Projector Christie Roadster Hd14k M User Manual
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Section 2: Installation and Setup M Series User Manual2-21020-100009-07 Rev. 1 (07-2012) 2.9.4 Connect RS-422 To control the projector with a computer or other controlling device with RS-422 capability, connect a RS-422 serial communication cable between the controlling device and the RS-422 port on the projector. RS-422 is better suited than RS-232, for serial communication over distances greater than 50 feet. Use the RS-422 port only if your device has RS-422 capability. Always consult the literature provided with your equipment before connecting. Table 2.7 RS422 Pins RS422 PINS PIN #SIGNALDIRECTION Pin 1 DNC N/A Pin 2 RXD- IN Pin 3 TXD- OUT Pin 4 RXD+ IN Pin 5 TXD+ OUT Pin 6 DNC N/A Pin 7 GND N/A Pin 8 NC N/A Pin 9 +12V(500mA) OUT * DNC are do not connect pins. * NC are no connect pins.
2-22M Series User Manual020-100009-07 Rev. 1 (07-2012) Section 2: Installation and Setup 2.9.5 Ethernet Communications See Section 3 Operation for further information about setting up and using a projector connected via Ethernet, and the Serial Command document provided in the Dealer Section of the Christie Website, 020-100224-XX. 2.9.6 Connect Multiple Projectors RS-232 Network: To connect multiple projectors in a network with serial communication: 1. Connect the controller source to the RS-232 IN connector of the first projector in the network. 2. Use another serial communication cable to connect one end to the RS-232 OUT connector and the other end to the RS-232 IN connector of the next projector. 3. Continue this pattern of connection with all projectors in the network. NOTE: The last projector in the network will only have a connection to the RS-232 IN connector. Mixed Network: To control multiple projectors with a computer/controller having an RS-422 interface: 1. Set them all to the same baud rate as your RS-422 controller. NOTE: You must enable this combination of RS-422 and RS-232 in the Communications menu. Set the “Network Routing” option to “RS-232 and RS-422 Joined”, see Section 4 Web User Interface. 2. Chain the projectors together by connecting an RS-232 OUT (Null Cable) of the first projector (already connected to the computer/controller) through the RS-422 port straight thru to an RS-232 IN on the next projector in the chain. Continue connecting projectors in this manner until the last projector in the chain, so that only the last projector has one unused port RS-232 OUT. Communication parameters, such as baud rate, must be set to match the particular controller device, before connecting as a network. See the documentation that came with your controller device to determine the proper
Section 2: Installation and Setup M Series User Manual2-23020-100009-07 Rev. 1 (07-2012) baud rate. See Section 3 Operation for help changing the projector baud rate. To communicate to all projectors, set the Network Routing to RS-232 and RS-422 Joined. NOTES: 1) Connect only high quality, properly wired serial communication cables. 2) Each RS-232 communication cable should be no more than 50 feet in length. Ethernet Network Setup: To add one or more projectors to an Ethernet network, use standard CAT5 cables to connect each projector Ethernet port to a hub on the network. A controller or PC must also be connected to the hub. NOTE: A wireless router can be used to communicate to the projectors via 802.11b/g. Setting the Projector IP Address, Subnet Mask and Gateway: See 3.7 Configuration - Adjust System Parameters and Advanced Controls. Changing the Port Number: On some Ethernet networks, firewall restrictions may require that the port number of the projector be changed from the default of 3002. If so, enter a new port number in the Ethernet Settings menu or include the new port number. 2.9.7 Separate Networks By default, communications which originate from one type of serial controller—RS-232 vs. RS-422 vs. Ethernet—stay on the corresponding network path. A “separate” setting indicates this separation for Network Routing in the Communications menu, see Section 4 Web User Interface. If you are using an RS-422 controller, for example, it will communicate only with the projector to which it is connected unless you change this setting to either RS-232 and RS-422 Joined or All Joined. 2.9.8 Communicate to all Ports To relay all messages to all ports—RS-232, RS-422, and Ethernet—set the Network Routing option in the Communications menu for each projector to All Joined, see Section 4 Web User Interface. This configuration is useful if you are using a non-RS-232 controller with the RS-232 linking available between these projectors.
