|
|
|
Digital TV Monitor
MTM400A
|
Features & Benefits
- Multilayer, multichannel, remote
monitoring and measurement at RF and TS layers to DVB, ATSC, DCII
and ISDB-T/Tb standards with content-checking support for both MPEG-2
and H.264/AVC
- Displays key RF monitoring parameters for DVB-T,
ATSC, DVB-S/S2 and DVB-C/QAM interfaces to provide early indication
of signal degradation before any picture impairment is visible to
the end customer
- No additional analysis software is needed;
all confidence and diagnostic analysis is carried out from the MTM400A
alone
Applications
- Contribution and Primary
Distribution
- Terrestrial Distribution
- Cable
Headend Monitoring
- DTH or Network Operator Satellite Uplink
Monitoring
- IPTV Ingest and Headend Monitoring
Introduction
The MTM400A provides a complete solution for real-time transmission
monitoring of MPEG Transport Streams over RF, IP and ASI interfaces.
Powerful confidence monitoring capability and deep diagnostic measurements
are both combined into a single integrated solution. This supports
Broadcasters, Cable, Satellite and Telecommunication Operators to
deliver superior QoS levels with reduced operational expenditure.
Deployed at key network nodes, the MTM400A provides an intuitive
and simplified presentation of video quality and diagnostic information.
This supports the delivery of superior Qualify of Service (QoS) levels
in an increasingly complex broadcast environment.
When used
together with VQNet™, facility and network-wide views allow engineers
to sectionalize network problems.
Product Information
- Critical RF measurements; MER and EVM, constellation displays,
RF levels, channel power, SNR, BER, Phase Noise and Impulse Response
- Provides early indication of signal degradation before
any picture impairment is visible to the end customer
- DVB-S2
interface includes 16 and 32APSK for contribution and distribution
applications
- Video/Audio content checking for both
MPEG-2 and H.264/AVC
- Thumbnail decode and display of
multiple channels, simultaneously provides a visual check of content
with encoding parameters available to the user (such as codec type,
profiles and levels, aspect ratio, program guide event information,
etc.)
- Backhaul of actual video and/or audio allows content
to be fed back to the central monitoring point to see and hear the
content being broadcast (encrypted content can be routed to a STB
for hardware decode)
- "Green Stream" learning mode
- Allows monitoring-by-exception and elimination of false
alarms
- Multiplex view
- Allows an at-a-glance
view of program utilization over an extended period allowing the user
to see if bandwidth spikes occurred
- Unique 2-level
Alarms
- Uniquely provides advanced warning of impending
problems to avoid customer complaints. Single-level alarming means
the alert can only be generated. With 2-level alarms, separate warning
and failure alarms are not possible
- FlexVuPlus™
- Uniquely presents simplified presentation of video quality
and diagnostic information
- Filtered logs
- Allows diagnostics to be performed at the TS, Program or PID levels
to "zoom in" on problems quickly
- Simultaneous connection
of multiple remote users and Multi-sink SNMP traps for Network Management
Systems (NMS)
- Provides early visibility of problems
to key individuals throughout the organization, supporting quicker
notification and corrective action
- Allows multiple users
and/or NMS to access the MTM400A simultaneously
FlexVuPlus™ configurable windows with DVB-S2 display.
Video and audio content monitoring to ensure
QoE is maintained.
MTM400A Software Options
- Trigger recording to be captured and rapidly analyzed in
greater depth using powerful offline analysis tools such as the Tektronix
MTS4SA software.
- 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.
- Exception
monitoring with simple, automated template generation from reference
streams. Template testing checks a number of key parameters to ensure
the transport stream has been constructed as 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.
- Advanced Timing Analysis including unique PTS-PCR graphs for
Real-Time Buffer measurements. This provides indication of encoding
and multiplexing errors and in-depth PCR analysis; the resulting graphical
views enable timing and jitter measurements to ensure correct operation
of the network.
- Bit rate testing determines whether PIDs,
programs, services or user-defined groups of PIDs are within user-definable
limits, ensuring correct multiplex operation. Tektronix proprietary
PID variability test gives indication of PID bit rate variation to
assess effects of statistical multiplexing.
