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IVP-3000 Series Multi-channel HD/SD Encoder

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

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

Contents

4.3 Basic Operation Logic ..................................................................................................... 16

4.4 IP Settings ....................................................................................................................... 17

4.5 HD Digital Encoder Module (HDE-420) ........................................................................ 18

4.6 SD Digital/Analog Encoder Module (SDE-420) ............................................................ 21

4.7 IPASI Output I/O Module (IO-ASI-O) ........................................................................... 24

4.8 ASI I/O Module (IO-ASI) ............................................................................................... 25

4.8.1 ASI In Setting ....................................................................................................... 25

4.8.2 ASI Out Setting .................................................................................................... 25

Chapter 5 Web Control ............................................................................................................... 26

5.1 Using the Web Graphical User Interface ......................................................................... 26

5.2 Web browser configuration ............................................................................................. 26

5.3 IVP-3000 Frame Setting ................................................................................................. 27

5.3.1 Account ................................................................................................................ 27

5.3.2 Network ................................................................................................................ 28

5.3.3 Date & Time ......................................................................................................... 29

5.3.4 Update &Reboot................................................................................................... 29

5.3.5 Device Information .............................................................................................. 33

5.4 Input Setting .................................................................................................................... 34

5.4.1 HD Digital Encoder Module (HDE-420/422) ...................................................... 34

5.4.2 SD Digital/Analog Encoder Module (SDE-420) ................................................. 43

5.4.3 Multi-stream HD Digital Encoder Module (MHDE-420) ................................... 51

5.4.4 ASI I/O Module (IO-ASI) .................................................................................... 59

5.5 TS Processor Setting ....................................................................................................... 60

5.6 R2TP Processor Setting ................................................................................................... 64

5.6.1 Stream Port Setting .............................................................................................. 64

5.6.2 Transport Streams Setting .................................................................................... 65

5.6.3 Ping Tools ............................................................................................................. 70

5.6.4 Software Upgrade................................................................................................. 71

5.7 Output Setting ................................................................................................................. 72

Contents

5.7.1 IPASI Output I/O Module (IO-IPASI-O) ............................................................. 72

5.7.2 ASI I/O Module .................................................................................................... 75

5.8 Alarm ............................................................................................................................... 76

Annex A - Specifications ............................................................................................................. 77

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 Multi-channel HD/SD Encoder is based on IVP platform, adopting H.264

HD encoding module, H.264/MPEG-2 SD encoding module, ASI I/O module and IP I/O module,

to achieve a multi-channel HD encoder with high flexibility, high density, high performance, high

scalability and high reliability.

The following is a summary of the features of IVP-3000 Series Multi-channel HD/SD Encoder:

（1） High Level Performance

Support H.264/MPEG-2 HD/SD encoding

Support H.264 4:2:2 / 4:2:0 chroma encoding

Support ASI redundant output

Support IP redundant output to different target IP address

Support 2 encoding latency mode:

Standard latency: 730ms

Low latency: 120ms

（2） High Density

Up to 5 channel HD encoding

Up to 10 channel SD encoding

Introduction

HD encoder support 4 channel stereo audio encoding

（3） High Scalability

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;

Introduction

LED2.Power2 status: Green:OK; Red:Error;

LED3.Temprature: Green:OK; Red:Over 50℃;

LED4.Alarm:Green:No unread error messages;Red:Error encountered;

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.


2.3 Module Introduction

The introduction of encoding module listed in the following tables.

