Ivp-3000 Series Integrated Receiver Decoder

Transcript

IVP-3000 Series Integrated Receiver Decoder REFERENCE GUIDE Revision History Issues of this Reference Guide are listed below: Version Date Mainboard Version Comments V1.1.0 15/02/2016 V2.4.2.1000 Updated to Version 2.4.2.1000 Contents Contents Chapter 1 Introduction ................................................................................................................. 6 1.1 Introduction ....................................................................................................................... 6 1.2 Front Panel ........................................................................................................................ 7 1.2.1 Power...................................................................................................................... 7 1.2.2 USB Port ................................................................................................................ 7 1.2.3 Control port ............................................................................................................ 7 1.2.4 Main Display .......................................................................................................... 7 1.2.5 Indicator Lights ...................................................................................................... 7 1.2.6 Keypad ................................................................................................................... 8 1.3 Rear Panel ......................................................................................................................... 8 Chapter 2 Installing the Equipment ............................................................................................ 9 2.1 Read This First! ................................................................................................................. 9 2.2 Mounting and Ventilation .................................................................................................. 9 2.2.1 Fixing and Rack Mounting..................................................................................... 9 2.2.2 Ventilation .............................................................................................................. 9 2.3 Module Introduction........................................................................................................ 10 Chapter 3 Getting Started .......................................................................................................... 12 3.1 Introduction ..................................................................................................................... 12 3.2 How to Connect Up the Unit........................................................................................... 12 3.3 How to Power Up the Unit .............................................................................................. 13 3.4 How to Set the Unit IP Address ...................................................................................... 13 3.5 How to Configure Ethernet Control Port ........................................................................ 13 Chapter 4 Front Panel Control .................................................................................................. 15 4.1 Introduction ..................................................................................................................... 15 4.2 Using the Front Panel Controls ....................................................................................... 15 4.2.1 Keyboard Lock ..................................................................................................... 15 4.2.2 Power up............................................................................................................... 15 4.3 Basic Operation Logic..................................................................................................... 16 Contents 4.4 IP Settings ....................................................................................................................... 17 4.5 DVB-S/S2 Receiver Module (Tuner-S/S2) ..................................................................... 18 4.6 ASI I/O Module (IO-ASI) ............................................................................................... 19 4.7 420 HD Digital Decoder Module (DDO-420) ................................................................ 20 Chapter 5 Web Control............................................................................................................... 22 5.1 Using the Web Graphical User Interface......................................................................... 22 5.2 Web browser configuration ............................................................................................. 22 5.3 IVP-3000 Frame Setting ................................................................................................. 23 5.3.1 Account ................................................................................................................ 23 5.3.2 Network ................................................................................................................ 24 5.3.3 Date & Time ......................................................................................................... 25 5.3.4 Update &Reboot................................................................................................... 25 5.3.5 Device Information .............................................................................................. 29 5.4 Input Setting .................................................................................................................... 30 5.4.1 IPASI Input I/O Module (IO-IPASI-I) ................................................................. 30 5.4.2 ASI I/O Module (IO-ASI) .................................................................................... 33 5.4.3 DVB-S/S2 Receiver Module (Tuner-S/S2) .......................................................... 34 5.4.4 DVB-T Receiver Module (Tuner-T) .................................................................... 36 5.4.5 CAM Descrambling Module (CAM) ................................................................... 