjusting screen size and signals for ad Crosshatch GGT 1072 center 79 ADJUSTMENTS 2 BEFORE ADJUSTMENTS 1 Convergence adjustment memory The MPJ incorporates four convergence adjustment memories These can broadly be divided into the adjust able memory Memories 1 to 3 and dedicated memory for reading adjustment values set at shipment FAC TORY Memory Area Input Signal 1 2 3 FACTORY NTSC PAL O O Enable to select Disable to select Only possible to read out to the memory area enable to select The following adjustment data are input to each memory area at shipment MEMO 1 For NTSC signals MEMO 2 For PAL signals MEMO 3 For NTSC signals Same data as MEMO 1 for RM V2550BU For PAL signals Same data as MEMO 2 for RM V2550E FACTORY For NTSC signals Same data as MEMO 1 for RM V2550BU For PAL signals Same data as MEMO 2 for RM V2550E For some input signals NTSC and PAL are selected automatically When a NTSC signal is input MEMO 1 When a PAL signal is input MEMO 2 Copying the convergence memory The convergence memory can be copied by the remote control unit or PC See figure below MEMO2 FACTORY When data is copied the memory into which the data is copied will lose its original data For example when data is c
162. lled from the computer in the optional mode During this time the panel switch state will be ignored Take note that switch settings and operations will not correspond in this mode This mode can be changed to the manual mode according to the commands For details refer to the RMT and MNL commands 155 MVP MANUAL 5 Adjustment Mode NTSC Input Board Adjustment Mode Mode in which the adjustment commands of the NTSC input board can be executed Adjustment items of the output board can be executed when desired To end the adjustment mode input AJN Operation mode AJYC Enables the NTSC input board to be adjusted AJN Adjustment mode end Power ON V Normal mode v h AJYC Operation mode NTSC input board adjustment mode AJN e Variable scan board adjustment mode This is the mode for enabling communications with the optional variable scan board In this mode only the variable scan board adjustment commands are accepted The switches on the front panel will also not function Note that the image output will be disturbed in particular when the Mode switch is oper ated Set the switch properly after the communications mode is exited In the operation mode SA Mode for communications adjustment with the variable scan board set Variable scan board adjustment mode exited 156 MVP MANUAL 5 MVP VIDEO OUTPUT MODES The video output formats set by the mode switc
163. locked only using the M command The data range which can be preset by the user is 28 to 58 28 to 58 contains the VGA data same as 01 at shipment Refer to Mode 99 mentioned later for details of model No 99 20 Measurement data display FRO command Input FRO Explanation Displays the horizontal frequency vertical frequency and full line number of the personal com puter connected to the MVP currently Use as reference when inputting the data of models whose details are unknown Example FRO fH 24 kHz fV 56 4 Hz 1V 440 LINE 181 MVP MANUAL 21 Model table reference TBL command Input TBLhihz Explanation hh model data No Refer to the M command for the model data No Displays the data table of the model data hihz model When hihz is omitted displays the data table of the model connected to the VS board currently Example TBL MODEL NO 09 AUTO Indicated autolocked to PC9800 C140 09 48 30 08 48 01 45 06 40 38 20 FF FF FF FF C150 FF 05 64 32 04 40 00 30 04 00 11 FF FF FF FF FF C160 FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF C170 FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF The address of O is C140 Left number 1 Top number C141 address This address is considered as the hexadecimal address conforming to C140 The relative addresses on the table are as follows Not model data ADDR 0 1 2 3 4 5 6 9 A B C D E F 00 01 02 03 04 05 06 07 08 09 OA OB OC
164. mbers between 000 to 999 can be input for ddd Directly changes the vertical full line number of the model data table used for the VS board currently Refer to Using Methods of VFO VLN described later on the using methods 25 All reset ARS command Input ARS Explanation Sets back the adjustment data etc memorized by the VS board to the shipment values As all the data registered by the user are set back to the initial values use this command care fully 184 MVP MANUAL 11 MODE 99 The VS board contains preset data for autolocking 9 computer main models at shipment However looking at the recent PC market is taken into consideration it is not possible to incorporate preset data in all models due to the diversification of manufacturers models and graphic mode etc For this reason the variable scan board has been forcibly locked to the mode called model data 99 for personal computers without preset data in order to output the personal computer screen to the monitor Consequently it can deal with many of the 24 kHz to 35 kHz personal computers the upper limit for the dot clock is 35 MHz However this model No 99 has several restrictions in order to deal with numerous personal computers When the HFD command to change the sampling clock exceeds 35 MHz the image may become blur Use 99 without moving HFD as much as possible Atthe pointthe personal computer locked to model No 99 dusts may app
165. multi projection system Then change the signal to monoscope for checking each image size Check that the each image size is neither extremely different nor extremely distorted In this step check that the status menu items and litten LEDs at the rear panel of the projection units are the same The image size the convergence and the white balance are adjusted using NTSC signal at the factory The quantity of displayed information is effected by the earth magnetism that varies by installation direction and the mechanical tolerance in assembling Normally a 90 to 95 image size is displayed When the quantity of the left information and the right information of the screen are not the same due to the difference of the phase of a video signal and a synchronization signal the average is regarded as the screen size Reset to the factory standard data when the image size is less than 85 or almost 100 with the standard speed NTSC signal from the beginning If the displayed range does not change after setting factory standard data re check the installation condition and the output source signal to find the cause Do not continue to adjust the projection unit with adjustment function whose image size is widely different or the convergence is extremely deviated before finding the cause The white balance is adjusted with the window signal at factory Compensate the difference among projection units by W B adjustment based on a projection
166. n commands dddd must be a decimal 4 digit number and the first two digits must be 0015 and the last two must be above 00 and below the first two digits If d is a character other than 09 or the number of digits is wrong DATA ERROR is set and the current line number conversion rate is displayed Both 0000 and 0101 are not convertible Line number command VLN Displays the current model determination line number VLNRES Initializes and displays the current model determination line number VLNddd Changes and displays the current model determination line number In the case of the line number command ddd must be a decimal 3 digit number Numbers between 000 and 999 can be input When d is a character other than 09 or when the number of digits is wrong DATA ERROR is set and the current line number is displayed 174 MVP MANUAL 3 Tracking adjustment TRK command Input TRKd dzds Explanation Compensation data 0 to 254 Eliminates lateral vibration of displayed characters shaking and noises TRK adjustment N A vertical line pattern in which the black and white lines change every dot as shown below is the ideal for adjustments 4 Contrast adjustment CNT command Input CNTd d2ds Explanation didzds Compensation data 0 to 254 Use this command to adjust the contrast Use this command to adjust so that the contrast of the images produced by the MVP matches the cont
