LED透明屏诺瓦科技LED控制卡MCTRL300产品规格使用手册大全.doc
MCTRL300 Independent Control Card Product Description Copyright © 2017 *i'an NovaStar Tech Co., Ltd. All Rights Reserved. No part of this document may be copied, reproduced, e*tracted or transmitted in any form or by any means without the prior written consent of *i'an NovaStar Tech Co., Ltd. Trademark is a registered trademark of *i'an NovaStar Tech Co., Ltd. Statement You are wele to use the product of *i'an NovaStar Tech Co., Ltd. (hereinafter referred to as NovaStar). This document is intended to help you understand and use the product. For accuracy and reliability, NovaStar may make improvements and/or changes to this document at any time and without notice. Any problem in use or any good suggestion, please contact us through ways provided in the document. We will do our utmost to solve the problems and adopt the suggestions after evaluation as soon as possible.novastar-led.i MCTRL300 Independent Control CardProduct Description Change HistoryChange History Version Release Date Description 2017-10-13 First release iiMCTRL300 Independent Control CardProduct Description ContentsContents Change History . ii Contents . iii 11 Overview . 2 Connectors . 2 Operations . 33 3.1 Hardware Connection . 3 3.2 Software Operation . 3 Screen Configuration . 3 Adjustment of Sending Cards Resolution and Refresh Rate . 7 Redundancy Settings . 8 4 FCC Caution . 11 iii1 Overview1 Overview The MCTRL300, one of the M3 series independent control cards, supports video and audio input. After decoding and data processing, videos and audios can be sent to the screen through Ethernet ports. A single card supports resolutions up to 2048×668. It municates with the puter through the USB port, which makes it easy to use. Features l DVI video input. l USB control allowing users to cascade multiple MCTRL300 units for uniform control. l Audio input. l Two Ethernet outputs. l Supported resolutions of a single card: 1280×1024, 1024×1200, 1600×848, 1920×712, 2048×668. l One light sensor port.2 Connectors2 Connectors Figure 2-1 Connectors of the MCTRL300 3 Operations With the MCTRL300, users can configure multi-function cards (such as adding, deleting, and renaming multifunction cards), configure peripherals, refresh the monitoring data of multifunction cards, and manage power supply. 3.1 Hardware Connection If the resolution of the screen is less than 1,300,000 pi*els, use a single MCTRL300 to load the screen. Hardware connection is shown in the figure below. Figure 3-1 Hardware connection diagram (single MCTRL300) 3.2 Software Operation Screen Configuration Method of Receiving Card Connection: The MCTRL300 has two Ethernet ports. Each port can load receiving cards and the position of these receiving cards is not restrained (They can be distributed from top to bottom, or from left to right). The connection diagram for mapping the cabinets must be seen from the front of the screen. If each cabinet has the same loading capacity, choose simple screen configuration. Otherwise, choose standard or ple* screen configuration based on specific situations. The following operation method uses the standard screen configuration as an e*ample. Screen Configuration Method: Step 1 Start NovaLCT-Mars and click Screen Configuration on the home page Figure 3-2 NovaLCT-Mars home page Step 2 Select current operation munication port. Then, select Configuration Screen and click Ne*t. Figure 3-3 Selecting munication port Step 3 On the Screen Configuration page, click the Screen Connection tab and set Columns and Rows of receiving cards. Figure 3-4 Setting columns and rows of receiving cards Step 4 In the Sending Card Number area, select the corresponding sending card. Step 5 In the Ethernet port No. area, select the corresponding Ethernet port. Step 6 Click a receiving card connected to the sending card, and that receiving card is defined as the first receiving card. Then, in the Receiving Card Size area, enter the corresponding width and height. After width and height settings, click the receiving card connected to the first receiving card, and that receiving card is defined as the second receiving card. The rest configuration can be done in the same manner. Step 7 The loading capacity of each receiving card can be the same or different. If you click Apply to the current port, the loading capacity of all receiving cards corresponding to the selected Ethernet port will be set as the loading capacity that you set currently. You can also select Set Blank and send the configuration information to the receiving card or save it to the local file. Step 8 Repeat Step 5, Step 6 and Step 7 to set receiving cards corresponding to other Ethernet ports. Step 9 Repeat Step 4, Step 5, Step 6, and Step 7 to set receiving cards corresponding to other sending cards. Step 10 After configuration, click Send to HW to send the configuration information to the sending card, or click Save to File to save the configuration information to the local file. Figure 3-5, Figure 3-6, Figure 3-7 and Figure 3-8 are display pages after configuration. The topological graph of each receiving card shows the receiving card No., sending card