MTM400 with GbE Interface and Option 7

MPEG over IP Real-Time Monitor with Channel Polling
Tektronix 已不再販售此產品規格表上所列的產品。

線上參閱:

Features & Benefits*1

  • Multilayer, Multichannel, Remote Monitoring and Measurement at IP, RF, and Transport Layers to DVB (TR 101 290), ATSC, DigiCipher® II (DCII), and ISDB-T (Terrestrial and Mobile) Standards
  • Comprehensive Confidence Monitoring of Video over IP with Optional Gigabit Ethernet Electrical and Optical Interfaces, IP Protocol Support Including UDP, RTP with IGMP, ARP, and ICMP (Remote ping)
  • Session Monitoring Support for:
    • Discovery of All Sessions/Flows on the Link with RTP/UDP and TS Present Indicators
    • Session Bit Rate Monitoring
    • IP Packet Error and Transport Stream Layer Error*2 Status of All Sessions
  • IP Measurements and Alarming, Including Total Traffic Bit Rate, Instantaneous TS Rate, Errored Packets, RTP Dropped Packets, RTP Out-of-Order Packets, and Packet Interarrival Timing (PIT)
  • MTM400 with IP or RF Interface can Switch between IP or RF Monitoring and Transport Stream Monitoring within the One Probe
  • DPI (SCTE-35) Local Content Insertion Monitoring
  • DigiCipher® II (DCII) Protocol Support
  • User-defined Template Monitoring Option to Ensure Right Content at the Right Place at the Right Time while Content Ratings Checking Ensures Only Appropriate Content Broadcast
  • Remote Recording Allows Capture and Analysis of Stream Events for Expert Offline Analysis to Diagnose Difficult and Intermittent Problems, Requiring No Engineer Site Visits
  • Scalable, Upgradeable Monitoring Capability Provides Extended Confidence Monitoring, where You Buy the Capability You Need when You Need It
  • In-field Upgrades Minimizes Upgrade Time
  • Simple User Interface Minimizes Staff Familiarization Time

Applications

  • Contribution and Primary Distribution
    • Terrestrial Distribution
    • Cable Head-end Monitoring
    • DTH or Network Operator Satellite Uplink Monitoring
  • IPTV
  • Edge Network Monitoring
    • ASI to RF
    • IP to RF (Requires two MTM400 units)
    • IP to ASI

*1 Separate data sheet is available.

*2 Sync Byte, Sync Error, and Continuity Count.

Technical Overview

Increasingly, monitoring of Gigabit Ethernet and RF transmission is becoming essential for efficient MPEG network operations and proactive fault prevention. The MTM400 is the industry-leading solution for 24×7 MPEG network monitoring, and with both RF and IP interfaces is ideally positioned for monitoring trunk IP feeds and RF drops to the end customer. The Gigabit Ethernet Interface, which was announced to the market in August 2006, has successfully provided full TR 101 290 Priority 1, 2, and 3 monitoring on a single session within an IP stream.

The new polling capability for the MTM400 probe, combined with RF and IP interfaces allows up to 200 RF channels or IP sessions (discovering up to 500 IP sessions) to be monitored in a repeating cyclic measurement process. Control and configuration of the polling is undertaken using flexible XML scripting. This polling ability, combined with the ability to construct and manage multicast groups using IGMP, makes a single MTM400 probe a broader tool, monitoring large numbers of network points in a time-sampled measurement mode.

Enhancements included in the new firmware also provide incremental functional performance within the core product, as well as flexibility offered by the polling capability.

The MTM400 GE with Option 7 provides:

  • Broad but shallow IP and narrow and deep MPEG monitoring in a single solution
  • RF and IP polling capability to cost-effectively monitor multiple RF and IP channels
  • Monitoring across both the IP and MPEG layers
  • Optional RF measurement interfaces for network edge monitoring
  • Downloadable remote GUI
  • Integrates through SNMP with large network control systems

Features and Benefits

The MTM400 uses a single Transport Stream processor platform packaged in a 1 RU rackmount chassis to provide monitoring of a Transport Stream at data rates up to 155 Mb/s*3. The platform is used to provide an extended confidence monitoring product that, with the addition of software options, provides diagnostic monitoring capabilities.

The extended confidence monitor provides the key MPEG tests; this basic level of functionality and low cost enables widespread deployment throughout a transmission network, facilitating rapid fault isolation. The diagnostic monitoring options provide more in-depth analysis of the MPEG Transport Stream including recording capability, PSI/SI/PSIP/ARIB analysis, and unique user-defined template tests to ensure right content, right place, right time. Deployed at key network nodes, the MTM400 equipped as a diagnostic monitor enables the cause of faults to be pinpointed and solved.