167. n lamp is located above the system use special care to prevent troubles due to dust temperature humidity and dew condensation In case the system is covered by interior furnishings be sure to take measures to ventilate Floor leveler tends to pool above the top of the system Otherwise troubles may result 3 Front space Finger and hand prints form easily on the face of the screen Therefore make sure viewers cannot touch it directly Leave workspace in front for replacing the screen 4 Rear space The system can be installed up against the wall when the projection units are stacked in two stages When they are stacked in three stages reserve a rear clearance of at least 5 cm 2 inches However remember that a space of at least 50 cm 20 inches is required in the maintenance operation and install the system by taking later maintenance in consideration 5 Stacking stages The projection units can be stacked in up to three stages They cannot be stacked in four stages or more Otherwise troubles may result in relation with the cabinet strength or stagnation of heat Up to 4 columns of RM V2550S2 screens can be placed in a row Maximum number of screens is thus 12 3 x 4 24 INSTALLATION AND ASSEMBLY 6 Installation work to prevent toppling N e Make sure that you carry out the following work after installing the system in order to prevent toppling etc Lower all of the floor levelers until the sys
168. nd the screen frames vertically during work 4 dia x 8 x8 points provided with screen frame Use care in the difference in shape between L and R 4 dia x 8 x4 points Fig 3 4 12 2 Connect the screen frames vertically to form screen frame ass ies Fig 3 4 13 Adjust their positioning before attaching using screws NOTE 1 Besure to stand the screen frames vertically during work See the description under 3 Carrying the units after opening packaging NOTE 2 As the points where screws are attached are dented use a magnetized screwdriver NOTE 3 Front rear positioning Make the rear surfaces flush Left right positioning Adjust so that the side edge where the left and right screen frame ass ies meet is on a same plane Holes to be used x 5 Screen surface Make rear surfaces flush Make side surfaces flush 4 dia x 8 x5 points X 3 RN Si is N Ry 3 Cross sectional view Fig 3 4 13 48 INSTALLATION AND ASSEMBLY 3 First mount one row of screen units linked vertically to the cabinet Fig 3 4 14 NOTE 1 Attach the screen frame ass y perpendicularly to the cabinet NOTE 2 When attaching hook the hooking brackets previously attached to the screen frame ass y with the bolts on the inner sides of the cabinet NOTE 3 This work must always be carried out by more than one person When attaching 3 scr
169. ng and above turn power ON and leave the system for about an hour for aging Prepare the signals required for the adjustments 2 Before adjustments Setup of conditions P 80 Select the remote control adjustments or PC adjustments Check the TV system setups Check the convergence memory and white balance memory for use in the adjustments 3 Check the STATUS Check the MULTI ON OFF COMBINATION ON OFF ABL interlock switch setup one of 3 positions and other status Store the current setups using the last memory function SERE Gnd ET P 83 Assign an ID to each MPJ by observing the caution and notes on page 83 to 87 4 Screen adjustments Adjust th size of each screer xo Lg E eoe op ille Ne eed eee da ted Need ees P 92 Adjust the convergence of each screen treten teet nnne P 96 3 Adjust the connection between screens cesccsscessessesssessesseessessecseessesseesseseeseesssessessaeseeesaeeseseseesueeeseateaeseas P 153 4 Adjust the WB of cie aceti tee n cedri ena d seeds P 110 5 Adjust the ABL level zt teo tee et eee io eed tec ea fee ade bees P 114 6 Adjust the colors using the image to be transmitted esses enenatis P 115 Perform overall check by observing the entire image ssssssssssesseeneeneenee nennen nennen P 115 149 PRE
170. ns with reference to their left side edges Make side surfaces flush Make side Make side surfaces flush surfaces flush E Left screens Central screens Right screens Fig 3 4 24 58 INSTALLATION AND ASSEMBLY 3 Attach the central 3 screen frame ass y to the center cabinet Fig 3 4 25 4 Attach the other screen frame ass ies to the other cabinets in the same way as above Order of attaching 3 1 2 Fig 3 4 25 5 Adjust the positioning Fig 3 4 16 NOTE 1 With the vertical joints remove any clearance between horizontally adjacent screens Note however that there may be gaps of up to 2 mm due to differences in the sizes of parts NOTE 2 With the horizontal joints make the formed lines straight If the horizontal joint is not straight after step 4 adjust the left and right heights by attaching a height adjustment screw M6x10 provided with each screen frame to a screen frame support bracket and turning it with a screwdriver 6 Fix the screen frames of the lower stage Screws 4 dia x 12 x 6 provided with each screen frame 7 Fix the screen frames of the upper stage Transport panel V x2 Screws 4 dia x 8 x 4 provided with each screen frame 59 INSTALLATION AND ASSEMBLY 3 1mm screw screen RM V2550S2 assembly Note Left and right in the text refer to the
171. ntrol voltage s control quantity can be switched Linked input terminal DIN 6 pin ABL remote control signal and RS 232C signal input terminal Linked output terminal DIN 6 pin ABL remote control signal and RS 232C signal output terminal Remote control connector Mini jack Jack for connecting adjustment remote control unit sold separately RS 232C port D sub 25 pin RS 232C communications connector female Control input terminal BNC connector Video input and Y C input external switching control signal input terminal Y brightness BNC connector Brightness signal input terminal input terminal C color input terminal BNC connector Color signal input terminal 9 Video input terminal BNC connector Video signal input terminal Video output terminal BNC connector Video input terminal through out terminal Terminating switch Slide switch Turn on to terminate video input terminal at 75 ohm 12 Input selector switch Tact switch Video input Y C input RGB input selector switch At the VIDEO position switching between the video input and Y C input is possible with the external control signal 13 POWER switch Tact switch When power off STANDBY red LED lights When power on ON green LED lights STATUS indicator switch Tact switch Switch for displaying the total power on time switch RGB input terminal D sub 9 pin male settings etc on the screen RGB signal input terminal eo