- Comprehensive
service logging enables verification of service-level agreements to
ensure contractual obligations are met.
- The channel polling
capability for the MTM400A, combined with RF interfaces, allows up
to 200 RF channels to be monitored in a repeating cyclical measurement
process. Control and configuration of the polling is undertaken using
flexible XML scripting. This polling ability makes a single MTM400A
a broader tool, monitoring large numbers of network points in a time-sampled
measurement mode.
Advanced Timing Analysis
including PTS-PCR for Real-Time Buffer measurements to give indication
of encoding and multiplexing errors.
Technical
Overview
- SCTE-142 and A/78 monitoring modes classify
five distinct levels of importance
- Transport Stream
Off Air (TOA), Program Off Air (POA), Component Missing (CM), Quality
of Service (QoS), Technically Nonconformant (TNC)
- Enables
filtering and display only of errors that require immediate attention
- Comprehensive TR 101 290 Priority 1, 2 and 3 MPEG measurements
- Provides in-depth analysis of transport stream, syntax,
timing and content to support root-cause analysis of system errors
- Superior PCR measurements (PCR_OJ, DR and FO)
- PCR_OJ enable deterministic measurements on transport stream
and network induced jitter allowing such errors to be isolated
- DR and FO measurements allow diagnosis of longer-term system
degradation
- PSI/SI/PSIP/DC-II conformance and consistency
checking
- Closed Caption (EIA608/708 and SCTE20/21) and
Regional Ratings Descriptor (RRT) check ensures conformance to regulations
- SI/PSI/PSIP testing ensures set-top box performance (channel
change etc.) can be verified
- SCTE 35 DPI monitoring
- Allows analysis and diagnostics of "splice" advertising
and other local content
SCTE-142 and
A/78 modes classify five distinct levels of importance.
EPG View
Characteristics
Power Requirements
|
Characteristic
|
Description
|
|
Power Consumption (Nominal)
|
40 VA
|
|
Voltage
|
100 to 240 V
|
|
Frequency
|
50/60 Hz
|
Monitoring
|
Characteristic
|
Description
|
|
Data Rate
|
|
Maximum data rate
|
155 Mb/s*1
|
|
Minimum data rate
|
250 Kb/s
|
*1 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
maximum content is exceeded to ensure critical measurements continue
to be performed.
ATSC A/78A and SCTE142 Error Classifications
|
Classification
|
Description
|
|
TOA
|
Transport Stream Off Air
|
|
POA
|
Program Off Air
|
|
CM
|
Component Missing
|
|
QOS
|
Quality Of Service
|
|
TNC
|
Technically Nonconforming
|
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
|
DVB-S2 Interface Characteristics (Option S2)
|
Characteristic
|
Description
|
|
Input Frequency Range
|
950 MHz to 2150 MHz with 1 MHz step size
|
|
Input Signal Amplitude Range
|
–60 dBm to –30 dBm for a CBER of <1e–6
|
|
Modulation Format
|
QPSK in accordance with DVB-S (ETSI EN 300 421) QPSK, 8PSK,
16APSK and 32APSK in accordance with DVB-S2 (ETSI EN 302 307) including
Constant and Variable Coding and Modulation (CCM and VCM)
|
|
Modulated Baud Rate
|
1 MBaud min, 60 MBaud max
|
|
Code Rate
|
DVB-S: 1/2, 2/3, 3/4, 5/6, 6/7, 7/8
DVB-S2: 1/4, 1/3,
2/5, 1/2, 3/5, 2/3, 3/4, 4/5, 5/6, 8/9, 9/10
|
|
FEC Modes
|
Viterbi and Reed-solomon in accordance with DVB-S
LDPC
and BCH in accordance with DVB-S2