The Gigabit Ethernet Interface allows monitoring and measurement of key IP parameters Designed for monitoring networks which carry Multiprogram Transport Streams (MPTS) or Single Program Transport Streams (SPTS) over Gigabit Ethernet networks MTM400 Option GE provides:

  • Simultaneous monitoring of both IP and MPEG layers to enable rapid fault isolation
  • Comprehensive confidence monitoring of video over IP with optional Gigabit Ethernet electrical and optical interfaces, IP protocol support including UDP, RTP with Internet Group Management Protocol (IGMP), Address Resolution Protocol (ARP), and Internet Control Message Protocol (ICMP remote ping)

IP session monitoring support for:

  • Discovery of all sessions/flows on the link with RTP/UDP and TS present indicators
  • Session bit rate monitoring
  • Simultaneous IP packet error and TS error*2 status of all sessions

*2 Sync Byte, Sync Error, and Continuity Count.

*3 Maximum Transport Stream bit rate is dependent on Transport Stream content and depth of analysis being performed. Depth of stream analysis is handled gracefully if SI/PSIP max content is exceeded to ensure critical measurements continue to be performed.

Flexible and Upgradeable

The MTM400 provides a flexible solution with an upgrade path, including diagnostic monitoring features that enable customers to build a cost-effective monitoring system to suit their individual requirements. Diagnostic capability can be added to the key monitoring points where Transport Streams are manipulated while extended confidence monitoring probes can be installed throughout the network:

  • Triggered recording enables problems to be captured and analyzed in greater depth using offline analysis tools such as the Tektronix MPEG Test System Standalone Software*1
  • PSI/SI/PSIP/ARIB SI Analysis and repetition rate graphing allows broadcasters to determine that the system information is present and correct in the Transport Stream
  • Template testing checks a number of key parameters to ensure that the Transport Stream has been constructed as the broadcaster intended. These parameters include the Transport Stream ID and Network ID, the number of programs in the multiplex, that each program has all of its components (Video, Audio, Data, Teletext, Subtitles), and Conditional Access (CA) status
  • Bit rate testing determines whether PIDs, programs, services, or user-defined groups of PIDs are within user-definable limits to ensure correct multiplex operation. Tektronix-proprietary PID variability test gives indication of PID bit rate variation to assess effects of statistical multiplexing
  • In-depth PCR analysis with graphical results views enable timing and Jitter measurements to be made to ensure correct operation of the network
  • Service logging enables verification of service-level agreements to ensure that contractual obligations are met
  • Offline analysis software applications for in-depth deferred-time analysis of streams captured using the MTM400 gives Tektronix the most powerful MPEG monitoring diagnostics available in the world today*4

In addition, key enhancements provided by the v.2.5.x firmware release and new Option 7 are as follows:

  • Channel Polling: Allows up to 200 channels to be polled sequentially from either the IP or the RF interface (requires Option 7 enabled)
  • Monitoring up to 500 IP Sessions: Wide but shallow IP monitoring of key MPEG parameters, including Continuity Count, Sync Loss, Sync byte, and Packet Interarrival Time (PIT)
  • Logging and Trap Enhancements: Provide logging and SNMP trap support for all identified streams to include TS and IP errors
  • Multichannel IGMP: Manually construct and manage groups of multicast (IGMP) streams for monitoring
  • Automatic Template Generation: Simple automated template generation from reference stream for exception monitoring
  • Filtered Error Logs for All IP Sessions: Locked session only and all error entries

*1 Separate data sheet is available.

*4 MTS400 Series MPEG Test System offline software tools are available for use with the MTM400. These are standalone software applications intended to run on the MLM1000 control PC. Separate data sheet is available.

Applications

Contribution and Primary Distribution

Digital video contribution and distribution networks carry compressed video from many origination points to multiple delivery points over limited bandwidth links. Delivery of the right content at the right place at the right time is key to efficient network operation and customer satisfaction. Failure to deliver video services at the appropriate Quality of Service (QoS) leads to potential loss of revenue if video content is not delivered per the service-level agreement.

  • MTM400’s low-cost extended confidence monitoring enables widespread deployment
  • High bit rate capability, up to 155 Mb/s*3, for monitoring Transport Streams carried over GbE/ATM/OC3/SDH
  • Bit rate testing and logging enables bandwidth usage to be monitored and Service-level Agreements to be verified

*3 Maximum Transport Stream bit rate is dependent on Transport Stream content and depth of analysis being performed. Depth of stream analysis is handled gracefully if SI/PSIP max content is exceeded to ensure critical measurements continue to be performed.

MPEG over IP Distribution

Internet Protocol distribution of MPEG-2, MPEG-4/AVC (H.264), and VC1 encoded material is increasing dramatically due to the low cost, and ease of routing of packet-based transmission networks. While IP distribution has some clear advantages it also brings its own challenges, particularly in terms of ensuring consistent quality of service. MTM400 with its IP interface option provides MSOs, broadcasters, and network operators with the toolset required to monitor and diagnose complex transmission problems seamlessly across an IP to MPEG network.