172. of the ID WaitTime numbers 00 0 0x40 Omsec 01 gt 1 1x40 40msec 3E 62 62x40 2480msec 3F 63 63 40 2520msec 40 gt 64 0x40 Omsec 7F gt 127 63x40 2520msec 80 gt 128 0 40 Omsec aor T Wait Time is the same for groups II to IV as for group BF 191 63x40 2520msec CO 192 0x40 Omsec IV FF gt 255 63x40 2520msec J Omsec Not set 83 ADJUSTMENTS lt NOTES gt Th As can be seen from the above unless within one system ID numbers from the same group are assigned the wait times may overlap defeating the purpose of this function Be sure to assign ID numbers from within the same group However if the ID numbers are set carefully within a certain range in such a way that the wait times do not overlap this function can be used without problems even when ID numbers from different groups are as signed For example if ID numbers between 10 and 4F are assigned to units within the system the wait times will not overlap In addition to the wait time function some time is required for the routine when the power is turned on normally approx 1 msec so the time until the power actually turns on is Wait time Approx 1 sec Direct computer commands for switching the function for turning the power on at different times using the ID numbers on and off This function can be enabled and disabled with the following direct commands in the AJY mode from th
173. ojected positions of the CRT beams are moved by the STATIC adjustment then the R G and B convergence are deviated Moreover load to the convergence amplifier increases because the CRT beams are moved by adding DC offset voltage to the amplifier STATIC 128 DC voltage 0 minimum Especially be sure to not move the center position more than 10 mm with STATIC adjusted because the margin of the convergence amplifier is small STATIC adjustment value should be within 100 150 3 When CRT is replaced reset STATIC PHASE data to value 128 and begin adjusting center position with the centering magnet of the deflection yoke before adjusting the center by the STATIC or PHASE adjustment 4 If many screens in a video wall system shows same tendencies in shifting of center position for example if images at many screens are shifted left for little it is possible to adjust center position of others to the shifted ones and align the convergence with center shifted After the adjustment of projection unit center of the image can be adjusted by phase alignment function of MULTI VIDEO PROCESSOR Phase alignment by MVP causes no change to convergence of projection unit Note V PHASE is not able to be adjusted with Multi function On in some versions of RM V4000V due to the different version of the software In this case adjust the center by the phase adjustment of the multi video processor before adjustments of projection unit When the
174. ojection Unit RM V2550BU RM V2550E TV format NTSC PAL automatic switching fixed mode available Projection tubes essseeeessess 7 CRT x3 Horizontal resolution 800 TV lines with video input Brightness at white peak 420 ft L 50 Practical angle of vision 150 horizontal 60 vertical Input signal Video input TES Standard input level 75 ohm load 1 Vp p Input terminal BNC connector x 1 Y C isolated inputs Standard input level 75 ohm load Brightness Y signal 1 Vp p Color C signal 286 mVp p burst signal NTSC 300 mVp p burst signal PAL Input terminals BNC connectors one each for Y and C RGB input Analog R G B signals NTSC PAL R G B RGB 1 D Sub 9 pin terminal x 1 2 RGB 2 BNC connector x 5 2 R Red input 0 7 Vp p x2 dB 75 ohm terminal positive polarity G G on SYNC Green input 0 7 Vp p 2 dB 75 ohm terminal positive polarity Green input with synchronization 1 0 Vp p 2 dB 75 ohm terminal positive polarity B Blue input 0 7 Vp p 2 dB 75 ohm terminal positive polarity HD SYNC Horizontal synchronization input 0 3 to 4 Vp p 75 ohm terminal negative polarity Composite synchronization input 0 3 to 4 Vp p 75 ohm terminal negative polarity VD Vertical synchronization input 0 3 to 4 Vp p 75 ohm terminal negative polarity Synchronizing signal frequency Standard NTSC or PAL frequency
175. olled the most Luminance inconsistency on multi screen Much lt gt Small Luminance of whole multi screen High 4 Low Recommended Usage of Modes ABL1 ABL2 ABL3 When importance is placed on 4 When importance is placed on luminance level of whole multi consistency of luminance of screen rather than consistency multi screen rather than lumi of luminance of multi screen nance level of whole multi screen Outdoor large amount of multi No gap small amount of multi screens etc screens etc At shipment the ABL switch will be set to ABL3 111 ADJUSTMENTS 3 Adjustment flow 1 Perform the adjustment using the full white variable by 96 signal generator 2 Perform the COLOR TINT and SHARPNESS adjustments 3 Note down or memorize in the PC memory the data after the rough adjustment 4 Check the joining of the screens using the animated images 5 If the screens are not joined properly adjust Check with animated images 6 If not joined properly return to the data in 2 and perform the adjustment again Initial settings CONTRAST 128 BRIGHTNESS 128 ABL GAIN MAX 255 ABL LEVEL 128 LINEAR WHITE 255 R G B HIGH LIGHT R G B LOW LIGHT SHARPNESS Data at shipment TINT COLOR Must be set only for VIDEO and Y C input TINT adjustment cannot be performed for PAL inputs CONTRAST ABL LEVEL ABL GAIN adjustment values considerably af
176. ommand name Note 1 Example TVA Indicates TV SYSTEM AUTO Indicates the input discriminating result of TV SYSTEM AUTO Note 2 Example NTS Input discriminating result indicates NTSC Deflection and convergence data memory area state 3 BYTE Note 1 US1 Indicates that CONV MEMO 1 is selected US2 Indicates that CONV MEMO 2 is selected US3 Indicates that CONV MEMO 3 is selected OSD display enable disable setting state 3 BYTE Output in command name Example DIY Indicates OSD display enabled Setting of function for turning the power on at different times using the ID numbers on or off 3 bytes DPY Indicates that the function for turning the power on at different times using the ID num bers is on DPN Indicates that the function for turning the power on at different times using the ID num bers is off 2 ETX 03H o 0 OG When INPUT VIDEO or Y C the VIDEO or Y C input setting is output When INPUT RGB the RGB input setting is output If it does not TV SYSTEM AUTO mode will output the same state of 2 TV SYSTEM 127 ADJUSTMENTS 4 PRECAUTIONS 1 2 3 4 5 128 The adjusted data is backed up by the AJN command After adjustments always perform AJN AJN will also exit the screen adjustment display Contents of the INPUT FUNCTION MULTI ON OFF COMBINATION ON OFF COLOR MODE 1 2 TV SYS TEM CONV MEMORY are memorized only when the power is turned OFF using the remote control POF
177. on that mitigates the trunk piece phenomenon by multiple visions unique scanning line structure There is a difference in an effect by the magnification ratio and it is more effective as smaller of the magnification ratio Yet it does not work in vertical magnification ratio X 1 CAUTION The Frequency mode for each input board is as follows Variable scan board NTSC PAL PAL NTSC input board NTSC NTSC source PAL PAL source In the case that a MODE NO other than the above is set up a proper picture is not output 17 GENERAL SPECIFICATIONS CAUTION MVP has each separete position data in PAL and NTSC When a mode is changed between PAL and NTSC a video image position is initialized to data that was preserved with each mode before Do so that you preserve adjustable data with amp W1 L without fail in the case that a mode is changed after video image position adjustment Refer to amp W command 9 Reset button Press this button to reset the system After the button is pressed the system enters the manual mode In manual mode this unit can be controlled using the rear panel switches without using a computer When the reset button is pressed this unit functions in the modes selected by the rear panel switches COMB cable connector Connects the interlock cable cord with 6P mini DIN plugs provided with the display 17 OPTION video input connectors These input connectors are used when an opt