2-24M Series User Manual020-100009-07 Rev. 1 (07-2012) Section 2: Installation and Setup For example, you may want to use both an RS-422 compatible controller and an Ethernet connected PC for working with a network of projectors linked via their RS-232 IN/OUT ports. To isolate just RS-422 communications, select RS-232 and Ethernet Joined. Only projector 1 will respond to the RS-422 controller. To isolate just Ethernet communications, select RS-232 and RS-422 Joined. Only projector 1 will respond via Ethernet. 2.9.9 System Integration - GPIO Connector The GPIO connector located on the input panel provides a flexible method of interfacing a wide range of external I/O devices to the projector. There are 7 GPIO pins available on the 9pin D-Sub GPIO connector, which are configurable via RS-232 commands. The other two pins are reserved for ground and power - see table below for pin identification. NOTE: The serial cable required for connecting the external device to the projector’s GPIO connector, must be compatible with the external device.
Section 2: Installation and Setup M Series User Manual2-25020-100009-07 Rev. 1 (07-2012) Table 2.8 GPIO Pin 2.9.10Configuring the GPIO The GPIO connector can be configured to automate any number of events using the serial command code GIO. Each Pin is defined as either an input or output depending on the desired outcome. Configure the pin as an input if you want the projector to respond to something the device does and as an output if you want the external device to respond to an action taken by the projector. For example, configure the pin as an output if you want the lighting in a room to automatically dim when the projector is turned on. By using the GIO command, you can also set the state of each output pin as high or low. By default, the state of each pin is high. The voltage applied to pins in the high state is +3.3 V. A low state (or value of 0) will be read on an input pin if the circuit attached to the pin is open. A high state (or value of 1) will be read on an input pin if the circuit attached to the pin is shorted to ground. This corresponds to a switch closing event. Example. Turn room lighting on when the projector is turned off (Assumes a control/automation unit is configured to turn the lights on when pin 2 of its input goes high). NOTE: The strings in the commands refer to pins 2, 3, 4, 6, 7, 8, 9 in order from left to right. GPIO PINS PIN #SIGNAL Pin 1 + 12V (200mA) Pin 2 GPIO 2 Pin 3 GPIO 4 Pin 4 GPIO 6 Pin 5 Ground Pin 6 GPIO 1 Pin 7 GPIO 3 Pin 8 GPIO 5 Pin 9 GPIO 7 (GIO+CNFG “OOOIIII”) Set pin #2, 3 and 4 configuration to output and pin 6, 7, 8 and 9 to input (GIO+STAT “HLXXXXX”) Set pin #2 to high, pin 3 to low and the state of all other pins unchanged (GIO+STAT) Request the state of all pins (GIO+STAT “HLLHLLH”) Reply of pin states - H means pin is high, L means pin is low (GIO+CNFG) Request the configuration of all pins (GIO+CNFG “IIIOOOO”) Reply of pin configurations - pins 2, 3 and 4 are Inputs, pins 6, 7, 8 and 9 are Outputs
2-26M Series User Manual020-100009-07 Rev. 1 (07-2012) Section 2: Installation and Setup 2.10 Projector Communications 2.10.1Status LEDs Looking from the back of the projector, the LEDs represent, from left to right; Lamp 1, Lamp 2, Power, and Status. The LEDs will display the colors as shown below: PROJECTOR STATELEDSLED STATE Hard Boot All All LEDs amber - means please wait Standby Mode Lamp 1 and 2 Off - lamps are off Power Amber - AC is present but projector is off or standby Shutter Green - shutter is open Amber - shutter is closed Warm-up (Powering ON from standby) All LEDs cycle green from left to right Normal Operation Lamp 1 and 2 Amber - lamp time has expired and lamp should be replaced Power Green - projector is powered up and operating normally Shutter Green - shutter is open Amber - shutter is closed Cool-down All LEDs cycle amber from left to right Error Lamp 1 and 2 Amber - lamp time has expired and lamp should be replaced Flashing Red - lamp has malfunctioned Power Flashing Red - error has occurred. Details are displayed on the status display Software Upgrade in progress All The pattern will alternate between: Amber and Off Lamp Regeneration in progress Lamp 1 and 2Flashing Green - the lamp is being switched off for its regeneration period to extend lamp life (typically 15 minutes every 24 hours) Power Green - on -OR- Amber - standby Shutter Green - shutter is open NOTE: A condition occurs on the first power on after a software upgrade, and is indicated by all the following: • The Status LEDs are cycling green •The LCD displays the warning “Image Processor Upgrading” •The LED on the Image Processor card flashes green •The Web page shows a warning that the Image processor card is upgrading. When this occurs, the projector should not be AC power cycled and the Image Processor card should not be removed.