422 HD Digital Encoder Module (HDE-422) 420 HD Digital Encoder Module (HDE-420)

Function: 1 channel HD/SD 4:2:2/4:2:0 H.264 encoding Function: 1 channel HD/SD 4:2:0 H.264 encoding

Interface:

Interface:

SD Digital/Analog Encoder Module (SDE-420) Multi-Stream HD Digital Encoder Module (MHDE-420)

Function: 2 channel SD H.264/MPEG-2 encoding Function:1 channel HD encoding, 3 encoding stream output

Interface:

Interface:

Multi-Channel H.264 Transcoder Module (MHDT-420) ASI I/O Module (IO-ASI)

Function: Multi-stream H.264 HD/SD transcoding Function: 4 ASI input or output, support various pattern

Interface:

IPASI Output I/O Module (IO-IPASI-O) Multi-Protocol IP Transmitting Module (SMIP)


Function: Support IP output and 2 ASI output Function: Multi-Protocol IP Transmitting over Open Internet

Interface:

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 button, 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

Getting Started

The Ethernet control ports are used to connect the unit to a control computer for control through 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 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 Frame Input_U1_HD Enc Input_U2_SD Enc Output_L2_IP_ASI

IVPStarting 0%

Dev Name < IVP > Control IP Address <192.168.000.159> Serial Num < 10001 >

Power on the device, the screen displays company logo.

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 Comment

Frame

IP Setting

Local IP <Custom>

IP Settings of Device Control Port. Net Mask <Custom>

Gateway <Custom>

Front Panel Control

4.5 HD Digital Encoder Module (HDE-420)

Figure 4.5 HDE-420 Settings

Table 4.2 HDE-420 Settings

Front Panel Control

Item Option Comment

Video

Settings

Encode Mode <H.264>

Video Source

SDI

HDMI

CBar Color Bar

Video Format

1080p30

1080p29.97

1080p25

1080i59.94

1080i60

1080i50

720p59.94

720p60

720p50

480i59.94

576i50

Video Bitrate <Custom> 500-60000 (Kbps)

Video PID <Custom>

Audio

Settings

Audio Enable Enable

Enable current audio channel Disable

Audio Source ——

Audio Format <MPEG1>

Audio Bitrate

96

128

192

256

320

384

Audio PID <Custom>

Audio Mode <Stereo>

Program

Settings

TS ID <Custom> 0x0 to 0xFFFF

PCR PID <Custom> 0x20 to 0x1FFE

PMT PID <Custom> 0x20 to 0x1FFE

Service ID <Custom> 0x0 to 0xFFFF

Front Panel Control

Service Name ——

TS Bitrate <Custom> 500~65000 (Kbps)

Status

Status <Read Only>

Input Source <Read Only>

Input Format <Read Only>

Front Panel Control

4.6 SD Digital/Analog Encoder Module (SDE-420)

Figure 4.6 SDE-420 Settings

Table 4.3 SDE-420 Settings

Front Panel Control

Item Option Comment

Video

Settings

Encode Mode H.264

MPEG2

Video Source SDI

CVBS

Video Format

PAL

NTSC/29.97

NTSC/30

Video Resolution

720*576

PAL

704*576

640*576

544*576

528*576

352*576

352*288

320*240

720*480

NTSC

704*480

640*480

544*480

528*480

352*480

352*288

320*240

Video Bitrate

250~6000 H.264 Single-Channel

250~15000 H.264 Twin-Channel

500~7000 MPEG-2 Single-Channel

500~15000 MPEG-2 Twin-Channel

Video PID <Custom>

Audio

Settings

Audio Source Enable Enable current audio channel

Audio Format

MPEG-1 Layer II

AAC-LC

HE-AAC V1

HE-AAC V2

Front Panel Control

AC3 Bypass

Audio Bitrate

32

48

64

80

96

112

128

160

192

224

320

384

448

512

576

640

Audio PID <Custom>

Audio Mode Dual-Mono

Stereo

Program

Settings

TS ID <Custom> 0x0 to 0xFFFF

Service ID <Custom> 0x0 to 0xFFFF

PCR PID <Custom> 0x20 to 0x1FFE

PMT PID <Custom> 0x20 to 0x1FFE

TS Bitrate <Custom> 500~20000 (Kbps)