37 5.5 TS Processor Setting ....................................................................................................... 38 5.6 R2TP Processor Setting ................................................................................................... 42 5.6.1 Stream Port Setting .............................................................................................. 42 5.6.2 Transport Streams Setting .................................................................................... 43 5.6.3 Ping Tools ............................................................................................................. 48 5.6.4 Software Upgrade................................................................................................. 49 5.7 Output Setting ................................................................................................................. 50 5.7.1 422 HD Digital Decoder Module (DDO-422) ..................................................... 50 5.7.2 420 HD Digital Decoder Module (DDO-420) ..................................................... 54 5.7.3 IPASI Input I/O Module (IO-IPASI-I) ................................................................. 62 5.7.4 ASI I/O Module .................................................................................................... 65 5.8 Alarm ............................................................................................................................... 66 Contents Annex A - AR Convert ................................................................................................................ 67 Annex B – Specifications ............................................................................................................ 70 Introduction Chapter 1 Introduction 1.1 Introduction IVP-3000 is a broadcasting level multimedia processing platform. It adopts 1RU and a modular design with 6 slots in it. By installing different modules, it could realize the following various applications: satellite signals receiving, H.264/MPEG-2 HD/SD video encoding and decoding, CA or BISS descrambling, real-time transmission stream monitoring, program multiplexing, channel backup, etc. The IVP platform is based on CPCI architecture with power redundancy design and hot swapping functions. If one function module is out of order, the users only need to replace the corresponding function cards, the whole process no need to cut off the power, and other function modules will not be affected. The IVP-3000 Series Integrated Receiver Decoder is based on IVP platform, adopting HD/SD decoding module, Tuner module, CA module, ASI I/O module and IP I/O module, to achieve an integrated receiver decoder with high flexibility, high density, high performance, high scalability and high reliability. The following is a summary of the features of IVP-3000 Series Integrated Receiver Decoder: （1） High Level Performance  Support H.264/MPEG-2 HD/SD decoding  Support H.264 4:2:2/4:2:0-10bit/8bit chroma decoding  Support multi-channel video monitorin  Support IP/ASI redundancy back-up output  Support program multiplexing and output  Support BISS 1/E descrambling （2） High Density  Up to 5 channel HD/SD decoding  Up to 10 Channel DVB-S/S2 RF signal receiving  Up to 32 Encrypted Programs Descrambling  Up to 4 HD program or 16 SD program decoding and monitoring （3） High Scalability Introduction  Modular design with various modules, it could be configured with different module based on needs  Upgrade through simply adding or replacing with new module to save the upgrading cost 1.2 Front Panel The front panel of the unit consists of a power, an USB Port, an Ethernet Control port, a main OLED display screen, four Indicator Lights and six touch buttons. Figure 1.1 Front Panel 1.2.1 Power The ON/OFF button, after the device powered, press this button to start the device. 1.2.2 USB Port Mount USB flash disk to save or apply the configuration file for disaster recovery. 1.2.3 Control port Ethernet control port for web control. 1.2.4 Main Display Control and status information is displayed on an OLED display. 1.2.5 Indicator Lights Front panel LEDs indicate system status (Top->Bottom):  LED1.Power1 status: Green:OK; Red:Error;  LED2.Power2 status: Green:OK; Red:Error;  LED3.Temprature: Green:OK; Red:Over 50℃;  LED4.Alarm:Green:No unread error messages;Red:Error encountered; Introduction 1.2.6 Keypad Include up, down, left and right direction keys, as well as “Enter” and “Esc” button. 1.3 Rear Panel According to the power type of IVP-3000, the rear panel of IVP-3000 includes 2 types: 1) Chassis-R-H (Hot-Swap Redundancy Power) Figure 1.2 Chassis-R-H Rear Panel The Chassis-R-H rear panel consists of six slots (U1, U2, U3, L1, L2 and L3), 2 hot-plug power. You can insert different modules according to user needs. 2) Chassis-R (Internal Dual Redundancy Power) Figure 1.3 Chassis-R Rear Panel The Chassis-R rear panel of the unit consists of six slots (U1, U2, U3, L1, L2 and L3), Power Interface, Power Switch and Fan. You can insert different modules according to user needs. Note: Keep the vent clear to ensure the rejection of heat. Installing the Equipment Chapter 2 Installing the Equipment 2.1 Read This First! This Reference Guide is written for operators / users of the IVP-3000. It describes the unit’s functions and operation. The Reference Guide is written to assist in the installation and day-to-day operation and care of the unit. Maintenance information requiring the covers to be removed is not included. 2.2 Mounting and Ventilation 2.2.1 Fixing and Rack Mounting The equipment is designed for fixed use only and has been shipped with fixing brackets suitable for a standard 19-inch rack. When installed in a rack, it should be secured using the fixing brackets. In addition, support shelves must be used to reduce the weight on the brackets. Ensure it is firmly and safely located and it has an adequate free-flow of air. Slide the unit onto the chassis supports and affix to the rack by means of an M6 x 18 mm panhead screw in each corner. A freestanding unit should be installed on a secure horizontal surface where it is unlikely to be knocked or its connectors and leads disturbed. 