TECHNICAL MANUAL (Ver.2.0) MULTI PROJECTION UNIT RM-V2550BU RM-V2550E PROJECTION SCREEN KIT RM-V2550S RM-V2550S2 MULTI VIDEO PROCESSOR RMD-V3104U RMD-V3104A PROJECTION STAND RMA-V5020 Caution This symbol refers to a hazard or unsafe practice which can result in personal injury or property damage. Notes: • Pioneer will accept no responsibilities for damages resulting from problems with parts other than those supplied by Pioneer.
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CONTENTS CHAPTER 1 FEATURES .......................................................................................................... 5 1. FEATURES OF THE MULTI PROJECTION UNIT (hereinafter referred to as the “MPJ”) ............. 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 ..................................................
CONTENTS 2. BEFORE ADJUSTMENTS ................................................................................................................ 80 (1) Convergence adjustment memory .......................................................................................... 80 (2) TV system .................................................................................................................................. 81 (3) White balance adjustment memory .....................................................
CONTENTS 6. Controls the panel switch function ........................................................................................ (1) To set the manual mode [MNL command] ...................................................................... (2) To set the remote mode [RMT command] ....................................................................... (3) To select composite video input [CIC command] ............................................................
CHAPTER 1. FEATURES 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.
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.
CHAPTER 2. GENERAL SPECIFICATIONS GENERAL SPECIFICATIONS 1. SPECIFICATIONS OF THE DIFFERENT UNITS (1) Multi Projection Unit (RM-V2550BU, RM-V2550E) TV format ............... NTSC/PAL, automatic switching (fixed mode available) Projection tubes .......................................... 7" CRT x 3 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 ......
GENERAL SPECIFICATIONS (2) Projection Screen Kits 1 4mm-screw screen (RM-V2550S) External dimensions ....... 1030.8 x 768.5 x 84.8mm Weight ................................................................ 13kg Accessories Hook fitting (left) ................................................. 1 Hook fitting (right) .............................................. 1 Screen frame fastener ........................................ 1 Cross-recessed tap tight screws (wood screws, nominal diameter 4, length 18) ..
GENERAL SPECIFICATIONS Power Supply Panel [Fig. 2-1-1] No. Name 1 AC inlet 2 AC outlet Type Function Connect the power cord here. Connect other multi projection units here. Not linked to main power switch. (*1) 3 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). 4 Fuse holder The fuse is in here. Only service personnel should touch this. NOTE) 1.
GENERAL SPECIFICATIONS Control Panel [Fig.
GENERAL SPECIFICATIONS No.
GENERAL SPECIFICATIONS Control Panel Mode Switches ¶ INPUT SELECT switch 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. CONTROL terminal. < EXT. CONTROL > The input switches between VIDEO and Y/C when a control signal is input to the EXT. CONTROL terminal (BNC). In this case, the VIDEO LED remains lit, regardless of which input is selected.
GENERAL SPECIFICATIONS [RGB-1 terminal] Analog RGB Synchronizing signal Connection terminal Pin layout M2.6 inner thread screw : 0.7 Vp-p (75 ohm) : 0.3 Vp-p to 4 Vp-p (75 ohm) : 9-pin D SUB (male) 1:R 2 : G/G on Sync 3:B 4 : Signal GND 5 : HD/Sync 6 : GND 7 : VD 8 : NC 9 : NC [VIDEO input] The video output terminal outputs the signal input to the input terminal (through out).
GENERAL SPECIFICATIONS (3) Multi Video Processor (RMD-V3104U, RMD-V3104A) Input signal Output signal Input video signal 1 set ............................................... BNC connector for RMD-V3104U .................................... NTSC for RMD-V3104A .............................. NTSC/PAL (One set of RGB inputs can be added by adding an optional variable scan board.) 1 Composite video signal ....................... 1.0 V (p-p) (75-ohm terminated) 2 Isolated Y/C signal Y (with synchronization) .
GENERAL SPECIFICATIONS External Dimensions 377 MULTI VIDEO PROCESSOR RMD-V3104J 382 OUTPUT 204 INPUT Unit: mm Front Panel POWER 1 ON 2 OFF MULTI VIDEO PROCESSOR RMD-V3104J 1 POWER indicator Lights when the power is ON. 2 POWER switch Press to switch the power ON/OFF.
GENERAL SPECIFICATIONS Rear Panel 1 2 3 4 5 INPUT OPTION COMB OUT CONTROL IN DISPLAY V IN INPUT 7 89 0 - = 6 MVP RS-232C RATE MODE OPTION V.FIL G ON OFF ( VBS ) ( VBS ) (Y/C) (Y) R B H/CS V (C) V IN VBS Y/C OUTPUT FUSE 125V Y C V OUT1 VBS G AC INLET VBS Y B V OUT2 C R VBS C R VBS G V OUT3 VBS G ~ Y B C R 3.15A ! @ 1 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).
GENERAL SPECIFICATIONS Signal name 8 MODE switch FG ............................. Frame Ground TxD ...................... Transmitted Data RxD ............................ Received Data RTS ........................ Request to Send CTS ............................. Cleat to Send DSR .......................... Data Set Ready SG ............................. Signal Ground Selects the video output mode. MODE switch details SW No. Frequency mode mode 0 7 Baud rate switch 4 Switch No.
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 &W1 without fail, in the case that a mode is changed after video image position adjustment. (Refer to &W command) 9 Reset button Press this button to reset the system. After the button is pressed, the system enters the manual mode.