No., Ethernet port No, and receiving card size. Figure 3-5 Configuration of receiving cards loaded by Ethernet Port 1 of Sending Card 1 Figure 3-6 Configuration of receiving cards loaded by Ethernet Port 2 of Sending Card 1 *I'AN NOVASTAR TECH CO.,LTD.Figure 3-7 Configuration of receiving cards loaded by Sending Card 1 Figure 3-8 Configuration of receiving cards loaded by Sending Card 2 Adjustment of Sending Cards Resolution and Refresh Rate l When the resolution of the DVI connected to the sending card is different from the resolution saved in the sending card, the display on the screen will be abnormal, that is, the display will be zoomed in or out, or the image in the display will show ghosting. l When the refresh rate of the DVI connected to the sending card is different from the refresh rate saved in the sending card, the display on the screen will flash, or the image will not be displayed. If the resolution of the DVI connected to the sending card cannot be changed, you can change the resolution and refresh rate of the sending card to achieve a normal display effect. Operation Procedures Step 1 On the Screen Configuration page, click the Sending Card tab. Then, adjust the sending cards resolution and refresh rate. Figure 3-9 Adjustment of the sending cards resolution and refresh rate l Sending Card Resolution: The resolution saved in the current sending cardl Graphics Output Resolution: The graphics cards resolution set currentlyl Refresh: Refresh and display the sending card resolution and graphics output resolution.l Resolution: The resolution of the sending card that you want to setl Refresh Rate Times: The refresh rate of the sending card that you want to setlCustom resolution: Customize a sending card resolution.Step 2 After you set the resolution and refresh rate times in the Source Configuration area, click . Step 3 On the PC, set the graphics card mode to the single display mode (not to copy or e*tend). Then, set the graphics card mode to the original display mode (Doing so will avoid unplugging and plugging the DVI connection cable because the graphics card needs to identify sending card information again, such as resolution, etc.) If the resolution has changed, you need to send the performance parameters again on the receiving card page. Note: l If the resolution of the DVI that is finally connected to the sending card is different from the resolution of the puter which configures the M3 series control system, you need to set the puter resolution as the resolution of the DVI which is finally connected to the sending card after you finish configuring the control system. l If the refresh rate of the DVI that is finally connected to the sending card is different from the refresh rate of the puter which configures the M3 series control system, you need to set the puter refresh rate as the refresh rate of the DVI which is finally connected to the sending card. You also need to send the sending cards performance parameters again. 3.2.3 Redundancy Settings The MCTRL300 does not support redundancy among sending cards. Redundancy of Ethernet ports of the sending card can form the receiving cards into a loop. If an Ethernet cable in the loop is disconnected, the backup device can replace the primary device in a timely manner, so as to ensure that the screen works normally. Figure 3-10 Redundancy settings l Serial Number of Primary Sending Card: The serial number of the sending card that is set as the primary device l Serial Number of Primary Port: The serial number of the Ethernet port used by the primary sending card l Serial Number of Backup Sending Card: The serial number of the sending card that is set as the backup device l Serial Number of Backup Port: The serial number of the Ethernet port that is used by the backup sending card l Refresh: Refresh the information of the current backup device. l Send: Send the redundancy information to the hardware. l Add Add a redundancy record.: l Edit Edit a redundancy record.: l Delete: Delete a redundancy record. Procedures of Redundancy Settings Step 1 Click to display the Redundancy Settings page, as shown in figure below. Figure 3-11 Adding redundancy information Step 2 Enter the serial number of primary sending card, serial number of primary port, serial number of backup sending card and serial number of backup port. Then, click . Note The Ethernet ports of the same sending card can be set as the backup port for each other. As shown in Figure 3-11, the Ethernet Port 2 of Sending Card 1 is set as the backup port for the Ethernet Port 1 of Sending Card 1. Step 3 Click to send the redundancy information to the hardware. 4 FCC Caution4 FCC Caution Any changes or modifications not e*pressly approved by the party responsible for pliance could void the user's authority to operate the equipment. This device plies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Note: This equipment has been tested and found to ply with the limits for a Class A digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a mercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio munications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own e*pense.