178. ontrol unit RU V107 besides the computer and soft ware All adjustments are performed only using the remote control unit CD Remote control unit functions o PIONEER M POWER ADJUSTMENT CONTROL UNIT ne peA ere Jes DISP CALL ADJ OUT 129 ADJUSTMENTS 1 Cre Turns on off the power of the unit 2 0 Adjustment Mode Selects ID CLEAR in the ID SET CLEAR SELECT MODE Also selects 0 for ID SET and ID SELECT Selects V STATIC in the DEFLECTION ADJUST MODE Selects ABL GAIN in the WHITE BALANCE ADJUST MODE Cyclically selects the adjustment items in the POINT CONVER ADJUST MODE in the following order m POINT adjustment File area Line area Ss 3 4 or Starts up the adjustment mode when the two buttons are pressed simultaneously 5 Adjustment Mode Selects 1 ID SET SELECT CLEAR MODE of the main menu of the adjustment mode Sets ID SET in the ID SET CLEAR SELECT MODE Also selects 1 for ID SET and ID SELECT Selects STATIC in the CONVERGENCE ADJUST MODE Selects CONTRAST in the WHITE BALANCE ADJUST MODE Returns the CONVERGENCE ADJUST DATA to the factory set data in the MEMORY READ COPY MODE Select the pattern 1 2 for copying the convergence data between memories in the MEMORY READ COPY MODE 6 Adjustment Mode Selects 2 OPERATION MODE of the main menu of the adjustment mode Sets ID SELECT in the ID SET CLEAR SELECT MODE Also selects 2 for ID SET
179. opied from MEMO 1 to MEMO 2 MEMO 2 will becomes the memory for the NTSC signal and lose the PAL signal When the data has been copied into the selected convergence memory area this can be known by the display COPY END on the screen In that case the data of the convergence has been changed into new data If the data is not same the convergence will change as well Example When MEMO 1 is selected 1 Copy to other memories Completed when COPY END is displayed on the screen 1 lt Copy to other memories Completed when COPY END is displayed on the screen and at the same time convergence deviates Condition MEMO 1 data MEMO 2 data 80 ADJUSTMENTS 2 TV system The TV system determines the control of the whole unit convergence OSD display select video system select deflection according to the signal input Set it according to the signal input When TV SYSTEM is set to AUTO The mode is automatically set to NTSC or PAL according to the input signal NTSC PAL When the TV SYSTEM is set to NTSC The mode is set to NTSC regardless of the input signal When the TV SYSTEM is set to PAL The mode is set to PAL regardless of the input signal Precaution to use Normally the TV SYSTEM is set to AUTO If the signals cannot be differentiated between NTSC and PAL or they are differentiated incorrectly VCR signal repeatedly dubbed or part of CATV converter etc the TV SYSTEM is set to N
180. or use the following caution in installation 1 If the floor is flat the cabinets cannot be joined well and may be deformed after joining To prevent this be sure to install the cabinets on a flat level floor See Chapter 3 1 1 2 The installation method is the same as for when stands are used 3 Be sure to take measures against tumbling down of the system See Chapter 3 1 6 4 Take the maintenance space that is required on the rear in consideration during installation 72 INSTALLATION AND ASSEMBLY 4 Fixation using anchors Use care in the following points when fixing the stands RMA V5020 onto the floor using anchors Please make sure that you read the section Installation work to prevent toppling on P25 D Number of anchors With a 9 screen system having 3 stages of screens on each stand Fix each anchor using at least 2 anchors on each of the front and rear With a 4 screen system having 2 stages of screens on each stand Fix each anchor using at least an anchor on each of the front and rear 2 Anchor fixing positions amp method The anchors can be fixed in the following two ways a Fixing using continuous thread studs Fig 3 4 49 Continuous Continuous thread stud thread stud Nut Nut Nut Nut ijl iy b 77 i 77 2 Fig 3 4 50 73 INSTALLATION AND ASSEMBLY b Fixing using L shaped brackets L shaped bracket L shaped bracket
181. ous page only the first unit can be controlled Control of the second unit is enabled by issuing the 01IDS command Control of units connected subsequently is enabled by assigning ID numbers in the same way 87 ADJUSTMENTS 7 Focus adjustment NOTE Focus VR has already been adjusted when this unit is shipped from the factory Ask our servicemen if the Focus VR needs to be adjusted Adjustment Input Signal Adjusting Point Adjusting Method Focus Cross hatch adjustment Focus control VR1 of lens assembly attached to the replaced CRT as sembly and the focus variable resistor NOTE 1 NOTE 2 Move the lens assembly left and right and optimize the focus Rotate the focus VR and optimize the focus Adjust the lens assembly and focus VR repeatedly Perform the adjustment below again only af ter adjusting the blue focus Turn the blue focus VR counterclockwise and set so that the blue is slightly thick but does not stick out about 10 to 12 mm for cross hatch outermost vertical lines of 40 inches about 13 to 15 mm for 50 inch lines Generally the focus VR should be turned by about 10 degrees The adjustment can be performed without re moving the rear panel by inserting a screw driver into the hole in the rear panel The blue B hole is marked See the diagram below 88 Rear panel Adjustment hole B on left Rear panel ADJUSTMENTS 3 GENERAL EXAMPLES OF MULTI
182. peration resumes 4 Record the adjusted data It is suggested to store the adjusted data in a floppy disc when the system is permanently installed system that needs no frequent data change The data can be read out by GET command using a personal computer adjustment software It may be help to find out cause when a problem occurs lt Description 2 gt Center position adjustment Point 1 Do not use the STATIC adjustment when the models have the function of the PHASE adjustment 2 Do not move the STATIC more than 10 mm even if the models have no function of the PHASE adjustment There are two different functions to move the center position of the image PHASE at the deflection adjustment STATIC at the deflection and convergence adjustment 1 RM V4000V series Adjust the center position using the PHASE of the deflection adjustment Do not use H STATIC V STATIC GH STATIC GV STATIC adjustment Convergence is not effected with phase adjustment since it just changes the timing of video signal to sync signal 2 RM V2400N series Adjust the center position using STATIC adjustment because the models have no function of the PHASE control The horizontal center is adjusted with the GH STATIC at convergence adjustment and the vertical center is adjusted with the V STATIC at deflection adjustment Dynamic convergence must be re adjusted after adjusting center position by STATIC adjustment This is because the pr
183. picture EX LD Test disc GGT1072 FRAME No 5941 Monoscope etc For screen joining linearity color adjustment Use adjustment signals such as cross hatch etc EX LD Test disc GGT1072 FRAME No 7081 etc Note For the particulars about the FRAME No etc of LD Test disc GGT 1072 refer to the disc manual differently Co Center adjustment Center Set to only green and adjust the center with V STATIC GH STATIC V STATIC Note Please to not move the center more than 2 5cm from the initial setting 128 in the upward downward or left and right direc tions If the center needs to be moved more than this this could cause malfunctioning of the multi projection unit or harmful effects from magnetism GH STATIC 92 V SIZE adjustment 4 V SIZE V LIN SIZE Adjustment Set to only green observe the top part of the screenj and adjust the data amount in the vertical direction us ing V SIZE Do not observe the bottom part of the screen SIZE adjustment Set to only green observe the right side of the screen and adjust the data amount in the horizontal direction using H SIZE Do not observe the left side of the screen V SIZE V LINEARITY SIZE GH LINEARITY adjustment Those familiar with the convergence adjustment can adjust the ADJUSTMENTS Observe here