Status

Ch1 Status <Read Only>

Ch1 Input <Read Only>

Ch2 Status <Read Only>

Ch2 Input <Read Only>

Front Panel Control

4.7 IPASI Output I/O Module (IO-ASI-O)

Figure 4.7 IO-IPASI-O Settings

Table 4.4 IO-IPASI-O Settings

Item Option Comment

Stream

Channel

Enable ON

Enable using the current Ethernet port OFF

Dest IP <Custom> Destination IP address

Dest Port <Custom> Destination IP port

Protocol UDP

Transport Protocol RTP

Ser List —— Service ID to output

Bitrate <Custom> Greater than the bitrate of selected service

ASI Out —— —— Select the Source to output

Status Status <Read Only>

Speed <Read Only>

Front Panel Control

Duplex <Read Only>

4.8 ASI I/O Module (IO-ASI)

4.8.1 ASI In Setting

Figure 4.8 IO-ASI Input Settings

Table 4.5 IO-ASI Input Settings

Item Option Comment

Input ASI ASI 1 IN <Read Only> Display status of ASI 1 input

ASI 2 IN <Read Only> Display status of ASI 2 input

4.8.2 ASI Out Setting

Figure 4.9 IO-ASI Output Settings

Table 4.6 IO-ASI Output Settings

Item Option Comment

Input ASI ASI 1 OUT —— Select the source to output

ASI 2 OUT —— Select the source to output

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 (From A-Z, 0-9).

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: Net Mask setting.

Gateway: Default Gateway setting.

Web Control

User can also configure device IP through panel control, please refer to Chapter 4 for more info.

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

Web Control

The reboot will take about 3 minutes, please do not leave this page or power off. After the reboot

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 HD Digital Encoder Module (HDE-420/422)

Click in HD Low Encoder*1 bar to configure HDE-420 module.

Click in HD SL Encoder*1 bar to configure HDE-422 module.

5.4.1.1 Settings

Select Settings column to configure basic encoding settings of HDE-420/422.

Figure 5.12 Setting

1. Bitrate Setting Mode

Figure 5.13 Bitrate Setting Mode

Web Control

Video ES Bitrate Auto:

Video ES Bitrate cannot be editable and will be calculated automatically from TS Bitrate

TS Bitrate Auto:

TS Bitrate cannot be editable and will be calculated automatically from Video ES Bitrate

Manual:

Video ES Bitrate and TS Bitrate will be decided both by user.

2. Video Parameters

Figure 5.14 Video Parameters

Table 5.1 Video Parameters

Item Option Comment

Video

Parameters

Source

Color Bar Internal Signal

Black Field Internal Signal

SDI External Signal

HDMI External Signal

Format

Auto According to the input source format

1080p30

1080p29.97

1080p25

1080i59.94

1080i60

1080i50

720p59.94

720p60

Web Control

720p50

480i59.94

576i50

Horizontal Size

1920

1080p/1080i 1440

1280

960

1280

720p 960

848

640

720

480i/576i 542

480

352

Entropy CAVLC

CABAC

Latency

Regular Codec delay About 700ms

Low Delay Codec delay About 160ms

Super Low Codec delay About 40ms(HDE-422 Only)

Bitrate(Kbps) 500-60000

Profile

Main

High

High 4:2:2 HDE-422 Only

GOP Structure

IP

IBP

IBBP

Deblocking Filter ON

OFF

Loss of Input

Color Bar Automatically switch to ColorBar,

With TS output

Black Field Automatically switch to Black Field,

With TS output

None No Video Encoding, With TS output

Web Control

No TS Output No TS output

Closed GOP Enable

Disable

GOP Mode Dynamic

Automatically adjust the GOP length

according to the scene

Constant Constant GOP length

GOP Num 1~30 Unit frame

Low Pass Filter

OFF

Adaptive

Weak

Moderate

Strong

3. Audio Parameters

Figure 5.15 Audio Parameters

Table5.2 Audio Parameters

Item Option Comment

Audio

Parameters

Audio-X Enable On/Off Click on to enable current audio channel

Source

SDI-CH1/2

SDI-CH3/4

SDI-CH5/6

SDI-CH7/8

HDMI-CH1/2

HDMI-CH3/4

HDMI-CH5/6

Web Control

HDMI-CH7/8

AES-EBU

1KHz

Format MPEG1 Layer-II

AAC-LC

Bitrate(Kbps)