GENERAL SPECIFICATIONS (4) Multi Video Processor (RMD-V3216/V3109/V3000X) Rear 0 0 299 15 unit: mm 430 Front Side D 314 POWER ON OFF MULTI VIDEO PROCESSOR RMD-V3216 16 19 420 482.6 [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 1 Composite video signal .......................... 1.
GENERAL SPECIFICATIONS (5) Projection Stand (RMA-V5020) Top Rear Side Front unit: mm [Fig. 2-1-4] Specifications External dimensions (max.) .......................... 1031 (W) x 781 (H) x 650 (D) mm (For 100-inch 4-screen systems, system height is 2600 mm) Weight ............................................................ 51.5 kg Accessories Main unit mount bolt M8x30 ........................ Main unit mount bolt M8x60 ........................ Side coupling bolt M10x120 .........................
GENERAL SPECIFICATIONS (6) Adjustment Control Unit (RU-V107) Option unit: mm 84 DÎ ADJUSTMENT CONTROL UNIT 0 ADJ IN 1 2 3 4 5 6 7 8 9 A D B E C F ADJ R ON/OFF G ADJ ON/OFF 187 POWER ADJ B ON/OFF INPUT SEL MAIN MENU 2 /– +/3 DISP CALL ADJ OUT Cable length : 5m 29 [Fig. 2-1-5] Accessories AA dry battery (IEC R6P) ..................................................................................... 2 Cable (5m) ................................................................
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) (Surface) (Bolt mounting hole pitch) unit: mm [Fig.
GENERAL SPECIFICATIONS (2) 2 x 2 (100 inch) unit: mm [Fig. 2-2-2] (3) 3 x 3 (150 inch) [Fig.
CHAPTER 3. INSTALLATION AND ASSEMBLY 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.
INSTALLATION AND ASSEMBLY (6) Installation work to prevent toppling ¶ Make sure that you carry out the following work after installing the system in order to prevent toppling etc. 1 Lower all of the floor levelers until the system comes into contact with the floor. 2 Anchor the system to the floor. 3 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.
INSTALLATION AND ASSEMBLY (7) Heat value calculation ¶ In the calculation, assume that the maximum power consumption per multi-projection unit is 300 W by reserving a certain headroom. As most of the consumed power becomes heat, the power consumption can be regarded to be proportional with the calorific value. 1 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) 2 Conversion into British thermal unit [W] x 3.41 = [B.t.u.
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 1.2m 1.6m ¶ 2-stage configuration [Fig. 3-1-2] 1.2m 1.6m ¶ 3-stage configuration [Fig.
INSTALLATION AND ASSEMBLY 1.2m 1.6m ¶ 2-stage configuration using stands (RMA-V5020) [Fig. 3-1-4] 1.2m 1.6m ¶ 3-stage configuration using stands (RMA-V5020) [Fig.
INSTALLATION AND ASSEMBLY Horizontal field angle ¶ 2 horizontal screen configuration [Fig. 3-1-6] ¶ 3 horizontal screen configuration [Fig.
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. ¶ Glass plates for safety protection purpose may sometimes have to be attached on the screen surfaces depending on their installation location.
INSTALLATION AND ASSEMBLY (14) Power supply 1 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.
INSTALLATION AND ASSEMBLY 4 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 multiprojection unit.
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 with a fan Vent Vent Vent (Bottom) 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.
INSTALLATION AND ASSEMBLY 2. INSTALLATION AND ASSEMBLY (1) Confirmation 1 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.
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 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.
INSTALLATION AND ASSEMBLY 4 RM-V2550S unpacking procedure [Fig. 3-2-2] 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. [1] Remove the top cover.
INSTALLATION AND ASSEMBLY (3) Carrying the units after opening packaging 1 Screen To carry the screen unit after opening the packaging, hold them by the parts shown in the figure, and lift and move them. (RM-V2550S,RM-V2550S2) (Lifted by one or two persons) Hold the parts indicated by [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 excessive shock or vibration to it.
INSTALLATION AND ASSEMBLY ¶ Do not stand the screen frame ass’y in the 2stage or 3-stage configuration against a wall. The ass’y should be mounted on the cabinet as soon as it has been assembled. [Fig. 3-2-5] 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.
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. 7 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.
INSTALLATION AND ASSEMBLY 4. ASSEMBLING THE SYSTEM (1) System assembly flowchart Fix a cabinet on the projection stand. Arrange the required number of cabinets horizontally and connect them between each other. Connect the cabinet for the second stage. 3-stage configuration 2-stage configuration Move the system (up against the wall). With a 9-screen system, connect the cabinet for the third stage after connecting that for the second stage.
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 ¶ 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.
INSTALLATION AND ASSEMBLY 1 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.
INSTALLATION AND ASSEMBLY [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] Difference [Fig. 3-4-3] Flush No Good OK No Good Height difference NOTE) The illustration shows the assembled view of a 9-screen system.
INSTALLATION AND ASSEMBLY (Inclination): Reduce any clearance between the left and right cabinets to below 3 mm. (Keep the gap as close as possible to 0 mm.) [Fig. 3-4-5] x, y < 3 mm [Fig. 3-4-5] [5] Fix the left and right cabinets and stands using bolts. [Fig.
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.