184. ponding to the joints may flicker even during use of joint less screens The ending and starting of scanning at the connecting areas at the top and bottom of screen is out of sync resulting in brightness differences at the connecting areas of the top and bottom of the screen This flickers because the human eye pursues the changes in brightness This symptom is observed with joint less screens and more noticeable when the screens are viewed from a distant place When screens with joints are used the scanning timing error between the two vertically adja cent screens is less noticeable because the eye motion following the scanning is interrupted at the joint On the other hand with joint less screens the scanning timing error is noticeable because the eyes can follow it more easily thanks to the absence of the joint The reason why it is more noticeable at a distance is because the eyes can view the overall view of the screens and follow the overall motion more easily 150 PRECAUTIONS 6 TROUBLESHOOTING Check once again before assuming the set is malfunctioning The problem may be due to inadequate mainte nance erroneous operation etc If the problem persists after the following checks have been made contact a dealer Symptom Equipment Possible Causes Treatment Power cannot be turned on All The power cord is unplugged The power switch is set to OFF Insert the power plug completely into the outlet Press the pow
185. prev MANUAL Maaa MULTI PROJECTION UNIT RM V2550BU RM V2550E RM V2550S RM V2550S2 RIMD V3104U RMD V3104A PROJECTION STAND RMA V5020 A Caution This symbol refers to a hazard or unsafe practice which can result in personal in jury or property damage Notes Pioneer will accept no responsibilities for damages re sulting from problems with parts other than those sup plied by Pioneer Performance shall be guaranteed solely when assembly and adjustment is performed as prescribed in this tech nical manual For improvement purposes the specifications and de sign described in this technical manual are subject to change without notice Pioneer PIONEER The Art of Entertainment PIONEER RM V2550 MANUAL This Acrobat IE a PDF file version of the Pioneer manual was made from the original digital document and has had some updated pages added into it Because of this some of the page numbers may be out of order As Pioneer is constantly working towards providing the best possible documentation for our products there may be an improved version of this document available Please contact your Pioneer representative for additional information Josh Kairoff Pioneer New Media Technology Augest 7 2000 CONTENTS CHAPTER 1 FEATURES aieo secede tect aceasta dean eta eo e eie o toes ete Reet 5 1 FEATURES OF THE MULTI PROJECTION UNIT hereinafter referred to as the MPJ
186. rast of the actual images of the computer Tracking may deviate in some cases when CNT adjustment is performed after TRK adjustment After adjusting CNT adjust TRK 5 R G B gain adjustment RGN GGN BGN commands Input RGNd d ds GGNd d2ds BGNdi dzds Explanation Compensation data 0 to 254 e GGN Green gain adjustment RGN Red gain adjustment BGN Blue gain adjustment Use this command to adjust so that the white balance of the images produced by the MVP matches the white balance of the actual images of the computer Tracking may deviate in some cases when gain adjustment is performed after TRK adjustment After adjusting gain adjust TRK 6 Brightness adjustment BRT command Input BRTd dzds Explanation Compensation data 0 to 254 Use this command to adjust the brightness Use this command to adjust so that the brightness of the images produced by the MVP matches the brightness of the actual images of the computer Tracking may deviate in some cases when brightness adjustment is performed after TRK adjust ment After adjusting brightness adjust TRK 175 MVP MANUAL 7 B R clamp adjustment BLV RLV commands Input BLVdidzds RLVdidzds Explanation didzds Compensation data 0 254 e BLV Adjusts the B clamp level RLV Adjusts the R clamp level Use this command to adjust so that the white balance of the low light side of the images pro duced by the MVP matches that
187. reference erat Ere eraot exeo a de ei nnn 159 1 To shift to the operation mode command sese 159 2 To set different screens for adjusting convergence DFFC command 159 3 To set the system back to 4 screen magnification command 160 2 Adjusting the picture frame sssssssessesssseseeeeeee nennen enne nenne nennen 160 1 To perform fine adjustment of the picture frame amp G command 160 2 To perform coarse adjustments of the picture frame amp P2 amp O2 commands 161 3 To store the picture frame data RW command 162 4 To load the picture frame data amp L command sse 162 3 To switch the image input IFF command eene 163 4 indicate the current MVP state SYS command eese 164 5 To perform NTSC input board picture quality adjustment 165 1 To set the adjustment mode AJYC command sess 165 2 To exit the adjustment mode AJN command esses 165 3 Bright compensation BRT command eene 166 4 Color compensation COL command 166 5 Tint adjustment TNT command
188. rizontal and up direction vertical looking at the screen Right direction horizontal and down direction vertical looking at the screen J Adjustment mode end amp P2d2 J PR Input the current value at J amp P2d2 J x RES J RES is the initial value amp P2d2 J Xx 100 1 Input the value after checking the current value The screen start position is the position of the screen actually displayed in respect to the magni fied image Position displayed on the screen Magnified image This command is used for the coarse adjustment of the picture frame when the adjustment range is exceeded with the amp G command The data shift amount is greater than the amp G command Execute amp WO J to initialize Refer to amp W command For details of the picture frame adjustment procedure refer to Picture Frame Adjustment Procedure To end the adjustment be sure to input J If J is not input commands input thereafter may not be executed If the power is cut in this state the new screen start position data will not be saved To save the data execute amp W1 J Refer to the amp W command 161 MVP MANUAL 3 To store the picture frame data amp W command Input amp WO amp W1 Explanation amp WO Sets the saved values to the settings at shipment Load data using the amp L command amp W1 Saves the value adjusted The parameters saved by the amp W comman
189. rom the remote control ID 01 ID 02 unit Example To select the screen at the lower left in the diagram at the right ID 03 1 Use the key to set all the screens to the adjustment mode 2 Use the key to select 1 ID SET CLEAR SELECT 3 Use the key to select 2 ID SELECT 4 Press the and keys ID 03 5 The main menu display appears on the screen at the lower left only the other screens are in the standby mode only the Power and keys will work Toreturn to the main menu screen after selecting the screen using the ID number operate the key The ID select mode is held It is also possible to return to the main menu screen by operating the sH key In this case however the ID select mode is canceled so start over from step 1 To select another screen use the key to return to the main menu screen then change the ID number in step 4 above NOTE If you specify the wrong ID number Repeat steps 1 to 5 above In addition a non existent ID number can be input for example 33 in the above case but in this case all the screens are set to the standby mode Cautions on assigning ID numbers with the remote control unit or computer If a unit s ID number has been cleared it is no longer possible to communicate with the units connected by ABL linking cables after that unit When the IDC command is issued at the diagram on the previ