Short and Normal FEC blocks
in accordance with DVB-S2
|
|
Roll Off
|
0.2, 0.25, 0.35
|
|
Connector Style
|
F-style
|
|
Input Termination Impedance
|
75 Ω nominal
|
|
Input Return Loss
|
>6 dB min, 950 MHz to 2150 MHz
|
|
LNB Supply Voltage
|
Selectable; 13.0 V ±1.5 V or 18.0 V ±1.5 V, with 100 Ω, 5 W
resistor load
|
|
LNB Supply Maximum Current
|
200 mA max
|
|
LNB 22 kHz Signaling Frequency
|
17.6 kHz min, 26.4 kHz max (22 kHz ±20%)
|
|
LNB 22 kHz Signaling Amplitude
|
600 mVp-p with 100 Ω load
|
|
LNB Mode
|
DiSEqC 2
|
|
Ultimate Modulation Error Ratio
|
30 dB with Equalizer
|
DVB-S2 Measurement Characteristics (Option S2)
|
Characteristic
|
Description
|
|
RF Lock
|
RF lock indicated to the user by LED and Status on UI
|
|
Input Level
(Signal Strength)
|
Range: –60 dBm to –30 dBm
Resolution: 1 dBm
Accuracy: ±5 dBm
|
|
EVM (Error Vector Magnitude)
|
Display Range: ≤4.0% to ≥30.0% RMS
Resolution: 0.1%
Accuracy: ±20% of reading
|
|
MER (Modulation Error Ratio) with Equalizer
|
Display Range: 10 to 30 dB with Equalizer
Resolution:
1 dB
Accuracy: ±2 dB for range 10 to 20 dB
|
|
CNR (Carrier to Noise Ratio)
|
Display Range: 10 to 30 dB
Resolution: 1 dB
Accuracy: ±2 dB for range from 10 to 28 dB
|
|
Phase Noise
|
Display Range: 5 to 45° RMS
Resolution: 1°
|
|
Pre Viterbi BER
|
Pre-Viterbi BER displayed
|
|
Pre Reed Solomon (RS) BER
|
Pre-RS BER displayed
|
|
Pre LDPC BER
|
Pre-LDPC BER displayed
|
|
Pre BCH BER
|
Pre-BCH BER displayed
|
|
Post RS BER and TEF (Transport Error Flag)
|
Post Reed Solomon BER (TEF ratio), TEF rate and number of
Transport Error Flags (TEF count) displayed to the user
|
|
Transmission Parameters
|
All Coding and Modulation parameters are indicated to the
user in the UI
|
|
Constellation
|
The RF constellation displayed on the UI
|
COFDM Interface Characteristics (Option CF)
|
Characteristic
|
Description
|
|
Input Frequency Range
|
50 MHz to 858 MHz with 166.7 or 62.5 kHz step size
|
|
Tuning Accuracy
|
Better than ±50 ppm typical
|
|
Channel Bandwidth
|
6 MHz, 7 MHz and 8 MHz (SW selectable)
|
|
Connector Style
|
F-type with BNC adaptor
|
|
Input Termination Impedance
|
75 Ω nominal
|
|
Input Return Loss
|
7 dB typical 50 MHz to 858 MHz
|
|
Rx Lock Status
|
Indicated by LED on rear panel and by the UI
|
|
Modulation Scheme Supported
|
QPSK (4QAM), 16QAM and 64QAM modulation
|
|
Transmission Modes
|
2K carriers and 8K carriers
|
|
Hierarchical Modes
|
All hierarchies are be supported, including no hierarchy,
and alpha = 1, 2 and 4
|
|
Viterbi Puncture Rates
|
1/2, 2/3, 3/4, 5/6, 7/8
|
|
Guard Interval
|
1/32, 1/16, 1/8, 1/4
|
|
Spectrum Polarity
|
The receiver will operate with both inverted and normal spectral
polarity
|
|
Input Signal Amplitude Range
|
QPSK (4QAM): –85 dBm to –10 dBm (24 dBuV to 99 dBuV) typical
16QAM: –80 dBm to –10 dBm (29 dBuV to 99 dBuV) typical
64QAM: –72 dBm to –15 dBm (37 dBuV to 94 dBuV) typical
|
COFDM Measurement Characteristics (Option CF)
|
Characteristic
|
Description
|
|
Carrier Offset
|
Carrier offset is measured from the tuned channel
frequency to a accuracy of ±10 ppm typical
This includes the
ability to set alarms and produce trend graphs over a seven day period
including min, max and average
|
|
|
Display Range
|
Resolution
|
Accuracy
|
|
SNR (Signal to Noise Ratio)
|