Section 2: Installation and Setup M Series User Manual2-27020-100009-07 Rev. 1 (07-2012) 2.11 Connect Sources Sources are connected to the input panel located at the back of the projector. The Input Panel allows one image processor board and up to 4 input cards to be inserted. The input cards are hot swappable, meaning they may be plugged in and out while the projector is active. The image processor should only be replaced when the projector is off or when it is in standby mode. There are 6 option input cards available: • High-Definition Multimedia Interface/Twin HDMI (High-Definition Multimedia Interface) • Analog BNC • Dual 3G/HD/SD-SDI (Serial Digital Interface) • Dual Link DVI • Video Decoder • DMX512 Interface These cards slide into the option slots located at the rear of the projector and can be used in any slot. One or more of the option slots may be used with any combination of option cards, including multiples of the same card type. There may be up to 2 active inputs displayed at any time, either from one card or from 2 cards. These 2 inputs can be routed to outputs or to the main or PIP video image. 2.11.1LEDs LEDs are located on the faceplate of each input card and indicate the following: • Power ON - Green • Signal Valid - Green • Signal Invalid - OFF 2.11.2Twin HDMI Input Card This card accepts one or two HDMI inputs, and can route one or both inputs to the card’s outputs. Any input from any card can be looped out of this card. The output label ‘1-OUT’ loops out the main image being displayed on the projector. The output labelled ‘2-OUT’ loops out the image displayed in the picture in picture (PIP). Any input from any optional input card can be looped out of this card. There are 5 LEDs on the module faceplate. The PWR on the left side indicates power is applied, and that the card is initialized. The LEDs to the right side of the corresponding connectors indicate that a valid signal is detected. In the case of the output, the LED indicates a signal is currently being looped out.
2-28M Series User Manual020-100009-07 Rev. 1 (07-2012) Section 2: Installation and Setup 2.11.3Analog BNC Input Card This card accepts several types of sync modes. In 5-wire sync mode all 5 BNC connectors are used. If H and V connectors are swapped, this card will still operate normally. An analog graphic source such as a VGA from a PC can be connected. The card can operate in 4-wire sync mode, which accommodates 4-wire RGBC sources. The composite sync cable can be connected to either the H/C BNC or the V BNC. The card supports 3-wire RGB or YPbPr sync modes, sometimes called sync-on-Green (SOG). In this mode the H/C and V connectors are not used. The sync is connected to the Green/Y BNC connector. This card offers no loop out capability. There are 2 LED’s on the module faceplate. PWR indicates power has been applied and the card is initialized, signal indicates a valid signal has been detected. 2.11.4Dual 3G/HD/SD-SDI Input Card This card accepts both standard-definition (SD) and high-definition (HD) serial-digital-interface (SDI) signals from 1 of 2 standard-definition (SD) or high-definition (HD) 3GHz SDI sources. Both single-link HD and dual-link HD signals are accepted. The card has two SD/HD-SDI outputs, each of which is “loop through” for its respective input. There are 3 LEDs on the module faceplate. PWR indicates power has been applied and the card is initialized, and the two signal LEDs indicate a valid signal has been detected on the respective input. 2.11.5Dual Link DVI Input Card This card accepts a single DVI signal with or without High-Bandwidth Digital Content Protection (HDCP) video signal over a DVI-I connector and analog video signals over the DVI-I or 15-pin VGA connector. The module can simultaneously support a digital signal on the DVI input and an analog signal on the VGA port, however it does not support 2 analog signals at the same time. There are 4 LEDs on the module faceplate. PWR indicates power is applied and the card is initialized, and the other 3 on the right side of the corresponding connectors indicate that a valid signal has been detected.