INSTALLATION AND ASSEMBLY [8] Fix the connections between cabinets using bolts. [Fig. 3-4-9] Front M8x45 x 3 (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) M8x45 (x 1) (Front view) M8x45 (x 1) M8x65 (x 4) M8x45 (x 2) [Fig.
INSTALLATION AND ASSEMBLY [9] Attach the screen frame support brackets 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) Holes to be used (x 2 on left and right) NOTE) To prevent hazard, never mount on a cabinet. Screen frame support brackets [Fig.
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. 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.
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 screen frames carry out the work with at least three persons.
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.
INSTALLATION AND ASSEMBLY [4] Attach the other screen frame ass’y to the other cabinet in the same way as above. [5] 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.
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) Use this hole to fasten. Nominal dia.
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.
INSTALLATION AND ASSEMBLY [5] Fix the cabinets and stands using bolts. [Fig. 3-4-20] Cabinets Front M8x45 Rear M8x45 x 4 (provided with each cabinet) x 2 (provided with each cabinet) Stands Front M10x120 x 4 (provided with each stand) Rear M10x120 x 4 (provided with each stand) * Please do not use 65mm bolts as these may block the light path.e light path. (Front view) M8x45 (x 4) (Rear view) M10x120 (x 4) M8x45 (x 2) M10x120 (x 4) [Fig.
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. (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.
INSTALLATION AND ASSEMBLY (Rear view) M8x45 (x 2) M8x65 (x 6) [Fig.
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 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 a cross on the center point where the 4 screens meet. [11] Fix the connections between cabinets using bolts. [Fig.
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.
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.
INSTALLATION AND ASSEMBLY 3 1mm-screw screen (RM-V2550S2) assembly (Note: ‘Left’ and ‘right’ in the text refer to the case that the screen is viewed from the front) Step 1: Preparing the cabinets Attach the screen frame fasteners as for the RM-V2550S (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.
INSTALLATION AND ASSEMBLY Step 3: Preparing the screens ¶ Take off those protective metal plates (fittings H and V) which will not form the outer edge of the system (Fig. 3-4-27). Example: in the case of screen 4 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).
INSTALLATION AND ASSEMBLY Notes * It 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. 3-4-29a, 3-4-29b, 3-4-29c).
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.
INSTALLATION AND ASSEMBLY 3) Place screen 2 on top of screen 4 and connect it to screens 1 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 2 against the right edge of screen 1. Forward/backward alignment: Place screen 2 on top of screen 4.
INSTALLATION AND ASSEMBLY 6-screen assembly (work requires at least 3 persons) 1) First make a 4-screen assembly using screens 1, 2, 4 and 5. (See the procedure for the 4-screen assembly) 2) Horizontally connect screen 6 to the side of screen 5 (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).
INSTALLATION AND ASSEMBLY 9-screen assembly (work requires at least 3 persons) 1) Vertically connect screens 1, 4 and 7 (Fig. 3-4-39). You should connect in the order 7+4, 74 +1. 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 1, 4 and 7 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).
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.
INSTALLATION AND ASSEMBLY 5) Vertically connect screens 3, 6 and 9 (Fig. 3-4-44). You should connect in the order 9+6, 96 +3. 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, 6 and 9 form a straight line (Fig. 3-4-44). Forward/backward alignment: Align so that the screen surfaces (wrench surfaces) are at the same height.
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 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).
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 4, 8 and =) and mount on cabinets. (See the method for the 9-screen assembly) 2) Vertically connect screens 4, 8 and = (Fig. 3-4-47). You should connect in the order = + 8, = 8 + 4.
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.
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 floor, use the following caution in installation. [1] If the floor is flat, the cabinets cannot be joined well and may be deformed after joining.
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. 1 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.
INSTALLATION AND ASSEMBLY b. Fixing using L-shaped brackets L-shaped bracket L-shaped bracket Bolt 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.
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).
INSTALLATION AND ASSEMBLY LDP 1 (1) Enlarged display only LDP SW or selector, etc. Examples of System LDP 2 C.VIDEO To MVP input LDP 3 LDP 4 C.VIDEO To MVP input MVP MVP (2) Multi display LDP 1 LDP 3 To C.VIDEO MPJ input Matrix SW LDP 2 To C.VIDEO MPJ input To C.VIDEO MPJ input To C.VIDEO MPJ input LDP 4 To C.
CHAPTER 4. ADJUSTMENTS ADJUSTMENTS 1. ADJUSTMENT PREPARATIONS (1) Wiring 1 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.
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.
ADJUSTMENTS (5) Equipment required for adjustments The following are required for the adjustments performed during the set-up of MPJ.
ADJUSTMENTS 2.BEFORE ADJUSTMENTS (1) Convergence adjustment memory The MPJ incorporates four convergence adjustment memories. These can broadly be divided into the adjustable memory (Memories 1 to 3) and dedicated memory for reading adjustment values set at shipment (FACTORY). Memory Area 1 Input Signal 2 3 FACTORY NTSC PAL : 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.
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.
ADJUSTMENTS (3) White balance adjustment memory ADJUSTMENTS has altogether six white balance adjustment memories. Color mode 1 (Normal) VIDEO, Y/C input memory RGB input memory Factory shipment memory 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.
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 projection units and the remote control unit can be used to operate a specific multi projection unit.
ADJUSTMENTS ¶ 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 assigned.
ADJUSTMENTS Command: IDC (ID Clear) Clear assigned ID IDS (ID Set) Assign ID The IDS command is only valid when no ID is assigned, and is value from the unit closest to the computer (remote control unit).