2.2.2 Ventilation Side openings in the unit, as well as rear-mounted cooling fans, are provided for ventilation. They ensure reliable operation of the product and protect it from overheating. The openings of the fans must not be blocked or covered. Installing the Equipment 2.3 Module Introduction 422 HD Digital Decoder Module (DDO-422) 420 HD Digital Decoder Module (DDO-420) Function:1 channel HD 4:2:2/4:2:0 H.264/MPEG-2 decoding Function: 1 channel HD 4:2:0 H.264/MPEG-2 decoding Interface: Interface: HD AVS+ Decoder Module (DDO-AVS+) Multi-channel Decoder & Monitor (MDO-420) Function: 1 channel HD/SD AVS+ decoding Function: Multi-channel decoding & monitoring Interface: Interface: HD AVS+ Trancoder Module (TRC-AVS+) Multi-Channel H.264 Transcoding Module (MHDT-420) Function: 1 channel HD/SD AVS+ transcoding Function: Multi-stream H.264 HD/SD transcoding Interface: DVB-S/S2 Receiver Module (Tuner-S/S2) DVB-T Receiver Module (Tuner-T) Function: DVB-S/S2 satellite signal receiving Function: DVB-T terrestrial signal receiving Installing the Equipment Interface: Interface: ASI I/O Module (IO-ASI) IPASI I/O Module (IO-IPASI) Function: 4 ASI input or output, support various pattern Function: 2 IP input & output, 2 ASI input or output Interface: Interface: CA Descrambling Module (CAM) Multi-Protocol IP Transmitting Module (SMIP) Function: CA descrambling Function: Multi-Protocol IP Transmitting over Open Internet Interface: Getting Started Chapter 3 Getting Started 3.1 Introduction Due to the number of different ways the IVP-3000 Series can be used, it is impossible to give precise setting up instructions for every possible working scenario. This chapter, therefore, gives general guidance and principles on how to power up and set up your unit for operation and describes the more common operations you will want to perform. For details of all Front Panel menus and controls, see Chapter 4, Front Panel Control. For details of all Web Graphical User Interface menus and controls, see Chapter 5, Web Control. 3.2 How to Connect Up the Unit See Chapter 2, installing the Equipment for all connector details. Figure 3.1 Equipment Connection Diagram To connect up the unit(s): Connect signal input connectors (for your input Transport Streams) to your local area network if IP/ASI inputs are to be used. Connect signal output connectors (for your output Transport Streams) to your local area network if IP/ASI outputs are to be used. Connect computer control connectors Web Control to your local area network. Both connectors are in the same subnet mask. Connect single or dual AC power connectors, depending on the option purchased, to the power supply. Connect your signal cables to/from your option cards, depending on which options are fitted to Getting Started your unit, as required. 3.3 How to Power Up the Unit To power up the unit(s): With all signal and power cables connected as required, through equipment power supply. Wait for unit to initialize completely. 3.4 How to Set the Unit IP Address Setting the IP address of a unit is accomplished using the front panel menus. For a full description of these menus, see Chapter 4, Front Panel Control. To set the IP address of the unit(s): 1. Ensure the unit is fully powered up. 2. On the OLED front panel, using the touch button, go to the IVP-3000 Frame>IP Setting option. 3. Press Enter button to select. 4. Using the touch buttons, set the IP address, subnet mask and gateway address. 5. Press the Enter button to save or Esc to discard the changes. Note:1. It may be necessary to set the IP address, gateway address and Virtual IP address to 0, and to set a subnet mask in order to allow the IP address to be changed. 2. IP Addresses on the unit must adhere to RFC3330 range of restrictions as listed in the following table of allocated IP addresses. 3. Make sure that the control network and data networks do not conflict. 3.5 How to Configure Ethernet Control Port The Base Chassis has control port that support IEEE 802.3 100 BaseTX and 1000 BaseT protocols. Figure 3.2 Control Port The Ethernet control ports are used to connect the unit to a control computer for control through Getting Started a web browser. Ethernet Control Port Parameters A single IP port is defined for all Ethernet control traffic to and from the chassis. The physical ports used for Ethernet control are by default the control Ethernet ports. The control ports can raise an alarm during abnormal operational conditions. Front Panel Control Chapter 4 Front Panel Control 4.1 Introduction This chapter describes the features and options provided by the Front Panel menus for controlling the IVP-3000. Note: After powering up (see Chapter 3, Getting Started), wait for initialization to complete (approximately 2 minutes, depending on the number of options fitted in the chassis)before attempting to use the front panel menus and controls. 4.2 Using the Front Panel Controls The front panel of the unit consists of a power, an USB Port, an Ethernet Control port, a main OLED display screen, four Indicator Lights and six touch buttons. The unit can be controlled through the front panel touch buttons. Figure 4.1 IVP-3000 Front Panel 4.2.1 Keyboard Lock The controls are locked after a time of inactivity. The keys can be unlocked by click “▲”,“◄ ”, “▼ ” ,“ ► ” in turn, then in this sequence as instructed “Unlocked”on the front panel. 