Section 2: Installation and Setup M Series User Manual2-29020-100009-07 Rev. 1 (07-2012) 2.11.6Video Decoder Input Card This card accepts and decodes standard definition (SD) video. This includes CVBS (composite video), S- Video, and component sources. This card supports as many as 6 video signals, four of them on BNC connectors and two on 4-pin mini-DIN connectors. Each mini-DIN connector accepts 1 S-Video signal. The first BNC accepts composite video (only), while the remaining three BNC’s can be grouped to allow one of the following combinations: • 3 CVBS sources on 4, 5 and 6 • 1 CVBS source, 1 S-Video source: Luma (Y) connected to 4(Sy) and Chroma (C) connected to 6 (Sc) • 1 YPbPr source: component signal on 4 (Pr), 5 (Y) and 6 (Pb) The video decoder input card has 8 LED indicators. The PWR LED indicates that the module is installed properly, and has been successfully configured. The YPbPr LED indicates that a valid component signal has been detected on inputs 4, 5, and 6 (Component input grouping must also be selected in the projector menu, see Section 3 Operation). The remaining LEDs are each associated with one of the inputs, and indicate a valid signal has been detected on that input. 2.11.7DMXC Interface Card The DMXC card is a communication interface which allows the projector to be controlled using the standard E1.11 USITT DMX512-A protocol (DMX512-A 2008). DMX-512 is a serial protocol which is used for controlling lighting and staging equipment from a lighting console or similar host device. ArtNET (defined by Artistic Licenses Art-Net II Specification) is an Ethernet implementation of the DMX protocol. The M Series projector supports the DMX protocol through 2 data input interfaces, 1) a DMX card and 2) ArtNET through the Ethernet connector. The DMXC card is not an input interface for video signals, but it plugs into a standard input card option slot. The card can always be active, even when the projector is in standby mode. Only one DMXC card will be allowed per system. If more than one card is installed, only the first card will be activated. The card has two 5-pin XLR connectors - 1 (input) male and 1 (output) female. There are 2 LEDs on the faceplate of the card: The green power LED which is on when the card is powered, and the green termination LED which is on when termination is enabled. Input termination (2 Watt, 120 Ohm) is required on the last DMXC card in a loop through configuration (i.e. only on the last projector). Termination may be either hardware (by plugging in a termination dongle, etc) or may be switched by software, but should not be both. Software termination is only in place when the projector has AC applied. If there are cases where the network is required to be terminated without AC applied to the last projector, then a hardware terminator should be used. See Section 3 Operation for information about setting up the ArtNET and DMX interfaces.
2-30M Series User Manual020-100009-07 Rev. 1 (07-2012) Section 2: Installation and Setup 2.11.8Connect Tiled Projectors Wiring Requirements A distribution box or digital signal switcher may be used to feed the same video signal to all the units of the tiling array. FIGURE 2-7 USE OF DISTRIBUTION BOX Christie loop-through may be used to set up a tiling array (see Figure 2-7 to Figure 2-12). The system allows wiring (providing the HDCP requirement is met) when HDCP is used by the source. The cascade level of devices must be no more than 7 levels deep. NOTE: If single wire loop-through is used (See Figure 2-11), then PIP is not supported. The wiring diagrams are provided to: • Meet the HDCP requirement, • Minimize the length of HDMI cables to be used, and • Balance the connection tree to ensure the level of loop-through is minimized. NOTE: This is to enable the downstream projectors to finish source switches in a minimum amount of time. (Applicable to arrays with HDCP only)