ADJUSTMENTS [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 1 key to select “1. ID SET”. If ID numbers are already assigned, press the 0 key to select “0. ID CLEAR” from the main menu. ADJ IN 0.
ADJUSTMENTS Use this function to select the screen to be adjusted from the remote control 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 1 key to select “1. ID SET/CLEAR/SELECT”. [3] Use the key to select “2. ID SELECT”. 2 3 [4] Press the 0 and keys (ID = 03).
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 Method Adjusting Point Focus control (VR1) of lens assembly attached Focus Cross hatch to the replaced CRT asadjustment sembly and the focus variable resistor • Move the lens assembly left and right and optimize the focus. • Rotate the focus VR and optimize the focus.
ADJUSTMENTS 3. GENERAL EXAMPLES OF MULTI PROJECTION PRESENTATIONS (1) Switching between enlarged/individual display on the multi video processor Source NTSC NTSC Multi projection unit Multi video processor TV SYSTEM) AUTO Convergence data required for presentation) 1 set (2) Switching the sources input to the multi video processor LDP-1 NTSC Multi video processor LDP-2 * There is a phase difference between LDP-1 and LDP-2. Y/C or RGB Multi projection unit * There is only one set of frame data.
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. 1 Give ID (Refer to page 86 to 90) ↓ 2 Adjust the size of each screen ↓ 3 Adjust the convergence of each screen ↓ 4 Adjust the joining of the screens (Adjust the MVP. Refer to “MVP Manual” in Chapter 7 (page 155).
ADJUSTMENTS (2) Convergence adjustment flowchart 1 (P. 92) 2 (P. 92) 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 Is the Horizontal size standard (93%)? NO 8 YES (P. 107) Adjust H BLK-L and H␣ BLK-R 5 Adjust joining of peripheral screens (P. 94) in green point convergence mode 6 Adjust linearity of green point conver(P.
ADJUSTMENTS (3) Convergence adjustment contents The & numbers correspond to the numbers in the flow-chart. 1 Measurement of screen center The center can be found easily by pasting threads in the spaces of the protection panels at the screen frame. 2Adjustment signal input For adjusting size ..................................................... Frame size picture(EX.LD Test disc GGT1072, FRAME No. 5941),Monoscope, etc. For screen joining, linearity, color adjustment. .....
ADJUSTMENTS 4 V SIZE, V LIN, H SIZE Adjustment Observe here 1 V SIZE adjustment Set to only green, observe the top part of the screen , and adjust the data amount in the vertical direction using V SIZE . Do not observe the bottom part of the screen. 2 H 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.
ADJUSTMENTS 5, 6, 7, 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 ¶ 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.
ADJUSTMENTS Movement of screen by point convergence adjustment OSD display Movement of screen 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 screens.
ADJUSTMENTS 96
ADJUSTMENTS 97
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.
ADJUSTMENTS Displayed OSD Movement on screen 99
ADJUSTMENTS 100
ADJUSTMENTS 101
ADJUSTMENTS 102
ADJUSTMENTS 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. In this case, adjust while moving the other points slowly.
03 23 5D SIZE 01 2 SIZE MID SIZE 00 1 STATIC 6D LIN MID LIN 3 LIN 29 04 02 5D SKEW 3D SKEW 4 SKEW 11 18 06 19 21 M3D KEY 09 07 3D KEY MID KEY 5 KEY 20 10 08 M3D SKEY 22 3D SKEY MID SKEY 6 SUB KEY 6D BOW 4D BOW 7 BOW 17 24 12 M4D PIN 4D PIN MID PIN 8 PIN 27 25 15 13 26 16 14 M4D SPIN 28 4D SPIN MID SPIN 9 SUB PIN ADJUSTMENTS 5' Dynamic convergence In addition to the point convergence mode, conventional convergence adjustments can also be performed.
106 48 41 5D SIZE 36 2 SIZE MID SIZE 30 1 STATIC 6D LIN MID LIN 3 LIN 47 54 42 5D SKEW 3D SKEW 4 SKEW 53 33 31 39 51 M3D KEY 49 37 3D KEY MID KEY 5 KEY 45 55 43 M3D SKEY 57 3D SKEY MID SKEY 6 SUB KEY 34 59 6D BOW 32 4D BOW 7 BOW M4D PIN 4D PIN MID PIN 8 PIN 52 40 50 38 46 56 44 M4D SPIN 58 4D SPIN MID SPIN 9 SUB PIN ADJUSTMENTS 5' Dynamic convergence H • Convergence adjustment
ADJUSTMENTS 8 H BLK L and H BLK R adjustments H BLK L and 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 Display range Convergence adjustment wave form Color deviation Video signal Display range after size changed No color deviation Convergence adjustment wave form Convergence adjustment wave form Adjustment by H BLK L When size is increased with H BLK L and H BLK R not adjusted.
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 RGB BGR When H BLK R adjustment is not properly performed H BLK L adjustment RGB 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.
ADJUSTMENTS Confirming the optimum H BLK L, H BLK R values Optimum H BLK R value OSD display Movement on screen B A When point A is lowered by point convergence, point B should not move. Confirming the Optimum H BLK L Value C D 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.
ADJUSTMENTS (4) White balance adjustment flowchart When adjusting the multi projection unit Initial setting Multi on ABL switching setting (Refer to page 111 (5) White balance adjustment) 1 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 100%) (Fix to maximum normally) 2 ABL link and LINEAR WHITE flesh color adjustment (COMBI ON) ABL LE
ADJUSTMENTS (5) White balance adjustment 1 Before adjusting white balance Adjusting the white balance means to adjust the color tone. This adjustment is necessary 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.