190. screws After this realign the vertical joints removing any gaps see P52 5 Screws Cross recessed small screws nominal diameter 6 length 10 included as accessories 8 Attach connectors to the lower edges of the screens in 4 places Fig 3 4 45 Connectors included as accessories Screws 2 cross recessed self tapping screws nominal diameter 4 length 10 cone point per place included as accessories 9 Fix the groups of vertically connected screens on the left and the right 4 places Fig 3 4 46 Screws 1 self tapping screw nominal diameter 4 length 25 per place included as accessories 10 Fix the screen frame Fix with a screw in one place only the center of the lower edge of the system see Fig 3 4 48 and P53 6 Screw small screw nominal diameter 4 length 12 cone point included as accessory Connectors 12 screen assembly Fig 3 4 45 Screws Fig 3 4 46 69 INSTALLATION AND ASSEMBLY 12 screen assembly work requires at least 4 persons 1 First make a 9 screen assembly i e the assembly consisting of all of the screens other than the rightmost column made up of screens 8 and 2 and mount on cabinets See the method for the 9 screen assembly 2 Vertically connect screens 2 8 and 2 Fig 3 4 47 You should connect in the order 2 8 12 8 D Fix in a total of 4 places left and right Screws Cross recessed small s
191. ssary for the screen to become white when the white signal is input and black when the black signal is input In the actual adjustment the bias and gain of the CRTs for the three colors R G and B are adjusted so that the screen becomes the same color tone Before performing the white balance adjustment complete the convergence adjustment first If not performed properly especially where the screens join each other the colors of the screens may not join When performing the adjustment take into account the position and height of the sets height of the eyes of those viewing the screens and distance to the screens There are two types of screen white balance data video Y C input and RGB input The data is switched when the screens are switched For RGB input COLOR TINT and SHARPNESS cannot be adjusted When the ABL is OFF ABL LEVEL cannot be adjusted Note In the PAL signal TINT cannot be adjusted even in the video or Y C input 2 ABL switch setting In ABL setting when the luminance of units completely match the unit which ABL voltage is controlled the most and luminance is lowest the luminance of the whole multi screen becomes low The ABL switch is able to switch the amount of ABL control voltage when ABL is on This switch has three modes ABL1 ABL2 and ABL3 ABL1 ABL2 ABL3 Amount of voltage of other units adjusted to Small Much the unit whose ABL voltage is contr
192. t Only valid for one ID Invalid for ID 1 1 etc The adjustment data etc is output in ASCII codes Note indicates the command name 1 GRH GET RH CONV DATA RED horizontal convergence data is output lt GGH gt GET GH CONV DATA GREEN horizontal convergence data is output GBH GET BH CONV DATA BLUE horizontal convergence data is output Format Output in the following order D STX 02H lt O30 gt OH STATIC adjustment data 3 BYTE lt O31 gt OH SKEW adjustment data 3 BYTE lt O32 gt OH BOW adjustment data 3 BYTE 5 lt 036 gt OH SIZE adjustment data 3 BYTE 6 lt O42 gt OH LINEARITY adjustment data 3 BYTE lt O37 gt OH KEY adjustment data 3 BYTE OG GGG 0G 6 lt O43 gt OH SUB KEY lt O138 gt OH PIN D44 DH SUB PIN lt 33 gt 3D SKEW lt O34 gt OH 4D BOW lt O153 gt OH 5D SKEW lt O59 gt OH 6D BOW lt O48 gt OH MID SIZE lt O54 gt OH MID LIN D41 DH 5D SIZE lt 047 gt 6D LIN lt O139 gt OH 3D KEY lt O45 gt OH 3D S KEY lt O40 gt OH 4D PIN D46 DH 4D S PIN D49 DH MID KEY Db55 DH MID S KEY D50 DH MID PIN D56 DH MID S PIN lt O51 gt OH MID 3D KEY lt O57 gt OH MID 3D S KEY D52 DH MID 4D PIN lt O58 gt OH MID 4D S PIN ETX 03H Note 0
193. t MPJs when ABL linking is on 1 Check that all the linking cables for the MPJ system to be adjusted are connected 2 Input 100 white pictures to all screens 3 Setall the MPJs to COMBI ABL linking ON 4 Set all the ABL level adjustment settings to 128 5 Check all the ABL voltages The ABL voltage is displayed when ABL LEVEL is selected 6 Select the MPJ with the highest voltage and try adjusting the ABL level to the voltage of the MPJ with the lowest voltage 7 If 6 is possible select the voltage of the MPJ with the lowest voltage as the system s ABL voltage and adjust the other MPJs to that voltage If 6 is not possible select the voltage when the ABL level of the MPJ with the highest voltage is set to MIN as the system s ABL voltage and adjust the ABL level of the other MPJs to that voltage 8 Switch between COMBI ON and COMBI OFF while changing the white balance between 0 and 10096 for both the system and the individual MPJs and check to make sure that the ABL effect is not unnatu ral ABL VOLTAGE ABL voltage ABL LEVEL ABL level adjustment setting 114 ADJUSTMENTS 9 Adjustment using moving images The adjustment using images adjusts the overall joining of the screens by loading discs used by users for actual performance and discs always used for adjustments View the overall screen and adjust the screen with the greatest difference to the ot
194. t and move them RM V2550S RM V2550S2 Lifted by one or two persons Hold the parts indicated by E Fig 3 2 3 Never drag the system along the floor when moving the units The lenticular sheet damages very easily as it is very thin Therefore move it gently and do not apply exces sive shock or vibration to it As the panels supporting the screen are very thin and deform easily be careful that they do not hit or get hooked onto surrounding objects when moving them Caution after assembly of screen frames 2 or 3 stages The screen frame ass y must always be carried in the vertically standing condition by more than one person It is recommended that a 3 stage screen frame ass y is carried by 3 persons Never hold it horizontally for this may cause a screen to drop out of the frame Fig 3 2 4 37 INSTALLATION AND ASSEMBLY Do not stand the screen frame ass y in the 2 stage or 3 stage configuration against a wall The ass y should be mounted on the cabinet as soon as it has been assembled 2 Cabinet The cabinet must always be carried by being lifted up more than one person Never attempt to move the cabinet by sliding it on the floor When carrying the cabinet each person should hold it by the grip and the step position on the front Also make sure that the center of gravity is located on the rear side during carrying Fig 3 2 6