6 dB to 40 dB for QPSK (4QAM)
11 dB to 40 dB for 16QAM
16 dB to 40 dB for 64QAM
|
1 dB
|
±1 dB to 30 dB SNR (measured at –30 dBm in high-resolution
mode) typical
|
|
EVM (Error Vector Magnitude)
|
1% to 30% RMS, for QPSK
1% to 20% RMS, 16QAM
1% to 8.5% RMS, 64QAM
|
0.1%
|
—
|
|
MER (Modulation Error Ratio) with Equalizer
Both
MER Peak and MER Average are displayed as measured across all carriers
|
6 dB to 37 dB for QPSK (4QAM)
11 dB to 37 dB for 16QAM
16 dB to 37 dB for 64QAM
|
0.1 dB
|
±1 dB to 30 dB (measured at –30 dBm in high-resolution mode)
typical
|
|
This includes the ability to set alarms and produce
trend graphs over a seven day period including min, max and average
|
|
Constellation
|
The RF constellation is displayed on the UI
|
|
Channel Impulse Response
|
Display of channel impulse response
|
|
Channel Spectral Response
|
Active receive channel spectrum, RF level vs.
frequency
|
|
BER (Bit Error Ratio)
|
Pre FEC, BER and Error Sec BER values are displayed.
This includes the ability to set alarms and produce trend graphs over
a seven-day period including min, max and average
|
|
Post Reed Solomon BER
|
Post RS BER (Uncorrectable Error Count) displayed.
This includes the ability to set alarms and produce trend graphs over
a seven-day period including min, max and average
|
|
TEF (Transport Error Flag)
|
Alarm generated on detection of a TEF
|
8VSB Interface Characteristics (Option VS)
|
Characteristic
|
Description
|
|
Input Frequency Range
|
54 MHz to 860 MHz, VHF/UHF channels 2 to 69
(to include
low VHF frequencies)
|
|
Input Signal Level
|
–72 dBm to –6 dBm (–23 dBmV to +43 dBmV) typical
|
|
Modulation Format
|
8VSB in accordance with ATSC A/53B
|
|
Receiver Bandwidth
|
6 MHz
|
|
Input Termination Impedance
|
75 Ω nominal
|
|
Connector Type
|
F-type Connector
|
|
Input Return Loss
|
5 dB typical
|
8VSB Measurement Characteristics (Option VS)
|
Characteristic
|
Description
|
|
RF Lock
|
RF lock is indicated by a LED on the rear panel
and a status indicator on the UI. This includes the ability to set
alarms and produce trend graphs over a seven-day period including
min, max and average
|
|
|
Range
|
Display Range
|
Resolution
|
Accuracy
|
|
Input Level
|
–72 dBm to –2 dBm
–23 dBmV to +47 dBmV relative to
75 Ω
|
—
|
1 dB
|
±3 dB up to –6 dBm input level typical
|
|
EVM (Error Vector Magnitude)
|
—
|
3% to 12.5% RMS
|
0.1% typical
|
—
|
|
Equivalent MER (Modulation Error Ratio)
|
—
|
15 dB to 36 dB
|
1 dB
|
±1 dB for MER
<25 dB typical
±3 dB for MER
25 dB to 32 dB typical
|
|
SNR (Signal to Noise Ratio)
|
—
|
15 dB to 35 dB
|
1 dB
|
±1 dB for SNR
<25 dB
±3 dB for SNR 25 dB
to 35 dB typical
|
|
This includes the ability to set alarms and produce
trend graphs over a seven-day period including min, max and average
|
|
BER (Bit Error Ratio)
|
Pre FEC, SER and Error Sec BER values displayed
on UI. This includes the ability to set alarms and produce trend graphs
over a seven-day period including min, max and average
|
|
Symbol Distribution
|
The Symbol Distribution is displayed on the UI
|
Turbo 8PSK Interface Characteristics (Option
EP)
|
Characteristic
|
Description
|
|
Interface Option EP provides both QPSK (L-band)
and Turbo 8PSK interface and measurement capability. For non-Turbo
code modulation formats the Option S2 card is recommended.