96

128

192

256

320

384

Coding Mode

Dual Mono

Stereo

Mono L Using The left channel data ofinput

audiofor encoding

Mono R Using The right channel data of input

audiofor encoding

Mono Mix Mix the left channel and right channel data

for encoding

Loss of Input

1KHz Automatically switch to 1KHz

Mute Automatically switch to Mute audio

None No audio output

Delay(ms)

±500 Regular Latency Mode

±100 Low Latency Mode

±0 Super Low Latency Mode (HDE-422 only)

Gain Ctrl Disable Disable Audio gain adjustment function

Enable Enable Audio gain adjustment function

Loudness(LKFS) -30~0 Target loudness

Gain(dB) -20~+20 Audio gain value

Time Period 200~5000ms Time window used to control loudness

ALC Ctrl Bypass disable Audio ALC function

Enable Enable Audio ALC function

Gate -65~-40LKFS Minimum threshold value of loudness

calculation

Web Control

4. Program Parameters

Figure 5.16 Program Parameters

Table 5.3 Program Parameters

Item Option Comment

PSI/SI

Parameters

Bitrate(Kbps) 500~65000

PMT PID 0x20 to 0x1FFE

PCR PID 0x20 to 0x1FFE

Video PID 0x20 to 0x1FFE

Audio1 PID 0x20 to 0x1FFE


Transport ID 0x0 to 0xFFFF

Service ID 0x0 to 0xFFFF

Service <Custom>

Provider <Custom>



PMT Interval 1~500ms

PCR Interval 1~40ms

PAT Interval 1~500ms

SDT Interval 1~10000ms

Web Control

5. BISS Settings

Figure 5.17 BISS Settings

BISS encryption settings for current encoding channel:

BISS-0：None BISS decryption.

BISS-1：BISS-1 decryption. Session Word should be 12 numbers.

BISS-E：BISS-E decryption. Session Word should be 16 numbers. Inject ID should be 14

numbers.



Click to save the configuration as a profile. User can apply this configuration to

other HDE-420/422 module by uploading the profile.

5.4.1.2 Status

Select Status column to view the encoding status and ALC status.

Web Control

Figure 5.18 Status


Click to reboot HDE-420/422 module.

5.4.1.3 Profiles

Select Profiles column to upload the configuration file.

Figure 5.19 Profiles

Click to select the configuration file in PC, click to upload the file to

IVP-3000. Choose the configuration file in Profiles column and click to apply. User can also

Web Control

load the Factory Default file to recover to the default settings.

5.4.1.4 Upgrade

Select Upgrade column to upgrade HDE-420/422 software on web UI.

Figure 5.20 Upgrade

Click 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.

Web Control

5.4.2 SD Digital/Analog Encoder Module (SDE-420)

Click in Encoder*2 bar to configure SDE-420 module. SDE-420 module support source*2

encoding, user can configure 2 encoders separately. Click Encoder1/Encoder2 bar to configure

each encoder.

5.4.2.1 Settings

Select Settings column to configure basic encoding settings of SDE-420.

Figure 5.21 Setting

1. Bitrate Setting Mode

Figure 5.22 Bitrate Setting Mode

Video ES Bitrate Auto:

Web Control

Video ES Bitrate cannot be editable and will be calculated automatically from TS Bitrate

TS Bitrate Auto:

TS Bitrate cannot be editable and will be calculated automatically from Video ES Bitrate

Manual:

Video ES Bitrate and TS Bitrate will be decided both by user.

2. Video Parameters



Item Option Comment

Video

Parameters

Video Enable On/Off Click off to encode audio source only

Source SDI

CVBS

Format

PAL

NTSC/29.97

NTSC/30

Resolution

720*576

PAL

704*576

640*576

544*576

528*576

352*576

352*288

320*240

720*480

NTSC 704*480

640*480

Web Control

544*480

528*480

352*480

352*288

320*240

Video Bitrate

250~6000 H.264 Single-Channel

250~15000 H.264 Twin-Channel

500~7000 MPEG-2 Single-Channel

500~15000 MPEG-2 Twin-Channel

Encoder Mode H.264

MPEG-2

Click to configure advanced video parameters.