4.2.2 Power up Power up IVP-3000, OLED screen will display as follows: Front Panel Control IVP Power on the device, the screen displays company logo. Starting 0% Dev Name < IVP > Control IP Address <192.168.000.159> Serial Num < 10001 > ▶ IVP Frame Input_U1_HD Enc Input_U2_SD Enc Output_L2_IP_ASI After about 60s, the screen displays device status After click “Enter” button, the screen displays device setting tree. Figure 4.2 Booting Front Panel Display Process 4.3 Basic Operation Logic Figure 4.3 Front Panel Display There are 6 buttons on the front panel. “▲”,“▼ ” Select parameters to watch or configure. “►”,“◄ ” Adjust configurable values in editable mode. “Enter” button Enter editable mode or navigate to a sub menu. “ESC” button Exit editable mode or go back to a parent menu. Users may need to unlock the front panel, and then refer to the menu structure of the front panel display, with the button to complete the device parameter settings, parameter queries and other operations. Front Panel Control 4.4 IP Settings Figure 4.4 IP Settings Table 4.1 IP Settings Item Option Local IP Net Mask Gateway Comment Frame IP Setting IP Settings of Device Control Port. Front Panel Control 4.5 DVB-S/S2 Receiver Module (Tuner-S/S2) Figure 4.5 Tuner-S/S2 Settings Table 4.2 Tuner-S/S2 Settings Item Option Comment Frequency Default: 3840 Symbol Rate Default: 27500 LNB Low Default: 5150 LNB High Default: 0 Default LNB Tone Tuner IN 22KHz Tone off OFF Polarity Horizontal Vertical L-Band Band Type C-Band Ku-Band Front Panel Control 4.6 ASI I/O Module (IO-ASI) Figure 4.6 IO-ASI Settings Table 4.3 IO-ASI Settings Item Option Comment ASI 1 IN Display status of ASI 1 input ASI 2 IN Display status of ASI 2 input Input ASI Front Panel Control 4.7 420 HD Digital Decoder Module (DDO-420) Figure 4.7 DDO-420 Settings Table 4.4 DDO-420 Settings Item Source Option Comment —— Select the source of the decoder ON AV Sync Program OFF Ser List —— Video PID Select the service of the Source to decode Front Panel Control Pri-Aud PID Sec-Aud PID Set the output format as the codec format Auto 480i59.94Hz 576i50Hz Video Out Format Setting 720p50Hz 720p59.94Hz 720p60Hz 1080i50Hz 1080i59.94Hz 1080i60Hz ON Audio Out Mute OFF Setting Audio Level from Source automatically Web Control Chapter 5 Web Control 5.1 Using the Web Graphical User Interface The IVP-3000 is designed to be configured and controlled by its own web graphical user interface. The Graphical User Interface uses widget based architecture. This section describes the functions and elements. 5.2 Web browser configuration Use an Internet web browser running on a personal computer (PC) to take advantage of the remote setup capability. Below is the guide you need to follow:  Prepare a computer with Internet web browser. Tips: IE version 8.0 or above Firefox version 6.0.2 or above are highly recommended.  Connect your PC to the management network interface of the device via Ethernet.  Confirm computer IP address, make sure that the device and the computer in the same network segment  Input the device IP address in the web browser, it will displays the Login page, as follows: Figure 5.1 Login Web Control Type in the Account and Password to login. (Default Account: admin Default Password: 123456) 5.3 IVP-3000 Frame Setting When users get a successful user authentication at the IVP-3000 login prompt, the Home page appears as shown below. Figure 5.2 Home Home page displays the basic info of IVP-3000 device, including module, power, fan and temperature. It also includes real-time input/output statistics. Click to view status information of selected module. Click in Basic Settings bar to configure the basic settings of IVP-3000 device. 5.3.1 Account Click in Account bar to modify the password to login. Web Control Figure 5.3 Account The password need to be in 6~16 characters. Click to save the configuration. Click to refresh current page. 5.3.2 Network Click in Network bar to configure the device IP address. Figure 5.4 Network  IP Address: Device IP Address setting.  Subnet Mask: Subnet Mask setting.  Gateway: Default Gateway setting. User can also configure device IP through panel control, please refer to Chapter 4 for more info. Web Control 5.3.3 Date & Time Click in Date & Time bar to configure the date and time info of the device. Figure 5.5 Date & Time  Mode: Enable/Disable  NTP Server: Net Mask setting.  Time Zone: Default Gateway setting.  Synchronous: The cycle used to synchronous with NTP server 5.3.4 Update &Reboot Click in Update & Reboot bar to update the main board or reboot the device. You may need to input the password again for verification. Web Control Figure 5.6 Update & Reboot 1. Upgrade To upgrade the main board, click to select the upgrade package in PC and click to submit it. Figure 5.7 Confirm Click to confirm the upgrade. Web Control Figure 5.8 Upgrade The upgrade will take about 5 minutes, please do not leave this page or power off. After the upgrade is finished, web will refresh automatically. 2. Reboot Click to reboot the device. Figure 5.9 Reboot The reboot will take about 3 minutes, please do not leave this page or power off. After the reboot Web Control is finished, web will refresh automatically. 3. Factory Reset Click to recover to the default settings. Figure 5.10 Factory Reset The reset will take about 5 minutes, please do not leave this page or power off. After the reset is finished, web will refresh automatically. Web Control 5.3.5 Device Information Click in Device Information bar to view the basic info of device and modules, including Hardware Version(HW), Software Version(SW), FPGA Version, Serial Number etc. Figure 5.11 Device Information Web Control 5.4 Input Setting Click Inputs in main menu to open the Input Setting page. 5.4.1 IPASI Input I/O Module (IO-IPASI-I) Click in IP In*2 ASI In*2 bar to configure input settings of IO-IPASI-I module. IO-IPASI-I support IP input by 2 Ethernet ports, and ASI input by 2 channels. 5.4.1.1 IP settings Select IP Settings column to configure network settings of Ethernet ports. Figure 5.12 IP settings  IP Address: Ethernet port IP address setting.  Subnet Mask: Ethernet port netmask setting.  Gateway: Ethernet port gateway setting.  Work Mode: Ethernet port work mode setting: Auto or Manual. In Auto mode, Ethernet speed and duplex mode will be configured automatically. In Manual mode, Ethernet speed and duplex mode will be configured by user. Click to save the configuration. Web Control Click to refresh current page. Tips: This IP settings is of same validity as in IP Out*2 bar (Please refer to Chapter 5.7.3). IP Settings will be auto-synchronized as one of them is changed. 5.4.1.2 IP Channel Select IP Channel1/2/3/4 column to configure IP input streams. In IP Channel 1/2/3/4, select IP Input in Input Mode for IP input. Figure 5.13 IP Channel Table 5.1 IP Channel Parameters Item Input Mode Option Comment IP1 input Select input port for current Channel. IP2 input Matching IP1/2 with IP stream port1/2. ASI input ASI port is only used at channel1/2. Green icon: the port is receiving the stream IP Channel Status —— Red icon: Port is not receiving any stream Unicast For Multicast, Multicast Address need Multicast filled in. Work Mode Web Control Port 1024~65535 Input stream IP port UDP Protocol Transport protocol RTP Buffer 0~1000ms Buffer time to eliminate the jitter. 