|
|
Input Frequency Range
|
950 MHz to 2150 MHz with 100 kHz step size
|
|
Modulation Format
|
Turbo 8PSK*2
|
|
Modulated Baud Rate
|
1 MBaud min, 30 MBaud max
|
|
Turbo Viterbi Values Supported
|
2/3, 3/4 (2.05), 3/4 (2.1), 5/6, 8/9
|
|
Turbo FEC
|
Turbo Code
|
|
Connector Style
|
F-style
|
|
Input Termination Impedance
|
75 Ω nominal
|
|
LNB Supply Voltage
|
Selectable; 13.0 V ±1.5 V or 18.0 V ±1.5 V
|
|
LNB Supply Maximum Current
|
200 mA max
|
|
LNB 22 kHz Signaling Frequency
|
17.6 kHz min, 26.4 kHz max (22 kHz ±20%)
|
|
LNB 22 kHz Signaling Amplitude
|
600 mVp-p with 100 Ω load
|
|
Modes Supported
|
Turbo 8PSK
|
*2 Please note that the Turbo 8PSK option
does not support nonturbo 8PSK (DVB-DSNG), or DVB-S2. For DVB-S2 please
use DVB-S/S2 interface card (Option S2).
Turbo 8PSK Measurement
Characteristics (Option EP) RF Measurements
|
Characteristic
|
Description
|
|
RF Lock
|
RF lock is indicated to the user by an LED on
the rear panel and a status icon on the UI
|
|
|
Range
|
Display Range
|
Resolution
|
Accuracy
|
|
Input Level (Signal Strength)
|
–60 dBm to –30 dBm
|
—
|
1 dBm
|
±5 dBm typical
|
|
EVM (Error Vector Magnitude)
|
—
|
≤4.0% to ≥30.0% RMS
|
0.1%
|
—
|
|
MER (Modulation Error Ratio) with Equalizer
|
—
|
10 to 26 dB with Equalizer
|
1 dB
|
±2 dB typical for range 10 to 20 dB
|
|
SNR (Signal to Noise Ratio)
|
—
|
5 to 35 dB
|
1 dB
|
±2 dB typical for range from 5 to 30 dB
|
|
This includes the ability to set alarms and produce
trend graphs over a seven-day period including min, max and average
|
|
Pre Reed Solomon (RS) BER
|
Pre-RS BER is displayed on the UI
|
|
Post RS BER and TEF (Transport Error Flag)
|
Post Reed Solomon BER (TEF ratio), TEF rate and
number of Transport Error Flags (TEF count) are displayed on the UI
|
|
Constellation
|
The RF constellation is displayed on the UI
|
QAM Interface Characteristics (Options QA, QB2,
QC)
|
Characteristic
|
QAM Annex A
|
QAM Annex B
|
QAM Annex C
|
|
Input Frequency Range
|
51 MHz to 858 MHz with 62.5 kHz step size
|
88 MHz to 858 MHz with 62.5 kHz step size
|
|
Modulation Format
|
16QAM, 64QAM, 256QAM compliant with ITU J-83 and DVB-C ETS
300 429
|
64QAM, 256QAM compliant with ITU J-83*3 SCTE07
Compliant
|
16QAM, 64QAM, 256QAM compliant with ITU J-83
|
|
Modulation Baud Rate
|
5 Mbaud/s min
6.952 Mbaud/s max
|
5.057 Mbaud/s and 5.360 Mbaud/s
|
5 Mbaud/s min
5.5 Mbaud/s max
|
|
Input Signal Level
|
–59 dBm to –19 dBm (50 dBuV to 90 dBuV relative to 75 Ω),
with a 16, 64 and 256 QAM input typical
|
–64 dBm to –19 dBm (45 dBuV to 90 dBuV relative to 75 Ω) with
a 64 and 256 QAM input typical
|
–59 dBm to –19 dBm (50 dBuV to 90 dBuV relative to 75 Ω),
with a 16, 64 and 256 QAM input typical
|
|
Ultimate Modulation Error Ratio
|
37 dB typical
|
|
Receiver Bandwidth
|
8 MHz nominal
|
6 MHz nominal
|
|
Input Termination Impedance
|
75 Ω nominal
|
|
Input Return Loss
|
–6 dB min, –10 dB typical, 51 MHz to 858 MHz
|
|
Loopthrough Power Gain
|
1.5 dB to 4 dB typical, 51 MHz to 858 MHz
|
N/A
|
N/A
|
|
Loopthrough Noise Figure
|
8 dB typical
|
N/A
|
N/A
|
|
Loopthrough Output Return Loss
|
>10 dB typical
|
N/A
|
N/A
|
*3 Level 1 and Level 2 interleaving support
compliant with all ITU J-83 Annex B, excluding I,J = 128,7 and 128,8
in all modes, 8,16 and 16,8 in 256QAM mode.