Figure 5.24 More Parameters

Table 5.5 More Parameters

Item Option Comment

More

Parameters

IDR Frequency

No IDRs

Every I Frame

Every second I Frame

Every third I Frame

Profile Main

H.264 Baseline

Level

Automatic H.264/MPEG-2

Level1.3 H.264

Level2.0

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Level2.1

Level2.2

Level3.0

Main MPEG-2

Closed GOP Open GOP

Close GOP

GOP Size 1 to 255

GOP Structure

IP

IBP

IBBP

VBI Capture VBI input in LSB

VBI input in MSB

Closed Captioning

Insert/extract all

captions

Insert/extract

EIA608B field 1 and 2

Insert/extract

EIA608B field 1

Insert/extract

EIA608B field 2

Insert/extract

EIA608B

CABAC Disable

Enable

Loop Filter Mode

Off

On

Not across slice

boundaries

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3. Audio Parameters



Item Option Comment

Audio

Parameters

Source

SDI-Ch1/2

SDI-Ch3/4

SDI-Ch5/6

SDI-Ch7/8

Analog

AES/EBU

Sampling

Rate(KHZ)

48 SDI or AES/EBU Source

32/44.1/48 Analog Source

Volume

Level 0

Level 1

Level 2

Level 3

Level 4

Format

MPEG-1 Layer II

AAC-LC

HE-AAC V1

HE-AAC V2

AC3 Bypass

Coding Mode

Dual-mono

Stereo

Mono L

Mono R

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Mono L/R

Bitrate(kbps)

32

48

64

80

96

112

128

160

192

224

320

384

448

512

576

640

Delay(ms) 0~1000

4. Program Parameters

Figure 5.26 Program Parameters

Table 5.7 Program Parameters

Item Option Comment

PSI/SI

Parameters

Bitrate(Kbps) 500~20000


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Service <Custom>

Provider <Custom>

PMT ID 0x20 to 0x1FFE

PCR ID 0x20 to 0x1FFE




PCR Interval 1~40ms



5. BISS Settings






numbers.



Click to save the configuration as a profile. User can apply this configuration to

other SDE-420 module by uploading the profile.

5.4.2.2 Status

Select Status column to view the encoding status and input format.

Web Control

Figure 5.28 Status

5.4.2.3 Profiles

Select Profiles column to upload the configuration file.

Figure 5.29 Profiles

Click to select the configuration file in PC, click to upload the file to

IVP-3000. Choose the configuration file in Profiles column and click to apply. User can also

load the Factory Default file to recover to the default settings.

Web Control

5.4.3 Multi-stream HD Digital Encoder Module (MHDE-420)

Click in MHDE3 bar to configure MHDE-420 module.

5.4.3.1 Settings

Select Settings column to configure basic encoding settings of MHDE-420. MHDE-420 module

support 3 encoding streams output, user can configure 3 encoding channels separately. Click

Channel1/Channel2/Channel3 column to configure each encoding channel.

Figure 5.30 Settings

1. Video Parameters


Web Control


Item Option Comment

Video

Parameters

Format

1080p59.94/50 1920x1080p59.94/50

1080p29.97/25 1920x1080p29.97/25

1080i59.94/50 1920x1080i59.94/50

720p59.94/50 1280x720p59.94/50

720p25 1280x720p25

576i50 720x576i50

576p25 720x576p25

480i59.94 720x480i59.94

480p29.97 720x480p29.97

360p25 640x360p25

360p29.97 640x360p29.97

288p25 352x288p25

240p29.97 352x240p29.97

Profile

Baseline

Main

High

Level

Level2.0

Level2.1

Level2.2

Level3.0

Level3.1

Level3.2

Level4.0

Level4.1

Level4.2

Bitrate Mode CBR

VBR

Bitrate(Kbps) 0.5~20Mbps HD:1~20Mbps

SD:0.5~20Mbps

Optimization Off

Medium Horizontal 3/4 sampling

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(1920x1080P59.94, 1920x1080P50,