5.4.1.3 ASI In Select ASI In1/2 column to configure ASI input source. In ASI In 1/2, select ASI Input in Input Mode for ASI input. Figure 5.14 ASI In If the indicator in ASI In is green, it means the port is receiving the ASI source. If the indicator in ASI In is red, it means the port is not receiving any ASI source. Web Control 5.4.2 ASI I/O Module (IO-ASI) Click in ASI In1/2/3/4 bar to view ASI input info. Figure 5.15 ASI Input ASI In Status Column will display the input status and source info of current ASI channel. If the indicator shows red, it means there is no input in current ASI channel. Web Control 5.4.3 DVB-S/S2 Receiver Module (Tuner-S/S2) Click in Tuner*2 bar to configure Tuner-S/S2 module. Tuner-S/S2 support 2 frequency channel receiving, click Tuner1/2 bar to configure each channel. In Tuner-S/S2 settings page, user can configure DVB-S/S2 receiving settings and view the receiving status. Figure 5.16 Tuner-S/S2 Settings Table5.2 Tuner-S/S2 Settings Parameters Item Option Comment Frequency Default: 3840 Symbol Rate Default: 27500 LNB Low Default: 5150 LNB High Default: 0 Default Settings LNB Tone 22KHZ Tone Off 0V/NONE/OFF Polarity 13V/LHCP/Vertical 18V/RHCP/Horizaontal Band Type C-Band Web Control Ku-Band Click to save the configuration. Click to refresh current page. Web Control 5.4.4 DVB-T Receiver Module (Tuner-T) Click in Tuner*2 bar to configure Tuner-T module. Tuner-T support 2 frequency channel receiving, click Tuner1/2 bar to configure each channel. In Tuner-T settings page, user can configure DVB-T receiving settings and view the receiving status. Figure 5.17 Tuner-T Settings Table5.3 Tuner-T Settings Parameters Item Option Comment Standalone Only RFIN1-A or RFIN2-A for input Diversity Bout RFIN Can be used for input Mode Frequence 50000~858000KHz Settings 6M Bandwidth 7M 8M Click to save the configuration. Click to refresh current page. Web Control 5.4.5 CAM Descrambling Module (CAM) Click in CI_CI*4 bar to configure CAM module. CAM consists of 4 descrambling module, click Cam1/2/3/4 bar to configure each module. Select the receiving source from IVP-3000, the service ID of each stream will displays in TS Input column. Select the service that need to descramble, click Post Descramble column. Figure 5.18 CAM Settings Click to save the configuration. Click to refresh current page. to move the service to Web Control 5.5 TS Processor Setting Click TS Processor in main menu, and click in Mux*3 bar to configure the Mux module. Mux module consists of 3 multiplexer. Each multiplexer support 10 input port, and maximum10 input source can be selected. Each multiplexer support 256 PID filter and remap, and support 41 table insert. Figure 5.19 TS Processor Settings The service ID of all TS in IVP-3000 will displays in Inputs column. Select the service that need to mux/de-mux, click to move the service to Outputs column.  Buffer Status: Each multiplexer support 10 input port. Each input port with an input buffer. If the buffer overflow the indicator will turn red otherwise it is green.  Bitrate: Total calculated bitrate input to the multiplexer.  Output Bitrate: The actual output bitrate that set by users. To avoid the suffer overflow, Output Bitrate must be greater than Bitrate. More than 10% of the margin is the best. Click to save the configuration. Click to refresh current page. Web Control Click beside of service ID in Outputs column to configure the remap setting of mux/de-mux. Figure 5.20 Remap Table 5.4 Remap parameters Item Option 0 EIT Schedule Flag 1 Remap 0 EIT Present Flag 1 Free CA Mode 0 Comment Web Control 1 Service Type Digital Television etc. Not Running Start in a few seconds Running State Pausing Running Service off-air Service Name Provider Name Service ID 0x1~0xFFFE PMT PID 0x20~0xFFFE PCR PID 0x20~0xFFFE Video PID 0x20~0xFFFE If you want to remove it, set it to 0xFFFF Audio1~4 PID 0x20~0xFFFE If you want to remove it, set it to 0xFFFF Click to save the configuration. Click to reset the settings. In Tables column, user can configure PAT, PAT and SDT tables. Figure 5.21 PAT Web Control Figure 5.22 PMT Figure 5.23 SDT Table 5.5 Tables Item Option Transport ID Interval Enable On/Off Interval Enable On/Off Interval Comment PAT PMT SDT At the bottom of Mux setting page, user can view program parameter of programs in mux/de-mux. Figure 5.24 Program Web Control 5.6 R2TP Processor Setting Click R2TP Processor to open the SMIP IO page. 5.6.1 Stream Port Setting Click GEs Settings to open the stream port setting page, as follows: Figure 5.25 Stream Port Setting Network settings and PHY configuration of each stream port (GE1/GE2/GE3/GE4) can be configured in this page. 5.6.1.1 Network Settings  Work Mode: Stream port IP address mode setting: DHCP or Manual. In DHCP mode, IP address and other network settings will be configured automatically. In Manual mode, IP address and other network settings will be configured by user.  IP Address: Stream port IP address setting.  Subnet Mask: Stream port netmask setting.  Gateway: Stream port gateway setting.  DNS: DNS server setting.  MAC: Stream Port MAC address setting. MAC address can only be modified on specific condition. Web Control Notice: GE1 and GE2 can’t work in the same network segment. The GE3 & GE4 can’t work on the same network segment. 5.6.1.2 PHY Configuration  Auto Negotiation: Click to enable the Auto Negotiation function of the interface.  Speed: Select the type of physical layer protocol  Status: Display the status of stream port: Online or Offline. 5.6.2 Transport Streams Setting Click Streams to open the transport streams setting page. SMIP module support transferring 4 streams, each stream can be configured independently to select the stream port and work mode. Stream 1 & Stream 2 can be transmitted/received from GE1/GE2, and Stream 3 & Stream 4 can be transmitted/received from GE3/GE4. 