195. t fire hazards and electric shocks caused by water entering the system To prevent injuries take note of the sharp edges of this system When performing setup work at high places to prevent the falling down of the system and damages caused by falling objects set the Keep Out area To prevent fire hazards and electric shocks do not place foreign objects in the system nor remodel it To prevent fire hazards observe the following using environment Temperature 5 to 35 C Humidity 20 to 8096 Perform ventilation with the fan etc and observe the operating environment conditions even after completing as sembly Never install the system tilted TECHNICAL MANUAL Additional Version 2 0 MULTI PROJECTION UNIT RM V2400N 2500N series RM V4000V 5000V series RM V1000NJ The Cube TECHNICAL MANUAL Additional Version 10 issued in September 1996 has some imprecise descriptions that may cause incorrect settings and adjustments leading problems in the field To prevent these problems this revised version is issued Do not use the version 1 0 and use this version 2 0 in setting and adjusting CONTENTS 1 Additional notes on INSTALLATION AND ASSEMBLY It is known that most of light leakage and come off screen problems are caused by incorrect installation This technical manual gives supplementary explanations on INSTALLATION AND ASSEMBLY to the current technical manual This section is applied to the Projection Frame RMF V401 1 50
196. te in the command example for 2x2 enlargement of the A input to demonstration switch No 8 W3 M11A22 9 Write in the command example for 2x2 enlargement of the C input to demonstration switch No 9 W3 M11C12 End The RM V1000NU s internal MVP assembly AWU 1014 uses slots A and B but this set uses slots A and C Note that because of this the M command setting is different 169 MVP MANUAL 9 INSTALLING AND REMOVING BOARDS For your safety N Be sure to turn the power off before installing and removing boards Installation procedure Remove the screws from the front panel then open the front panel Fig A Q Insert the board gently along the rails Refer to the board layout for the positions for in serting the boards Press the part of the white plastic part strongly with a finger and insert the board fully to the back Fig C The board may not go fully to the back if pressed on the metal part Fasten with the flanged screws 3x6 Fig C Set the front panel back in place Fig A lt Removal procedure gt Remove the front panel Remove the screws fastening the board to the removed Fig C Lift the ejectors indicated with white arrows Fig B Gently draw out the board along the rails Set the front panel back in place Fig B em Screw 3x6 x6 f EU em a ae 2 Lr MK _ 2 Y d
197. tem comes into contact with the floor Anchor the system to the floor Fix the system to the wall etc using wires etc following the points in the diagram below NOTE 1 Always use wires etc that are a little stronger than necessary 2 Always use the points designated in the diagram below for attaching the wires etc Do not use other holes since they are not strong enough and their surroundings may be damaged The method for fixing the system to the floor or wall depends on the material that the floor or wall is made of You should get a specialist contractor or your dealer to do this work e Make sure that you read the section Fixation using anchors on P74 Bolt Wire rope Fix on the wall etc d Must not be used Part A Enlarged View 2 points Nut Must not be used Example of tumbling prevention of a sys tem with 4 screen configuration Use the points indicated by arrows 4 points i won 57 Fig 3 1 1 7 LL Jj Wire rope attaching points for tumbling prevention of a system with 9 screen configuration Use the points indicated by arrows 4 points Fig 3 1 1 25 INSTALLATION AND ASSEMBLY 7 Heat value calculation In the calculation assume that the maximum power consumption per multi projection unit is 300 W by re serving a certain headroom As most of the consumed power becomes heat the power consumption c
198. tion units and the remote control unit can be used to operate a specific multi projection unit In addition the ID numbers assigned to the different multi projection units can be used to change the time until each unit is turned on This can be used to avoid harmful effects such as the circuit breaker being blown due to a large in rush current lt Function for turning the power on at different times using the ID numbers gt If the power of the entire cube system is turned ON OFF with a main breaker because the cubes connected to the same power supply will be simultaneously turned on when the power is turned on a large in rush current my be generated Such problems can be prevented by using the ID numbers assigned to the different sets to change the times when the units power actually turns on as described below thereby lowering the probability of the power of the different units turning on simultaneously and thus preventing such problems Wait Time setting This function uses the ID numbers assigned to the individual sets dividing the ID numbers into four groups I to IV and setting the time from which the microprocessor recognizes the power on command until the power assembly s AC relay is actually turned on for the different sets within the different groups in the order of the ID numbers with the formula ID no within group 40 msec ID Converted into decimal system Wait Time ID Order
199. to ON 11 GENERAL SPECIFICATIONS Control Panel Mode Switches e INPUT SELECT switch Our Ovineo e The input switches each time the switch is pressed e STATUS indicator switch COSTATUS Display example 1 HOUR 2 INPUT 3 MULTI 4 COLOR MODE 5 COMBI 6 VIDEO MODE 7 BAUD RATE 8 TV SYSTEM 9 CONV DATA Position Function VIDEO Selects the VIDEO input terminal When selected the VIDEO LED lights This position is also used for switching the input between VIDEO and Y C by inputting a control signal to the EXT CON TROL terminal lt EXT CONTROL gt The input switches between VIDEO and Y C when a control sig nal is input to the EXT CONTROL terminal BNC In this case the VIDEO LED remains lit regardless of which input is selected Control signal Open VIDEO Low Y C When the control input terminal is open normal mode the open mode is set and the VIDEO input signal is selected Y C The Y C input terminal is selected When selected the Y C LED lights RGB The RGB input terminal is selected When selected the RGB LED lights The display of the various settings turns on and off when the switch is pressed 1 Indicates the total power on time Only counted 1000 H when power is set to ON VIDEO 2 Indicates the selected input ON 3 Indicates the MULTI ON OFF mode 1 4 Indicates the COLOR MODE 1 2 mode ON 5 Indicates the COMBINATION ON OFF mode
200. ud rate of each MPJ is set to 2400 bps as they are not same D Press the key To set the adjustment mode Press the key To select 7 MEMORY READ COPYI 3 Press the key As the SUB MENU is selected 4800 bps will be selected automatically To set the baud rate to 4800 bps proceed onto step 7 Press the key Returns to the main menu Press the key Select 2 OPERATION MODE 6 Press the key As the baud rate changes cyclically 2400 bps is selected Press the key to select a baud rate The adjustment is completed ADJUSTMENTS Precautions upon use Adjustment control unit Always release the adjustment mode with button and turn off the power with the button after adjustments and settings All adjusted values and settings will be memorized The remote control adjustment mode will automatically be exited in the following 1 When no operations are performed for about 180 seconds 2 When the rear panel switch is pressed 3 When the power is turned off 4 When the input signal is switched the cable is disconnected or the mode is switched NTSC PAL However in some cases switching between PAL and no signal may not exit the mode One MPJ cannot be adjusted using the remote control unit and personal computer simultaneously If using the remote control unit after the personal computer adjustment mode has been started up start up the re mote control unit adjustment mode or turn o