1920x1080i59.94, 1920x1080i50)

High Horizontal 1/2 sampling

(1920x1080i59.94, 1920x1080i50)

Closed GOP Enable

Disable

GOP Structure IP

IBBP

GOP Length 12 Almost frames in 500ms

24 Almost frames in 1000ms

2. Audio Parameters



Item Option Comment

Audio

Parameters

Audio Codec

AAC-LC

MPEG1 Layer-2

HE-AAC V1

Coding Mode

Dual Mono

Stereo

Mono L/R

Delay(fps) -15.5~15.5 Relative to video

Bitrate(kbps)

96

AAC-LC

128

192

256

384

512

128 MPEG1 Layer-2

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Tips: MHDE-420 support 2 channel audio encoding with different audio source. In that case, the

audio encoding parameters need to be the same, but with different audio PID to identify them.

192

256

48 HE-AAC V1

64

3. OSD

Figure 5.33 OSD

Click on OSD to enable OSD function. After the pictures are uploaded to IVP-3000 in OSD

column, select the picture in IVP-3000 as OSD and set Coordinate X and Coordinate Y to

configure the position of OSD. ( Left front corner is <0, 0>, OSD move to the right for 1 pixel as

Coordinate X add 1, and move to the bottom for 1 pixel as Coordinate Y add 1)

4. PSI/SI Parameters

Figure 5.34 PSI/SI Parameters

Table5.10 PSI/SI Parameters

Item Option Comment

PSI/SI

Parameters




Web Control


PMT PID 0x20 to 0x1FFE

PCR PID 0x20 to 0x1FFE


Service <Custom>




Provider <Custom>

5. BISS Settings






numbers.



5.4.3.2 Source Select Source column to choose video & audio source to encode.

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Figure 5.36 Source

Table 5.11 Source Parameters

Item Option Comment

Video&Audio

Source

Video Source

SDI

HDMI

ColorBar

BlackField

Audio1 Source/

Audio2 Source

Analog1

Analog2

SDI-Ch1/2

SDI-Ch3/4

SDI-Ch5/6

SDI-Ch7/8

HDMI-Ch1/2

HDMI-Ch3/4

HDMI-Ch5/6

HDMI-Ch7/8

1KHz

Input Format

1080p59.94

Make sure to be the same with actual input

source format (format in status column),

otherwise input source will be colorbar

1080p50

1080p29.97

1080p25

1080i59.94

1080i50

720p59.94

720p50

480i59.94

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576i50

5.4.3.3 OSD

Select OSD column to upload picture files to IVP-3000 as OSD options.

Figure 5.37 OSD

Click to select picture file in PC, click to upload it to IVP-3000.

Click to remove the file from IVP-3000.

Picture Format: PNG. file

Quantity: Up to 3 pictures

Size: Width pixel should be multiple to 128\

5.4.3.4 Status

Select Status column to view the format of SDI/HDMI source.

Figure 5.38 Status

Web Control

5.4.3.5 Upgrade

Select Upgrade column to upgrade MHDE-420 software on web UI.

Figure 5.39 Upgrade

Click 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.

Web Control

5.4.4 ASI I/O Module (IO-ASI)

Click in ASI In1/2/3/4 bar to view ASI input info.

Figure 5.40 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

5.5 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 5.41 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 a input buffer. If

the buffer overflow the indicator will turn red otherwise it is green.

Bitrate: Total calculatedbitrate 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.


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Click beside of service ID in Outputs column to configure the remap setting of mux/de-mux.

Figure 5.42 Remap

Table 5.12 Remap parameters

Item Option Comment

Remap EIT Schedule Flag

0

1

EIT Present Flag 0

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1

Free CA Mode 0

1

Service Type Digital Television etc.

Running State

Not Running

Start in a few seconds

Pausing

Running

Service off-air

Service Name <Custom>

Provider Name <Custom>

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 reset the settings.