ADJUSTMENTS 3 Adjustment flow [1] Perform the adjustment using the full white (variable by %) 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.
ADJUSTMENTS 5 Rough adjustments (1) Black level adjustment Signal:White 10% Adjust R LOW, G LOW, and B LOW to the point where the CRT starts lighting up. (2) HI LIGHT adjustment Signal:White 50% 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.
ADJUSTMENTS 7 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 100% 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.
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 other 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.
ADJUSTMENTS 3 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.
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.
ADJUSTMENTS 2 RS-232C commands table Command Name Normal Valid UP/DW Number Command Direct Function A ABL AJN AJY AOF AON ABG ABL LEVEL ADJUST NO ADJUST YES ALL OFF ALL ON ABL GAIN X X √ √ √ X √ X X X X √ √ X X X X √ 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 ABL gain adjustment B B00 B01 B02 B03 B04 B06 B07 B08 B09 B10 B11 B12 B13 B14 B15 B16 B17 B18 B19 B20 B21 B22 B23 B24 B25 B26 BLUE 00 BLUE 01 BLUE 02
ADJUSTMENTS Command B39 B40 B41 B42 B43 B44 B45 B46 B47 B48 B49 B50 B51 B52 B53 B54 B55 B56 B57 B58 B59 B61 B62 B63 B64 B65 B71 B72 B73 B74 B75 B81 B82 B83 B84 B85 B91 B92 B93 B94 B95 BA1 BA2 BA3 BA4 BA5 BP1 Name BLUE 39 BLUE 40 BLUE 41 BLUE 42 BLUE 43 BLUE 44 BLUE 45 BLUE 46 BLUE 47 BLUE 48 BLUE 49 BLUE 50 BLUE 51 BLUE 52 BLUE 53 BLUE 54 BLUE 55 BLUE 56 BLUE 57 BLUE 58 BLUE 59 P-CONV. ADJ 61 P-CONV. ADJ 62 P-CONV. ADJ 63 P-CONV. ADJ 64 P-CONV. ADJ 65 P-CONV. ADJ 71 P-CONV. ADJ 72 P-CONV. ADJ 73 P-CONV.
ADJUSTMENTS Command Name Normal Valid Number Direct UP/DW Command Function BP2 BP3 BP4 BP5 BP6 BP7 BP8 BP9 BP0 BR1 BR2 BR3 BR4 BR5 BHI BLW BOF BON BRT P-CONV. ADJ P2 P-CONV. ADJ P3 P-CONV. ADJ P4 P-CONV. ADJ P5 P-CONV. ADJ P6 P-CONV. ADJ P7 P-CONV. ADJ P8 P-CONV. ADJ P9 P-CONV.
ADJUSTMENTS Command Name Normal Valid Number UP/DW Direct Command Function P-CONV. ADJ 61 | P-CONV.
ADJUSTMENTS Command P R S T 122 Normal Valid Number UP/DW Direct Command Function PON POF POC POWER ON POWER OFF POWER ON(MUTE) √ √ √ X X X X X X PAL TV SYSTEM PAL √ X X R00 | R59 R61 | RP0 RHI RLW RON ROF RYN RYY RED 00 | RED 59 P-CONV. ADJ 61 | P-CONV.
ADJUSTMENTS Note 1 : 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. Note 2 : The UP/DOWN commands that can be used for the point convergence adjustment are as follow. Move up = UP1 Move down = DW1 Move to right = RI1 Move to left = LE1 Adjustment of each area use the commands as follow. File area adjustment RI1 and LE1 are available.
ADJUSTMENTS 3 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 command is set when CONV.DATA MEMO-1 is selected, the GREEN horizontal convergence data of MEMO-1 will be get. In the same way, when 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.
ADJUSTMENTS [2] (GET RV CONV.DATA) — RED horizontal convergence data is output. (GET GV CONV.DATA) — GREEN horizontal convergence data is output. (GET BV CONV.DATA) — BLUE horizontal convergence data is output. Format : Output in the following order.
ADJUSTMENTS [4] (GET W/B DATA) — White balance adjustment data is output. Format : Output in the following order.
ADJUSTMENTS [7] (GET STATUS) — Various setting states are output. 1 STX (02H) 2 Version of microcomputer software (5 BYTE) Example)V1.00:Indicates VERSION 1.00. 3 Input function state (3 BYTE)-Output in command name. Example)IN1:Indicates VIDEO input. 4 MULTI state (3 BYTE)-Output in command name. Example)MLY:Indicates MULTI=ON. 5 COLOR MODE state (3 BYTE)-Output in command name. Example)CM1:Indicates COLOR MODE=1. 6 COMBINATION state (3 BYTE)-Output in command name.
ADJUSTMENTS 4 PRECAUTIONS [1] The adjusted data is backed up by the AJN command. After adjustments, always perform AJN. AJN will also exit the screen adjustment display. [2] Contents of the INPUT FUNCTION, MULTI ON/OFF, COMBINATION ON/OFF, COLOR MODE 1/2, TV SYSTEM, CONV.MEMORY are memorized only when the power is turned OFF using the remote control, POF command, or the TACT switch on the rear panel, and finish the adjustment mode (if you were set each data in the adjustment mode).