With dedicated Gigabit Ethernet electrical and pluggable optical Small Format Pluggable (SFP) modules, the IP monitoring option on MTM400 provides all the industry-standard interfaces required to connect to IP-based MPEG transmission and distribution networks.

Additionally the Gigabit Ethernet Interface provides an ASI/SMPTE310M input and output allowing access to a direct de-packetized MPEG stream for analysis and recording. Input source on the Gigabit Ethernet card can be switched between Ethernet Electrical (RJ45) and Ethernet Optical (SFP at Multi Mode 850 nm, Single Mode 1310 nm, Single Mode 1550 nm).

Protocols supported include:

  • User Datagram Protocol (UDP)
  • Real Time Protocol (RTP)
  • Internet Protocol (IP)
  • Virtual Local Area Network (VLAN)
  • Ethernet (10/100/1000 Mb/s)

With multicast and control support for:

  • Address Resolution Protocol (ARP)
  • Internet Control Message Protocol (ICMP remote ping)
  • Internet Group Management Protocol (IGMP)

Characteristics

Power Requirements

Power Consumption (nominal) - 40 VA.

Voltage - 100 to 240 V.

Frequency - 50/60 Hz.

Monitoring

Data Rate

Maximum Data Rate - 155 Mb/s*5.

Minimum Data Rate - 250 Kb/s.

*5 Maximum Transport Stream bit rate is dependent on Transport Stream content and depth of analysis being performed. Stream analysis is handled gracefully if SI/PSIP max content is exceeded to ensure critical measurements continue to be performed.

TR 101 290 Tests and Measurements

1st Priority Measurements

2nd Priority Measurements

3rd Priority Measurements

1.1 Ts_sync_loss

2.1 Transport error

3.1a NIT_actual_error

1.2 Sync_byte_error

2.2 CRC_error

3.1b NIT_other_error

1.3a PAT_error_2

2.3a PCR_repetition_error

3.2 SI repetition error

1.4 Continuity_count_error

2.3b PCR_discontinuity_indicator_error

3.4a Unreferenced PID

1.5a PMT_error_2

2.4 PCR_accuracy_error

3.5a SDT_actual_error

1.6 PID_error

2.5 PTS_error

3.5b SDT_other_error

 

2.6 CAT_error

3.6a EIT_actual_error

 

 

3.6b EIT_other_error

 

 

3.6c EIT_PF_error

 

 

3.7 RST_error

 

 

3.8 TDT_error

MPEG over Gigabit Ethernet (Gigabit Ethernet IP Option GE)

Interconnect Port Option

Description

Opt. GE

Gigabit Ethernet Interface with 10/100/1000Base-T RJ45 electrical port

Optical SFP Modules

Plug into MTM400 Opt. GE to provide optical connectivity

   Opt. SX

1000Base-SX Short-wavelength optical port with LC connector for MTM400 Gigabit Ethernet Interface

(Multi Mode 850 nm)

   Opt. LX

1000Base-LX Long-wavelength optical port with LC connector for MTM400 Gigabit Ethernet Interface

(Single Mode 1310 nm)

   Opt. ZX

1000Base-ZX Optical port with LC connector for MTM400 Gigabit Ethernet Interface

(Single Mode 1550 nm)

Environmental

Characteristic

Description

Temperature

   Operating

+5 °C to +40 °C

   Nonoperating

-10 °C to +60 °C

Humidity

   Operating

Maximum relative humidity 80% for temperatures up to 31 °C decreasing linearly to 50% relative humidity at 40 °C

   Nonoperating

10% to 95% relative humidity, noncondensing

Altitude

   Operating

0 m to 3000 m (9800 ft.)

   Nonoperating

0 m to 12000 m (40000 ft.)

Random Vibration

   Operating

5 to 500 Hz, GRMS = 2.28

   Nonoperating

.5 to 500 Hz, GRMS = 0.27

Functional Shock

   Operating

30 G, half sine, 11 ms duration

Electromagnetic Compatibility

   EC Declaration of Conformity

Meets EN55103. Electromagnetic environment E4

   Australia / New Zealand Declaration of Conformity

Meets AS/NZS 2064

   FCC

Emissions are within FCC CFR 47, Part 15, Subpart B, Class A limits

Safety

Meets 73/23/EEC, EN61010-1, UL3111-1 and CAN/CSA 22.2 No. 1010.1-92, IEC61010-1

Physical Characteristics

Dimension

mm

in.

Height

44

1.73

Width

430

17.13

Depth

600

23.62

Weight*6

kg

lb.

Net

6.0

13.3

Shipping

9.0

19.7

Required Clearance

mm

in.

Top

0

0

Bottom

0

0

Left Side

Standard 19 in. rackmount

Right Side

Standard 19 in. rackmount

Front

Clearance for handles required

Rear

Clearance for connectors required

*6 Weight does not include optional interface cards.

Last Modified:
下載
下載

下載手冊、產品規格表、軟體等等:

Go to top