In Tables column, user can configure PAT, PAT and SDT tables.

Figure 5.43 PAT

Web Control

Figure 5.44 PMT

Figure 5.45 SDT

Table 5.13 Tables

Item Option Comment

PAT Transport ID <Custom>

Interval <Custom>

PMT Enable On/Off

Interval <Custom>

SDT Enable On/Off

Interval <Custom>

At the bottom of Mux setting page, user can view program parameter of programs in

mux/de-mux.

Figure 5.46 Program

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5.6 R2TP Processor Setting

Click R2TP Processor in main menu 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 5.47 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.

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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 5.48 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



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



After the transport stream is configured, click on and click to enable the transmitting.

Click off and click to stop the transmitting. Click 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 5.49 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

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5.6.2.2 Transmit RTMP

Transmit RTMP



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



Service List Select the service ID of the stream to transmit



5.6.2.3 Receive R2TP/R2TP-S

Figure 5.50 Receive R2TP/R2TP-S

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


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


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.



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 5.51 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 5.52 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 5.53 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 IPASI Output I/O Module (IO-IPASI-O)

Click in IP Out*2 ASI Out*2 bar to configure output settings of IO-IPASO-O module.

IO-IPASO-O support IP output by 2 Ethernet ports, and ASI output by 2 channels.

Click in Stream1&2 bar to configure IP output.

Click in ASI Out1/2 bar to configure ASI output.

5.7.1.1 IP settings

Select IP Settings column to configure network settings of each IP stream Ethernet ports.

Figure 5.54 IP settings

IP Address: Ethernet port IP address setting.

Subnet Mask: Ethernet port netmask setting.

Gateway: Ethernet port gateway setting.

Work Mode: Ethernet port IP address 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.


Web Control


5.7.1.2 Output Settings

Select Output Settings column to configure IP output streams. 10 SPTS channels and 3 MPTS

channels can be configured independently, and each channel support 2 streams output to 2

different target address by different Ethernet port.

Figure 5.55 Output Settings

Table 5.14 Output Settings Parameters

Item Option Comment

Output

Settings

Enable ON

Enable using the current Ethernet port OFF

IP <Custom> Destination IP address

Port 1025~65535 Destination IP port

Protocol UDP

Transport Protocol RTP

TTL 1~255 Time to Live

Service —— Service ID to output

Web Control



Bitrate —— Greater than the bitrate of selected service

5.7.1.3 Status

Select Status column to view the status of each IP stream port.

Figure 5.56 Status of the stream page

5.7.1.4 Tools

Click Tools to use the network ping tools.

Figure 5.57 Tools

Use the ping tools to check the connection status between stream port and destination IP address.

Select the stream port and input destination IP address, click to get the result.

Click to reset the target IP address.

Web Control

5.7.2 ASI I/O Module

Click in ASI Out1/2/3/4 bar to configure ASI output.

Figure 5.58 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.



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 5.59 Alarm

The alarm info will be listed on time sequence. Click to select the type and click to

view the alarm of these types.

Click to remove current alarm info.

Annex

Annex A - Specifications

Module

422 HD Digital Encoder Module (HDE-422) 420 HD Digital Encoder Module (HDE-420)

Video Encoding

Video input: HD/SD-SDI, HDMI

Video coding: H.264

Resolution: 1080P@25/29.97/30

1080i@50/59.94

720P@50/59.94/60

576i@50, [email protected]