ADJUSTMENTS (7) Adjustments by remote control MPJ adjustments can be performed using the remote control unit (RU-V107) besides the computer and software. All adjustments are performed only using the remote control unit. 1 Remote control unit functions.
ADJUSTMENTS 1) POWER • Turns on/off the power of the unit. 0 2) • 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. 3 POINT adjustment 3 File area 3 Line area 3, 4) • Starts up the adjustment mode when the two buttons are pressed simultaneously.
ADJUSTMENTS 8) 4 • Selects 4 (CONVERGENCE 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. 3 SKEW 3 3D SKEW 3 5D SKEW • Moves the point to be adjusted to the left in the POINT CONVER ADJUST MODE.
ADJUSTMENTS 12) 8 • 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. 3 AUTO 3 NTSC 3 PAL • Cyclically selects the item to be adjusted in the CONVERGENCE ADJUST MODE in the following order. 3 PIN 3 MID PIN 3 4D PIN 3 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.
ADJUSTMENTS E 18) • Selects “E” for ID SET and ID SELECT in the ID SET/CLEAR/SELECT MODE. F 19) • Selects “F” for ID SET and ID SELECT in the ID SET/CLEAR/SELECT MODE. ADJ 20) R ON/OFF • 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.
ADJUSTMENTS 26) INPUT SEL • Cyclically switches the input function in the following order. 3 VIDEO 3 Y/C 3 RGB 27) • Moves the convergence up in the POINT CONVER ADJUST MODE. 28) MAIN MENU • Returns the main menu of the adjustment mode. 29) 2 /– • Decreases the adjusting value. • Moves the convergence to the left in the POINT CONVER ADJUST MODE. 30) +/3 • Increases the adjusting value.
ADJUSTMENTS 31) DISP CALL • In the deflection adjust mode, switches cyclically, as follows: = Normal adjustment item = Main deflection adjustment setting table = Test cross (see below) Main deflection adjustment setting table 0. V STATIC 2. V SIZE 3. V M SIZE 5. H SIZE 6. V LI 7. H BLK-L 8. H BLK-R 9. V M LIN B. H PIN D.
ADJUSTMENTS White balance adjustment setting table (1) 7. R HIGH 8. G HIGH 9. B HIGH A. R LOW B. G LOW C. B LOW 128 128 128 128 128 128 1. CONT 2. BRIGHT 128 128 Remote control unit key number Bar graph display position For details, see next page. List of numerical values (example) White balance adjustment setting table (2) 3. 4. 5. 6. COLOR TINT SHARP LIN WHT 0. -GAIN D.
ADJUSTMENTS Adjustment setting 4UP Adjustment setting 4UP Set to medium bar Set to large bar Adjustment setting 4UP Adjacent bar set to medium bar NOTES) ¶ The set operates as follows when the above is displayed: • No key is pressed = Adjustment mode is canceled after about 180 seconds. • “MAIN MENU” or “ADJ IN” pressed = Main menu reappears. • “ADJ OUT” pressed = Adjustment mode is canceled. • Any key from “0” to “D” pressed = W/B adjustment mode corresponding to that key is set.
ADJUSTMENTS Performing adjustments 2 1) Entering and exiting the adjustment mode Turn on the power switch and press the two ADJ IN keys of the remote control together. The adjustment mode will be set. To exit this mode, press the ADJ OUT 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.ID SET/CLEAR/SELECT 2.OPERATION MODE 3.DEFLECTION ADJ 4.CONVERGENCE ADJ 5.
ADJUSTMENTS 3 Adjustment examples [1] Setting the ID 1) Enter the adjustment mode by ADJ IN key. 1 2) The main menu will be displayed. Press the key to select [1. ID SET/CLEAR/SELECT]. 1 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 ADJ IN key to set the adjustment mode. The main menu will be displayed.
ADJUSTMENTS [3] Adjusting the H SIZE 1) Enter the adjustment mode. 2) Press the 3 3) Press the 5 key to select [3. DEFLECTION ADJ]. key to select [H SIZE]. Then use the 2 / – and +/3 keys to adjust the H SIZE. The following can be adjusted using similar methods. 0 key : V STATIC 7 key : H BLK-L 2 key : V SIZE 8 key : H BLK-R 3 key : V MID SIZE 9 key : V MID LINEARITY 5 key : H SIZE B key : H PIN 6 key : V LINEARITY D key : GH LINEARITY (is the same as GH LINEARITY in “4.
ADJUSTMENTS [5] Adjusting the red point convergence 1) Enter the adjustment mode. 2) Press the key to select [5. POINT CONVER ADJ]. 5 ADJ 3) Press the R ON/OFF key so that only the blue of the screen is erased. The following can be selected in the same way. G ADJ ON/OFF ADJ B ON/OFF : Green adjustment : Blue adjustment. 6 and 8 keys to move the OSD display to the point to be adjusted 4) Use the 2 , 4 , on the screen, and use the , , 2 / – and +/3 keys to adjust the convergence of that point.
ADJUSTMENTS [8] To return the convergence and white balance adjustment data to that at shipment: 1) Set the adjustment mode. key. 7 Select [7. MEMORY READ/COPY]. 3) Select the number from the SUB MENU. 1 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. 2 2) Press the [9] To copy the convergence adjustment data between memories: 1) Set the adjustment mode. key. 7 Select [7. MEMORY READ/COPY].