5.6.2.1 Transmit R2TP/R2TP-S Figure 5.26 Transmit R2TP/R2TP-S Web Control Transmit R2TP GE Select stream port for transmitting: GE1/GE2 or GE3/GE4 Mode Set the work mode: TX (Transmitter) Protocol Select transport protocol: R2TP IP Input the IP address of RX of target IVP-3000 device Port Set the R2TP port of TX. Make sure the R2TP port of TX and target RX to be the same Description Describe the stream by custom to identify it Source Select the source of the stream to transmit Transmit R2TP-S GE Select stream port for transmitting: GE1/GE2 or GE3/GE4 Mode Set the work mode: TX (Transmitter) Protocol Select transport protocol: R2TP-S IP Input the IP address of target R2TP Relay Server(RRS) Port Set the R2TP-S port of TX. Make sure the R2TP-S port of TX, RRS, and target RX to be the same Description Describe the stream by custom to identify it Source Select the source of the stream to transmit After the transport stream is configured, click on Click off and click and click to stop the transmitting. Click to enable the transmitting. to refresh current page. Diagram on the right displays the real-time transmitting bit rate of TX, click the diagram to view the detailed status statistics, as follows: Web Control Figure 5.27 Transmitting Status Transmitting Status Status Green icon: the link is connected; Red icon: the link is disconnected Uptime The duration time of current connection Disconnected The disconnected time of current connection Bitrate (Kbps) Real-time transmitting bit rate of TX ORR (%) Original receiving ratio of current connection RRAR (%) Receiving ratio after recovery of current connection Jitter (ms) The difference value of transmission delay between adjacent packets RTT (ms) Round trip time between TX and target RX Web Control 5.6.2.2 Transmit RTMP Transmit RTMP GE Select stream port for transmitting: GE1/GE2 or GE3/GE4 Mode Set the work mode: TX (Transmitter) Protocol Select transport protocol: RTMP IP Input the IP address of target RTMP server Port Input RTMP port of target RTMP server. The default RTMP port is 1935 Application Input the application info of RTMP stream URL Stream Input the stream ID of RTMP stream URL Description Describe the stream by custom to identify it Source Select the source of the stream to transmit Service List Select the service ID of the stream to transmit After the transport stream is configured, click on Click off and click and click to stop the transmitting. Click 5.6.2.3 Receive R2TP/R2TP-S Figure 5.28 Receive R2TP/R2TP-S to enable the transmitting. to refresh current page. Web Control Receive R2TP GE Select stream port for receiving: GE1/GE2 or GE3/GE4 Mode Set the work mode: RX (Receiver) Protocol Select transport protocol: R2TP IP Input the IP address of Local RX Port Input the R2TP port of RX. Make sure the R2TP port of TX and RX to be the same Description Describe the stream by custom to identify it Buffer Time Set buffer time of RX, which refer to network health and user’s need. Value range: 125ms, 250ms, 500ms, 750ms, 1000ms, 2000ms, 4000ms. Receive R2TP-S GE Select stream port for receiving: GE1/GE2/GE3/GE4 Mode Set the work mode: RX (Receiver) Protocol Select transport protocol: R2TP-S IP Input the IP address of target R2TP Relay Server(RRS) Port Input the R2TP-S port of RX. Make sure the R2TP-S port of TX, RX, and RRS to be the same Description Describe the stream by custom to identify it Buffer Time Set buffer time of RX, which refer to network health and user’s need. Value range: 125ms, 250ms, 500ms, 750ms, 1000ms, 2000ms, 4000ms. After the transport stream is configured, click on Click off and click and click to stop the transmitting. Click to enable the transmitting. to refresh current page. Diagram on the right displays the real-time receiving bit rate of RX, click the diagram to view the detailed status statistics, as follows: Web Control Figure 5.29 Receiving Status Receiving Status Status Green icon: the link is connected; Red icon: the link is disconnected Uptime The duration time of current connection Disconnected The disconnected time of current connection Bitrate (Kbps) Real-time receiving bit rate of RX ORR (%) Original receiving ratio of current connection RRAR (%) Receiving ratio after recovery of current connection Jitter (ms) The difference value of transmission delay between adjacent packets RTT (ms) Round trip time between TX and target RX 5.6.3 Ping Tools Click Tools to open the Ping & Trace Route page, as follows: Web Control Figure 5.30 Ping Tools Use the ping tools to check the connection status between stream port and target IP address. Select the stream port and input target IP address, click to get the result. If the result displays “ping fail”, it means the link between stream port and target IP address is not connected, please make sure the status of stream port is “online”. 5.6.4 Software Upgrade The steps to upgrade SMIP software are as follows: Step 1. Connect one stream port (GE1/GE2) to PC by network cable. Make sure the network link between stream port and PC is connected. Step 2. Launch the web browser in PC and input IP address of the stream port to open the SMIP upgrade page, as follows: Figure 5.31 SMIP Upgrade Click Browse to select upgrade package in PC and click to upgrade. The upgrade will take about 5 minutes, please do not leave this page or power off. Step 3. Connect the other stream port (GE3/GE4) to PC by network cable and upgrade it to the same software version. Web Control 5.7 Output Setting Click Outputs in main menu to open the Output Setting page. 5.7.1 422 HD Digital Decoder Module (DDO-422) Click in HD Decoder*1 bar to configure DDO-422 module. 5.7.1.1 Decode Select Decode column, user can configure basic decoding settings of DDO-422. Figure 5.32 Decode Table5.6 Decode Parameters Item Option Decoder Source —— Settings Service List —— Video PID —— Audio1 PID —— Audio2 PID —— Service Information Comment Web Control Audio3 PID —— Audio4 PID —— BISS-0 BISS Settings BISS-1 BISS-E Click to save the configuration. Click to refresh current page. 5.7.1.2 Genlock Select Genlock column to configure Genlock for decoding. Figure 5.33 Genlock Table5.7 Genlock Parameters Item Option Comment External Use external genlock as reference internal Use internal STC clock as reference Reference Type Show the Reference lock status, if locked Reference Status —— Genlock the reference signal format will show. Adjust the video offset. Effective only in V_H_timing offset 0~16777215 clock external Reference mode Audio Offset 0~128 ms Adjust the offset of audio delay Web Control 5.7.1.3 AV Info Select AV Info column, user can view video and audio information of decoding source Figure 5.34 AV Info 5.7.1.4 Upgrade Select Upgrade column to upgrade DDO-422 software on web UI. Web Control Figure 5.35 Upgrade Click to select upgrade package in PC and click will take about 3 minutes, please do not leave this page or power off. Click to recover DDO-422 to the default settings. Click to reboot the DDO-422 module. to upgrade. The upgrade Web Control 5.7.2 420 HD Digital Decoder Module (DDO-420) Click in DDO Decoder*1 bar to configure DDO-420 module. 