Chroma: 4:2:2, 4:2:0

Latency: regular: 800ms

low: 120ms

Video bit rate: HD: 2-60Mbps, SD: 0.5-60Mbps

Bit Rate Control: CBR

Entropy: CAVLC, CABAC

Video Loop-Out: HD-SD/SDI

Audio Encoding

Audio input: AES-EBU, SDI Embedded, HDMI Embedded

Audio coding: MPEG-1 layer II, MPEG-4 AAC-LC,

Audio Channel: 4 stereo

Audio mode: Stereo, Mono

Audio bit rate: MPEG-1 layer II: 64-384Kbps

AAC: 64-384Kbps

Support audio loudness automatic control: ITU-R BS.1770

Scrambling

Support BISS-1/E scrambling

Video Encoding


Video coding: H.264

Resolution: 1080P@25/29.97/30

1080i@50/59.94

720P@50/59.94/60


Chroma: 4:2:0

Latency: regular: 800ms

low: 120ms





Audio Encoding

Audio input: AES-EBU, SDI Embedded, HDMI Embedded




Audio bit rate: MPEG-1 layer II: 64-384Kbps

AAC: 64-384Kbps

Support audio loudness automatic control: ITU-R BS.1770

Scrambling


Annex

SD Digital/Analog Encoder Module (SDE-420) Multi-Stream HD Digital Encoder Module (MHDE-420)

Video Encoding

Video input: SD-SDI, CVBS

Video coding: H.264, MPEG-2

Resolution: 576i@50, [email protected]/60

Chroma: 4:2:0

Video bit rate: 2 channels: H.264: 250K~6Mbps

MPEG-2: 500K~7Mbps



Audio Encoding

Audio input: SDI Embedded, Analog, AES-EBU


MPEG-4 HE-AAC, Dolby AC-3 pass-through


Audio bit rate: MPEG1 layer II: 64-384Kbps

AAC: 64-384Kbps

Scrambling


Video Encoding


Video coding: H.264

Resolution: 1080P@50/59.94

1080P@25/29.97

1080i@50/59.94

720P@50/59.94/25


Chroma: 4:2:0


Bit Rate Control: CBR, VBR


Audio Encoding

Audio input: SDI Embedded, HDMI Embedded, Analog



Audio mode: Stereo, Dual Mono, Mono

Multi-Stream

Support 3 encoding streams output with different bitrates

Scrambling


Multi-Channel H.264 Transcoder Module (MHDT-420) ASI I/O Module (IO-ASI)

Video Transcoding

Video input: H.264, MPEG-2

Video output: H.264

Resolution: 1080P@50/50.94

1080P@25/29.97

1080i@25/29.97

720P@50/59.94


Chroma: 4:2:0

Audio Transcoding

Audio transcoding: MPEG-1 layer II

MPEG-4 AAC-LC,

MPEG-4 HE-AAC V1

Support various ASI I/O combination pattern:

4 input

3 input and 1 output



4 output

ASI gateway in one unit for channel backup

Support EN-50083-9 standard

Support 188bytes

ASI bit rate: 0~200Mbps for 1 channel

Support Genlock input and loop out

Annex

IPASI Output I/O Module (IO-IPASI-O) Multi-Protocol IP Transmitting Module (SMIP)

Support 2 TS over ASI output

Streaming Port: 2 x 10/100/1000Base-T Ethernet RJ45

Transport Protocol: UDP, RTP

Transport Mode: Unicast, Multicast

Support 10 SPTS over IP output, 3 MPTS over IP output

Each program support output to 2 target address by different

Ethernet ports

Bit rate: IP: 0~600Mbps (Each port)

ASI: 0~200Mbps (Each port)

Support Genlock

Slot in front panel

4x 10/100/1000Base-T Ethernet, RJ45

Each streaming port can be configured as TX or RX

Support Protocol:R2TP, R2TP-S, RTMP, UDP

Max Stream Channel: (Each streaming port)

R2TP/R2TP-S: 2, RTMP: 2

Max Bit Rate: (Each streaming port)

R2TP/R2TP-S: 60Mbps, RTMP: 20Mbps, UDP: 60Mbps

Support DHCP

Support DNS

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

Slots 6 slots in rear panel

1 slot in front panel

Power Mode Chassis-R-H: Hot-swap redundancy power supply

Chassis-R: Dual redundancy power supply

Input Voltage 100-240V, 50/60Hz

Consumption

(Full Loaded) 60W

Temperature 0-50℃

ivp-3000 series multi-channel hd/sd encoder€¦ · introduction hd encoder support 4 channel...

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