ADJUSTMENTS 4 Precautions upon use (Adjustment control unit) • Always release the adjustment mode with ADJ OUT button and turn off the power with the POWER 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.
CHAPTER 5. OPERATION AND MAINTENANCE 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 deviate 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.
OPERATION AND MAINTENANCE 2.
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 9:30 and 18:00 weekdays. (For service at other times and on weekends and holidays, contact your salesperson.
CHAPTER 6. PRECAUTIONS 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 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.
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.
PRECAUTIONS 3. CHECKING THE ADJUSTMENTS 1. Preparation for adjustments 1 Connect the power supply as well as the input signal cables and ABL interlock cables (control cables). 2 Arrange the connected cables neatly. 3 After completing 1 and 2 above, turn power ON and leave the system for about an hour for aging. 4 Prepare the signals required for the adjustments. 2. Before adjustments (Setup of conditions) .............................................. P.
PRECAUTIONS 4. CAUTION AND NOTES ON THE MPF INSTALLATION No Item 1 The system has been designed exclusively for permanent installation. The wood cabinets cannot stand the heavy-duty rental use. 2 Stacking of screens ¶ The screens can be stacked in up to 3 stages. (P.25) 3 Installation location ¶ The system should be installed on a level surface or the stands should be provided with the adjustment mechanisms. (P.33) 4 Installation work ¶ Do not mount on the cabinets during installation.
PRECAUTIONS 6. TROUBLESHOOTING Check once again before assuming the set is malfunctioning. The problem may be due to inadequate maintenance, erroneous operation, etc. If the problem persists after the following checks have been made, contact a dealer. Symptom/Equipment Power cannot be turned on./All Video is not displayed./All Video is not displayed. /Multi-video processor The joints are glossy /Multi-projection units Treatment Possible Causes ¶ The power cord is unplugged.
MVP MANUAL 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.
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. ¶ Refer to the following diagram for connections. ¶ MVP RS-232C Settings Baud rate : 2400, 4800 , 9600, 19200 Bit number : 7, 8 Parity : NON , ODD, EVEN Stop bit :1 ,2 : Setting at shipment This setting can be changed using the DIP switches on the panel. Refer to “Chapter 2.(P.17) MVP panel 7 Baud rate switch”.
MVP MANUAL 3. INSTRUCTIONS FOR USING A COMPUTER AS A TERMINAL ¶ 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. ¶ Use commercially available communications software (CCT 98, etc.) ¶ Use the MS-DOS commands (TYPE, COPY, etc.
MVP MANUAL 4. OPERATING MODES 1. Normal 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. 2. Operation mode : 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.
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.
MVP MANUAL 5. MVP VIDEO OUTPUT MODES ¶ The video output formats set by the mode switches 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.
MVP MANUAL 6. ADJUSTMENT FUNCTIONS MVP enables the input and output boards to be adjusted and set by connecting the external computer. The following are items which can be set. (1) MVP settings • For adjusting the picture frame (output image position) (Coarse adjustments:Refer to &P, &Q command, fine adjustment:&G command), and correcting the joinings of the magnified screen. (2) NTSC input board setting * The settings shown below use the RMD-V3104U as an example.
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. &L0 (Refer to &L command.) (3) Set to the magnified screen to be adjusted. ex. M11C22 (@9 ) (Refer to the M command, @ command.) (4) Perform coarse adjustment of the picture frame. ex. &P21 ++–– (Refer to the &P command.
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 ................... (Sets 4-screen magnification of the OPTION input) ...................
MVP MANUAL (2) To perform coarse adjustments of the picture frame [&P2, &Q2 commands] Input: &P2d2h1h2h3, &Q2d2h1h2h3 Explanation: &P2 command: Horizontal direction &Q2 command: Vertical direction d2 : Screen position (1 to 2) h1h2h3 : crew start position data (&P2:000 to 1C5, &Q2:000 to 20A) Although the data is an absolute value, the relative value with the current data can also be specified.
MVP MANUAL (3) To store the picture frame data [&W command] Input : &W0, &W1 Explanation : &W0 : Sets the saved values to the settings at shipment. (Load data using the &L command.) &W1 : Saves the value adjusted. • The parameters saved by the &W command are as follows. • Picture frame data (Data changed by the &G command.) • Screen start position data (Data changed by the &P2 command and &Q2 command.) • Note : When this command is executed, the setting will be saved even if the power is turned off.
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 enlarged display.
MVP MANUAL 4. To indicate the current MVP state [SYS command] Input: SYS Explanation: The current MVP state is shown when SYS is input. (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 L5 INPUT : NO BOARD This is displayed L6 OUTPUT : 4 OUT BOARD countinuously.
MVP MANUAL *6 : Display of remote and manual states 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.
MVP MANUAL (3) Bright compensation [BRT command] Input: BRTd Explanation: Corrects the brightness of the NTSC input board. d : Compensation value 0 to F * : Displays the current value and moves to the sub command mode BRTd • To execute this command, it is necessary 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 .
MVP MANUAL (5) Tint adjustment [TNT command] Input : TNTd1d2d3 Explanation: Corrects the tint of the NTSC input board. d 1 d2 d3 : 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.
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 , NTR , NTD Explanation : • NT : Sets the NTSC input mode. H : 15.734 kHz V : 59.94 Hz Composite video, Y/C output • NTR : Sets the standard speed RGB mode. H : 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.
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 possible by reading the input selector switch (OPTION/V IN) when the power is turned on and executing the command 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.