QAM Measurement
Characteristics
|
Characteristic
|
QAM Annex B Measurements (Option QB2)
|
QAM Annex A/C Measurements (Option QA or QC)
|
|
RF Lock
|
RF lock is indicated by a LED on the rear panel
and a status icon on UI
|
|
Input Level (Signal Strength)
|
|
Range
|
–64 dBm to –19 dBm
|
—
|
|
Resolution
|
1 dBm
|
—
|
|
Accuracy
|
±3 dBm typical
This includes the ability
to set alarms and produce trend graphs over a seven-day period including
min, max and average
|
—
|
|
EVM (Error Vector Magnitude)
|
|
Display Range for 64 QAM
|
≤1% to ≥5% RMS
|
|
Display Range for 256 QAM
|
≤1% to ≥2.5% RMS
|
|
Resolution
|
0.1%
|
|
Accuracy
|
Within 20% of reading for S/N >25 dB typical
This includes the ability to set alarms and produce
trend graphs over a seven-day period including min, max and average
|
|
MER (Modulation Error Ratio) with Equalizer
|
|
Display Range for 64 QAM
|
22 dB to 37 dB
|
—
|
|
Display Range for 256 QAM
|
28 dB to 37 dB
|
—
|
|
Resolution
|
0.1 dB
|
—
|
|
Accuracy
|
±1 dB for MER <25 dB
±3 dB for MER 25 dB to 34 dB
typical
This includes the ability to set alarms
and produce trend graphs over a seven-day period including min, max
and average
|
—
|
|
Ultimate MER (Modulation Error Ratio)
|
—
|
38 dB typical
|
|
SNR
|
|
Display Range for 64 QAM
|
22 dB to 37 dB
|
—
|
|
Display Range for 256 QAM
|
28 dB to 37 dB
|
—
|
|
Resolution
|
1 dB
|
—
|
|
Accuracy
|
±1 dB for MER <25 dB
±3 dB for MER 25 dB to 34 dB
typical
This includes the ability to set alarms
and produce trend graphs over a seven-day period including min, max
and average
|
—
|
|
BER
|
Pre FEC, SER and Error Sec BER values are displayed
|
—
|
|
Post RS BER and TEF (Transport Error Flag)
|
Post Reed Solomon BER (uncorrectable error count)
and number of Transport Error Flags are displayed on the UI
|
|
Constellation
|
The RF constellation is displayed on the UI
|
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*4
|
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
|
*4 Weight does not include optional interface
cards.
Ordering Information
MTM400A
MPEG Transport
Stream Monitor.
Includes: 1RU chassis fitted with transport
stream processor card, manual, rack slides, power cord and license
key certificate.