201. upside down 2 Remove the pads C Upper L R paper pipes A x 2 corner pads x 2 paper pads B x 4 cardboard pads L R pads D x 2 and mirror mats front x 1 rear x 2 and put them in the upper carton 3 Take the cabinet out of the under carton NOTE 1 The accessories are attached on the under carton NOTE 2 After taking out the cabinet place it on the stand or set and fix using bolts Do not leave the cabinet standing alone Otherwise it may tumble down when someone touches it Upside down Removal direction irror mat Cardboard pad L Corner pads Under carton Pad C Upper L Cardboard pad R Accessory parts P i A aper pipes Pad C Upper R 3 Fig 3 2 1 35 INSTALLATION AND ASSEMBLY 4 RM V2550S unpacking procedure Fig 3 2 2 1 2 3 4 5 6 7 Black tape 36 NOTE 1 After removing the top cover protecting the screen surface be specially careful not to damage or stain it NOTE 2 The accessories are attached on the under carton NOTE 3 With the RM V2550S2 there are no urethane pads B and C or black tape Remove the top cover Peel off the pieces of tape attached to urethane pads B x 2 and urethane pads C x 2 by cutting them using a cutting knife from outside the under carton and remove urethane pads B x 2 and urethane pads C x 2 Peel of the piece of tape from the mirror mat remove the screen unit and
202. ut colors When the image contains areas with fine lines the horizontal lines may become hard to view due to flickering Note on genlocking The system does not incorporate the genlocking function This means that the signal output from the system is not synchronized with the signal input to it Note on screen burns When the system has displayed a still image re sidual images screen burns may remain on the Screens 151 CHAPTER 7 MVP MANUAL 1 INTRODUCTION The multi video processor hereafter referred to as MVP below is equipped with a serial interface conforming to RS 232C standards which can be connected to computers This manual is required when connecting the MVP to the external computer and controlling adjustments and performance This manual describes the methods of using the RS 232C interface command protocols and basic functions and commands of the MVP NOTE The methods and procedures described below use the RMD V3104U as an example 152 MVP MANUAL 2 CONNECTION WITH MVP EXTERNAL COMPUTER Refer to Chapter 4 P 117 External Control by MPJ RS 232C for how to adjust the MPJ Use a RS 232C straight cable e Refer to the following diagram for connections MVP RS 232C Settings Baud rate Bit number Parity Stop bit MVP RS 232C Pin Layout Connection with External Computer External Computer Side FG TxD RxD RTS CTS DSR SG NOOR WD NO ORWD
203. utputs the G signal Y B ene Output terminal of the Y signal or the B signal of RGB separate signals CUR oie Output terminal of the C signal or the R signal of RGB separate signals The correspondence between these outputs and a 4 displays is shown below V OUT1 V OUT2 V OUT3 V OUT4 4 displays front view GENERAL SPECIFICATIONS 4 Multi Video Processor RMD V3216 V3109 V3000X 299 15 gt 430 Front Ly n im d 314 d i 182 6 vi unit mm Side m 16 19 4 420 Fig 2 1 3 General Specifications of the Multi Video Processor RMD V3216 V3109 V3000X Input signal Input video signal up to 4 sets can be added 2 sets RMD V3216 or 1 set RMD V3109 or 0 set RMD V3000 BNC connector D Composite video 1 0 Vp p 75 ohm terminated Isolated Y C signal Y with synchronization 1 0 Vp p 75 ohm C burst level 0 286 Vp p 75 ohm Signal format D or 2 selectable Input D only equipped with terminating switch through out Input reference synchronizing signal BNC connector D Composite synchronizing signal I 0 286 to 4 0 Vp p Composite video signal Image level 0 to 0 714 Vp p 75 ohm S
204. various adjustments and provides possibilities for various types of visual presentations Trans fer of control signals to the individual multi projection units is possible in daisy chain format by connecting the combination terminals using interconnection control cables DIN 6 pin connectors included No compli cated connections are necessary The multi projection units can be assigned ID numbers and still be adjusted individually after the system is expanded Dual NTSC PAL compatibility The individual multi projection units display high quality pictures with either NTSC or PAL inputs Wired remote control unit RU V107 sold separately available for adjustments The wired remote control unit can be used for adjusting the convergence white balance and other settings while watching the picture from the front when setting up the multi picture system 2 FEATURES OF THE MULTI VIDEO PROCESSOR hereinafter referred to as the MVP e Multi video processor for 4 screen enlarged images Compact space saving design Adjustment remote control unit computer relay function considering system installation Expandable through the addition of an option board one 3 FEATURES OF THE PROJECTION STAND hereinafter referred to as the Stand EIAJ rack mount function Casters for easy moving Built in adjuster for level adjustment CHAPTER 2 GENERAL SPECIFICATIONS 1 SPECIFICATIONS OF THE DIFFERENT UNITS 1 Multi Pr
205. ying the 6 screen assembly make sure that 2 people hold the screen with one person holding each edge as in Fig 3 4 38 and that a third person supports the top of the assembly Before mounting the screens on the cabinets check that there is no dirt on the screens If there is dirt on the screens wipe them clean with a soft cloth In particular you will not be able to clean the Fresnel surface after mounting on the cabinets For small pieces of dirt on the joints do not use dry cloth but rather wipe clean with a cloth that you have moistened with water and then wrung out well 5 Fix the screen frame Fix with a screw in one place only the center of the lower edge of the system see Fig 3 4 48 and P53 6 Screw self tapping screw nominal diameter 4 length 12 cone point included as accessory 65 INSTALLATION AND ASSEMBLY 9 screen assembly work requires at least 3 persons 1 Vertically connect screens D and Fig 3 4 39 You should connect in the order 040 0 0 Fix in a total of 4 places left and right Alignment Left right alignment Align so that the joints on the right sides of screens D O form a straight line Fig 3 4 39 Forward backward alignment Align so that the screen surfaces wrench surfaces are at the same height Fig 3 4 39 Frames f 2 Screen surfaces t Align so that screen surfaces lie Align so as to form a straight line with
206. ync Level 0 286 Vp p 75 ohm Equipped with terminating switch through out RS 232C control input 25 pin D sub Output signal Output video signal 16 sets RMD V3216 or 9 sets RMD V3109 or 0 set RMD V3000 BNC connector Composite video signal 1 0 Vp p 75 ohm Isolated Y C signal Y with synchronization 1 0 Vp p 75 ohm C with burst burst level 0 286 Vp p 75 ohm Simultaneous output of D and RGB signal Green G on Sync 1 0 Vp p SYNC section 0 3 Vp p Blue 0 7 Vp p Input reference synchronizing signal BNC con nector TTL level or input reference synchronizing signal through out Others Power supply AC 100 to 120 V 50 60 Hz Power consumption RMD V3216 RMD V3109 RMD V3000X 350 W 700 VA Operating temperature humidity range 5 to 35 C 85 or less without condensation External dimensions RMD V3216 RMD V3109 RMD V3000X E 482 6 W x 420 D x 314 H mm not including handle Weight BUID AVEIA I o EEE nenne 22 5 kg RMD V3109 eiiiai i 22 0 kg RMD V3000X 20 5 kg Accessories Rack mount screw 5 eeeeeeeeeeeennnn 8 Rack mount washer eese 8 Up to 3 units of the RM V2550BU can be stacked 4x4 16 screen configurations are not possible 19 GENERAL SPECIFICATI
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