MVP MANUAL 9. INSTALLING AND REMOVING BOARDS For your safety ¶ Be sure to turn the power off before installing and removing boards. 1 Remove the front panel. 2 Remove the screws fastening the board to the removed. (Fig. C) 3 Lift the ejectors indicated with white arrows. (Fig. B) 4 Gently draw out the board along the rails. 5 Set the front panel back in place. 1 Remove the screws from the front panel, then open the front panel. (Fig.
MVP MANUAL Lane exclusively for control boards = L1 + Insertion lane Lane exclusively for option boards = L2 + Insertion lane Lane exclusively for input boards = L3 + Insertion lane Lane exclusively for output boards = L4 + Insertion lane Power unit Only service personnel should touch this.
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 displayed because it is interlaced.
MVP MANUAL (2) VS board command rules 0. Symbols aaa ddd xxx hh 1. : Command consisting of 3 alphabet letters : Basic commands : Decimals between 0 to 255 consisting of 1 to 3 digits. Can start with 0. Exceptional commands : Depends on each command. : Special data. UP0 to UP9, UPF, DW0 to DW9, DWF, RES. : 2-character hexadecimals between 00 and FF. Basic commands • Executed commands aaa : Executes and ends. ARS, DSN, DSX, DSY, FZN, FZY • Displayed commands aaa : Displays and ends.
MVP MANUAL 2. Exceptional commands • Model data commands TBL : Displays the current model data table. TBLhh : Displays the hh model data table. M : Displays the 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 F, “DATA ERROR” is set. • Frequency commands HFQ : Displays the current model determination H frequency.
MVP MANUAL (3) Tracking adjustment [TRK command] Input : TRKd1d2d3 Explanation: • d1d2d3 : Compensation data 0 to 254 • Eliminates lateral vibration of displayed characters, shaking, and noises. TRK adjustment • 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 : CNTd1d2d3 Explanation: • d1d2d3 : Compensation data 0 to 254 • Use this command to adjust the contrast.
MVP MANUAL (7) B, R clamp adjustment [BLV, RLV commands] Input : BLVd1d2d3, RLVd1d2d3 Explanation : • d1d2d3 : Compensation data 0 to 254 • 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 produced by the MVP matches that of the actual images of the computer. • Tracking may deviate in some cases when clamp level adjustment is performed after TRK adjustment.
MVP MANUAL (10) Horizontal, vertical blanking window position adjustment [HWN, VWN commands] Input : HWNd1d2d3, VWNd1d2d3 Explanation : • d1d2d3 :Compensation data 0 to 254 • HWN :Adjusts the H blanking window position. VWN :Adjusts the V blanking window position. However, the picture inside the blanking window also moves.
MVP MANUAL (12) Full dot number compensation [HFD command] Input : HFDddd Explanation : • d1d2d3: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.
MVP MANUAL (15) Vertical compression filter conversion rate input [LCV command] Input : LCVd1d2d3d4 Explanation : • d1d2=00 to 15 (Add 0 before all numbers below 9) Vertical direction rate before conversion • d3d4=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 d1d2 > d3d4. Both LCV0000 and LCV0101 are not convertible.
MVP MANUAL (18) To select preset model [M command] Input : Mh1h2 Explanation : • Refer to “VS Board Model Selection” described later for the VS board model selection. • Forcible locks the model data preset. Model data No. h1 h2 0 0 Discriminates the model.
MVP MANUAL (19) Model fresh [F command] Input : Fh1h2 Explanation : • Sets back to the model data preset at shipment. Model data No. h1 h2 0 0 Auto 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.
MVP MANUAL (21) Model table reference [TBL command] Input : TBLh1h2 Explanation : hh model data No. (Refer to the M command for the model data No.) • Displays the data table of the model data h1h2 model. When h1h2 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.
MVP MANUAL The relative address and data are as follows. However, relative addresses 20 to 3F are the system reservation range. Relative ADDR 00 01 02 03 04 05 06 07 08 09 0A 0B 0C 0D 0E 0F Data Contents Model data No. Horizontal frequency NNN.
MVP MANUAL (23) Vertical frequency input [VFQ command] Input : VFQd1d2d3.d4d5d6 Explanation : • Directly changes the horizontal frequency of the model data table used for the VS board currently. • Input the frequency using 6-digit decimal numbers. When data input is omitted, the vertical frequency 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.
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.
MVP MANUAL 12. VS BOARD MODEL SELECTION PC signal input Preset PC? (01 to 09) YES NO Locked in Mode 99? NO YES Output in Mode 99 The model may be outside the application range. Auto locked Check frequency, line number using FRQ command Frame, color adjustment Lock preset model data using M command. 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.
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 the VS board is Separate sync > composite sync > Green on sync.
MVP MANUAL 15. RMD-V3104U, RMD-V3104A additional commands [B command] Form: Bh1h2ad1d2d3d4 Function: Controls the designated screen individually Explanation: h1h2 :Screen no. (00~03, FF) 00~03 :Directly designates the VOUT port output (single screen) FF :Designates all of the screens 00 01 02 03 Screen no.
MVP MANUAL [M command] Form: Mh1h2ad1d2 Function: Displays a magnified screen Explanation: h1h2 :Matrix screen no. (11~FF) Indicates the position of the output screen that will become the top-left corner of the magnified display.
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.
MVP MANUAL [D command] Form: Function: Dh1h2a 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 00 01 02 03 Screen no.