Options
|
Option
|
Description
|
|
Opt. 01
|
Triggered recording capability up to 160 MB
|
|
Opt. 02
|
Transport stream service information analysis (PSI/SI/PSIP/ARIB
view)
|
|
Opt. 03
|
Template testing (for user-defined service plan testing)
|
|
Opt. 04
|
In-depth PCR analysis with graphical result views
|
|
Opt. 05
|
Bit rate testing functionality
|
|
Opt. 06
|
Service logging
|
|
Opt. 07
|
IP/RF Polling functionality
|
|
Opt. CF
|
COFDM Interface
|
|
Opt. QB2
|
QAM Annex B Level 1 and Level 2 Interface
|
|
Opt. EP
|
8PSK/QPSK Interface
|
|
Opt. VS
|
8VSB Interface
|
|
Opt. QA
|
QAM Annex A Interface
|
|
Opt. QC
|
QAM Annex C Interface
|
|
Opt. S2
|
DVB-S/S2 Interface
|
Language Options
|
Option
|
Description
|
|
Opt. L0
|
English User Guide
|
|
Opt. L5
|
Japanese User Guide
|
Service Options
|
Option
|
Description
|
|
Opt. R3
|
Repair Service 3 Years (including warranty)
|
|
Opt. R5
|
Repair Service 5 Years (including warranty)
|
Power Connections
|
Option
|
Description
|
|
Opt. A0
|
North America power plug
|
|
Opt. A1
|
Universal EURO power plug
|
|
Opt. A2
|
United Kingdom power plug
|
|
Opt. A3
|
Australia power plug
|
|
Opt. A4
|
240 V North America power plug
|
|
Opt. A5
|
Switzerland power plug
|
|
Opt. A6
|
Japan power Plug
|
|
Opt. A10
|
China power plug
|
|
Opt. A99
|
No power cord or AC adapter
|
Complementary Products
|
Option
|
Description
|
|
MTS4SA Opt. TSCL
|
Stand-alone Deferred Time Software package. DVB/ATSC/ARIB
TS Compliance Analyzer Software (TS file size limited to 192 MB).
For full details see separate data sheet
|
|
VQNet
|
Video Service Assurance Management System. For full details
please see separate data sheet
|
|
Opt. TSCL
|
DVB/ATSC/ARIB TS Compliance Analyzer Software (TS file size
limited to 192 MB). For full details see separate data sheet
|
Field Upgrade Kits
|
Option
|
Description
|
|
Field Upgrade Kit to Add:
|
|
MTM4UP Opt. CF
|
Adds COFDM Interface
|
|
MTM4UP Opt. EP
|
Adds 8PSK/QPSK Interface
|
|
MTM4UP Opt. GE
|
Adds GbE IP Video monitoring interface
|
|
MTM4UP Opt. LX
|
1000Base-LX Long Wavelength Optical Port with LC connector
(Single Mode 1310 nm)
|
|
MTM4UP Opt. QA
|
Adds QAM Annex A Interface to an existing probe
|
|
MTM4UP Opt. QB2
|
Adds QAM Annex B Interface
|
|
MTM4UP Opt. QC
|
Adds QAM Annex C Interface to an existing probe
|
|
MTM4UP Opt. SX
|
1000Base-SX Short Wavelength Optical Port with LC connector
(Multi Mode 850 nm)
|
|
MTM4UP Opt. S2
|
Adds DVB-S/S2 Interface
|
|
MTM4UP Opt. VS
|
Adds 8VSB Interface
|
|
MTM4UP Opt. ZX
|
1000Base-ZX Optical Port with LC connector (Single Mode 1550 nm)
(requires Opt. GE)
|
|
MTM4UP Opt. 01
|
Adds triggered recording capability up to 160 MB
|
|
MTM4UP Opt. 02
|
Adds transport stream service information analysis (PSI/SI/PSIP/ARIB
view)
|
|
MTM4UP Opt. 03
|
Adds template testing (for user-defined service plan testing)
|
|
MTM4UP Opt. 04
|
Adds in-depth PCR analysis with graphical result views
|
|
MTM4UP Opt. 05
|
Adds bit rate testing functionality
|
|
MTM4UP Opt. 06
|
Adds service logging
|
|
MTM4UP Opt. 07
|
Adds IP/RF polling functionality
|
|
Other
|
|
MTM4UP Opt. IFC
|
One-time install of all selected options and calibration for
one product
|
|
|
Product(s) are manufactured in ISO registered facilities.
|
2AW-21525-6, 17-NOV-2009
|
|
 |
(WebID: 13272)
|