5.7.2.1 Program Select Program column, user can configure basic decoding settings of DDO-420. Figure 5.36 Program Table5.8 Program Parameters Item AV Sync Option Comment Off Let the Audio & Video free run. PCR Let the Audio & Video sync with PCR. Audio Audio & Video sync with Audio’s PTS. Normal Decoding in normal lantency. Work Mode Decoder Latency Decoding in low lantency Low (Only for HDE-420 Low Latency mode) Source —— Select the source of the decoder Service List —— Select the service of the Source to decode PCR PID —— After select the source & service,Will display the PID of PCR. Service Information After select the source & service,Will Video PID —— display the PID &codec type of Video Web Control After select the source & service,Will Pri-Audio PID —— display the PID&codec type of first Audio After select the source & service,Will Sec-Audio PID —— display the PID&codec type of Sec Audio BISS Settings Click to save the configuration. Click to refresh current page. BISS-0 Indicates no decryption BISS-1 Indicates decryping stream with BISS-1 BISS-E Indicates decryping stream with BISS-E DDO-420 support auto switch decoding from redundant input source. Select Redundancy in Source, and configure Main Decoder Settings and Backup Decoder Settings for redundant input source. Figure 5.37 Redundancy Web Control Table5.9 Redundancy Parameters Item Option Comment Main Decoder Main Source —— Main source of redundancy Settings Service List —— Main service of redundancy Backup Source —— Backup source of redundancy Backup Decoder Service List —— Backup service of redundancy Settings Failover Switch Switching to backup/main after 0~200s Time main/backup service lost for N seconds  The backup rules are: 1. Main Service has the highest priority. That means playing Main Service if it’s possible. 2. If Main Service lost, switch to backup. 3. When Main Service comes back, Switch to Main Service if Backup is playing. 5.7.2.2 Video Output Select Video Output column to configure the decoded video format for output. Figure 5.38 Video Output Table5.10 Video Output Parameters Web Control Item Option Comment Set the output format as the codec format Auto from Source automatically 480i59.94Hz 576i50Hz 720p50Hz Output Format 720p59.94Hz 720p60Hz 1080i50Hz 1080i59.94Hz Video Setting 1080i60Hz If Source lost, the screen freeze with the Freeze last picture displayed. Default Picture Black If Source lost, the screen output colorbar Color Bar If Source lost, the screen keeps black Pan Scan Please refer to Annex A – AR Convert Letter Box Please refer to Annex A – AR Convert Combined Please refer to Annex A – AR Convert Ignore Please refer to Annex A – AR Convert AR Convert 5.7.2.3 Audio Output Select Audio Output column to configure the decoded audio format for output. Web Control Figure 5.39 Audio Output Table5.11 Audio Output Parameters Item Option Comment OFF Audio 1 output normally ON Let the audio mute Mute Audio 1 Settings The volume of audio 1 can be decreased in Audio Level -50dB – 0dB the range 0-50dB , and can’t be increased Audio 2 OFF The same as Audio 1 ON The same as Audio 1 -50dB – 0dB The same as Audio 1 Mute Settings Audio Level 5.7.2.4 Genlock Select Genlock column to configure Genlock for decoding. Web Control Figure 5.40 Genlock Table5.12 Genlock Parameters Item Option Comment Green Light indicates synced Reference Status —— Red Light indicates insynced Reference Format Genlock —— Locked with which format External Output using the external sync signal Reference Type Output using the internal sync signal Internal (follow the video codec format) V/H Time Offset 0~16777215 Vertical/Horizontal Timing offset 5.7.2.5 Information Select Information column, user can view video and audio information of decoding source. Web Control Figure 5.41 Information 5.7.2.6 Upgrade Select Upgrade column to upgrade DDO-420 software on web UI. Figure 5.42 Upgrade Click to select upgrade package in PC and click to upgrade. The upgrade Web Control will take about 5 minutes, please do not leave this page or power off. And the software version and FPGA version will be displayed on the top of the upgrade page. Web Control 5.7.3 IPASI Input I/O Module (IO-IPASI-I) Click in IP Out*2 bar to configure output settings of IO-IPASO-I module. IO-IPASO-I support 4 channel IP output. 5.7.3.1 IP settings Select IP Settings column to configure network settings of IP stream ports. Figure 5.43 IP settings  IP Address: Ethernet port IP address setting.  Subnet Mask: Ethernet port netmask setting.  Gateway: Ethernet port gateway setting.  Work Mode: Ethernet port work mode setting: Auto or Manual. In Auto mode, Ethernet speed and duplex mode will be configured automatically. In Manual mode, Ethernet speed and duplex mode will be configured by user. Click to save the configuration. Click to refresh current page. Web Control Tips: This IP settings is of same validity as in IP In*2 ASI In*2 bar (Please refer to Chapter 5.4.1). IP Settings will be auto-synchronized as one of them is changed. 5.7.3.2 Outputs Select Outputs column to configure IP output streams. Select Source in Source & Service column and click to select the service to output. Figure 5.44 Outputs Table 5.14 Output Parameters Item Option Comment ON Enable Settings Enable using the current Ethernet port OFF Output IP Destination IP address Port 1025~65535 Destination IP port Web Control UDP Protocol Transport Protocol RTP TTL 1~255 Time to Live Bitrate —— Greater than the bitrate of selected service Web Control 5.7.4 ASI I/O Module Click in ASI Out1/2/3/4 bar to configure ASI output. Figure 5.45 ASI Output In ASI Out Column, user can select the source in IVP-3000 to output via current ASI channel. After the source is selected, user can view the AV info of the source. Click to save the configuration. Click to refresh current page. Web Control 5.8 Alarm Click Alarm in main menu to review the detailed alarm info. Please be noted that alarm information will not be saved, and the message will be lost if the device is power off. Figure 5.46 Alarm The alarm info will be listed on time sequence. Click view the alarm of these types. Click to remove current alarm info. to select the type and click to Annex Annex A - AR Convert The concept of display: DDO-420 could scale or change display area on display area. So we will encounter the issue of Source Picture is 4:3(576i/480i), and output format is 1080i50 (16:9), vice versa. In this situation, we define some strategy for displaying. 1. Pan Scan 2. Combined Annex 3. Letter Box Annex 4. Ignore According the concepts above, Please make sure the source picture first. The display area is related with the source and output format closely. Annex Annex B – Specifications Module 422 HD Digital Decoder Module (DDO-422) 420 HD Digital Decoder Module (DDO-420) Video Decoding Video Decoding Video decoding: H.264, MPEG-2 Video decoding: H.264, MPEG-2 Chroma: 4:2:2/4:2:0-10bit/8bit Chroma: 4:2:0 Resolution: 1080p@50/59.94/60 Resolution: 1080i@50/59.94/60 1080i@50/59.94/60 720p@50/59.94/60 720p@50/59.94/60 576i@50, [email protected] 576i@50, [email protected] Video bit rate: CABAC: 50Mbps Video bit rate: 1-70Mbps Output interface: 2x HD/SD-SDI mirroring 1x HDMI CAVLC: 150Mbps Output interface: 2x HD/SD-SDI mirroring 1x HDMI Audio Decoding Decoding channel: 2 Output interface: AES-EBU, SDI embedded, Audio Decoding HDMI embedded Decoding channel: 4 Output interface: AES-EBU, SDI embedded, Audio decoding: MPEG-1 layer1/2, MPEG-4 AAC-LC, MPEG-4 HE-AAC HDMI embedded Audio decoding: MPEG-1 layer II, MPEG-2 AAC-LC, MPEG-4 AAC-LC, MPEG-4 HE-AAC Descrambling None, BISS-0, BISS-1, BISS-E Descrambling Genlock None, BISS-0, BISS-1, BISS-E Support HD Tri-level sync generation, SD Color Black Genlock Support HD Tri-level sync generation, SD Color Black Annex HD AVS+ Decoder Module (DDO-AVS+) HD AVS+ Trancoder Module (TRC-AVS+) Video Decoding Video Transcoding Video decoding: AVS+, H.264, MPEG-2 Video input: AVS+, H.264, MPEG-2 Chroma: 4:2:0 Video output: H.264 Resolution: 1080p@50/60 Chroma: 4:2:0 1080i@25/30 Resolution: 1080i@25/30 720p@50/60 720p@50/60 576i@25, 480i@30 576i@25, 480i@30 Video bit rate: CABAC: 50Mbps Monitoring output : 2x HD/SD-SDI mirroring CAVLC: 150Mbps 1x HDMI Output interface: 2x HD/SD-SDI mirroring 1x CVBS 1x HDMI Audio Transcoding 1x CVBS Transcoding channel: 1 transcoding, 2 pass-through Audio output: SDI embedded, HDMI embedded Audio Decoding Decoding channel: 1 Output interface: SDI embedded, HDMI embedded AES-EBU, Analog Audio transcoding: MPEG-1 Layer1/2，MPEG-2/4 AAC-LC, AES-EBU, Analog MPEG-4 HE-AAC, Dolby AC-3/AC-3 Plus Audio decoding: MPEG-1 Layer1/2，MPEG-2/4 AAC-LC, MPEG-4 HE-AAC, Dolby AC-3/AC-3 Plus, Genlock Support HD Tri-level sync generation, SD Color Black ASI I/O Module (IO-ASI) IPASI Input I/O Module (IO-IPASI-I) Support various ASI I/O combination pattern: Support 2 TS over ASI input 4 input Streaming Port: 2 x 10/100/1000Base-T Ethernet RJ45 3 input and 1 output Transport Protocol: UDP, RTP 2 input and 2 output Transport Mode: Unicast, Multicast 1 input and 3 output Support 4 SPTS/MPTS over IP input 4 output Support 4 SPTS/MPTS over IP output, support MPTS ASI gateway in one unit for channel backup de-mux and output function Support EN-50083-9 standard Each program support output to 2 target address by different Support 188bytes Ethernet ports ASI bit rate: 0~200Mbps for 1 channel Bit rate: IP: 0~600Mbps (Each port) Support Genlock input and loop out ASI: 0~200Mbps (Each port) Support Genlock Annex DVB-S/S2 Receiver Module (Tuner-S/S2) DVB-T/T2 Receiver Module (Tuner-T) Interface: 2 RF input, 2 RF loop out Interface: 4 RF input, support 2 diversity reception Demodulation: DVB-S(QPSK) Frequency range: 47.5 - 862 MHz DVB-S2(QPSK/8PSK) Band mode: 6MHZ,7MHz, 8MHz Input level: -25dBm to -65dBm Demodulation: QPSK,16QAM,64QAM Frequency range: 950 - 2150 MHz (L-Band) FFT: 2K/8K Polarity voltage: off, +13V, +18V Guard interval: 1/32, 1/16, 1/8, 1/4 Max current :400mA Support 12V power supply Band tone: 22 kHz on/off Symbol rate: 1M~45M Bound Descrambling: BISS Descrambling(Optional) Multi-channel Decoder & Monitor (MDO-420) Multi-Channel H.264 Transcoding Module (MHDT-420) Each slot support 2x HD program or 8x SD decoding Video Transcoding Support 2 slots combined, up to 4x HD program or 16x SD Video input: H.264, MPEG-2 program decoding Video output: H.264 Video decoding: H.264, MPEG-2 Resolution: 1080P@50/50.94 Chroma: 4:2:0 1080P@25/29.97 Resolution: 1080i@25/29.97/30 1080i@25/29.97 720p@50/59.94/60 720P@50/59.94 576i@25, 480i@30 576i@25, [email protected] Video bit rate: 1~70 Mbps Chroma: 4:2:0 Output interface: 2x HD/SD-SDI mirroring Audio Transcoding 1x HDMI Audio transcoding: MPEG-1 layer II MPEG-4 AAC-LC, Audio decoding: MPEG-1 layer II MPEG-4 HE-AAC V1 MPEG-2 AAC MPEG-4 AAC-HE Multi-Protocol IP Transmitting Module (SMIP) CA Descrambling Module (CAM) Slot in front panel Slot in front panel 4x 10/100/1000Base-T Ethernet, RJ45 Each module integrates 4 channel CA descrambling Each streaming port can be configured as TX or RX Descrambling capacity depends on the capacity of CAM Support Protocol:R2TP, R2TP-S, RTMP, UDP cards; Max Stream Channel: (Each streaming port) Detect program status automatically R2TP/R2TP-S: 2, RTMP: 2 Perform well with different CAM cards Max Bit Rate: (Each streaming port) R2TP/R2TP-S: 60Mbps, RTMP: 20Mbps, UDP: 60Mbps Support DHCP Support DNS Annex Control Front Panel Control OLED screen, touch button Web Control RJ45 SNMP Control Optional Physical parameters Size (W×H×D) 460mm×440mm×44.5mm (1RU) Weight (Full Loaded) 5.5kg 6 slots in rear panel Slots 1 slot in front panel Chassis-R-H: Hot-swap redundancy power supply Power Mode Chassis-R: Dual redundancy power supply Input Voltage 100-240V, 50/60Hz Consumption 60W (Full Loaded) Temperature 0-50℃