Product Introduction

MX370160A

CMMB waveform generation software

MG3700A

Vector Signal Generator

For MG3700A Vector Signal Generator

MX370160A

CMMB waveform generation software

Product Introduction

Version 3.0

ANRITSU CORPORATION

Slide 1

MX370160A-E-L-1

MG3700A: For Generating Digital Terrestrial Broadcast Signals

The MG3700A Vector Signal Generator outputs Viterbi-BER data and video waveforms for Digital Terrestrial

Broadcasting (CMMB)

*This software reads your “MFS format” video contents files and generates MG3700A

“video”

waveform patterns.

If you do not have

“MFS format” video contents files, it generates

“Viterbi-BER”

waveform patterns.

PC

CF Card

Key features of MG3700A

Frequency: 250 kHz to 3 GHz (Standard)

250 kHz to 6 GHz (Option)

Output Level (CW):

–140 to +13 dBm (Standard)

–140 to +19 dBm (Option)

Level Accuracy:



0.5 dBm

Waveform Combine Function: Two built-in ARB memories support simultaneous output of two signals using one unit.

MG3700A

Vector Signal Generator

1. CMMB waveform pattern generated on PC or

100Base-TX LAN

2. Waveform data transferred to MG3700A

3. Waveform data selected and output

The waveform patterns must be installed on the MG3700A HDD only for the first time. Waveforms can then be read from the HDD.

MX370160A

License key required

Slide 2

MX370160A-E-L-1

MG3700A: Key Hardware Features



Main Performance

• Frequency Range 250 kHz to 6 GHz

250 kHz to 3 GHz (Standard)

250 kHz to 6 GHz (Option)

• Wideband Vector Modulation

120 MHz (using built-in baseband generator)

150 MHz (using external IQ)

• High Level Accuracy

Absolute:



0.5 dB

Linearity:



0.2 dB typ.

•

Waveform Combine Function

Output two signals of different frequencies*

at separate levels

• Built-in BER Measurement

Input Bit Rate: 1 kbps to 20 Mbps (Standard)

Input Bit Rate: 100 bps to 120Mbps (Option)

• Built-in 40 GB HDD

• Max. 2 GB Arbitrary Waveform Memory

1 GB = 256 Msamples/ch (Standard)

2 GB = 512 Msamples/ch (Option)

• Waveform Transfer and Remote Control via

100Base-TX LAN

• Weight:



15 kg (without options)

The MG3700A key features are listed opposite.

The waveform combine function saves a different signal in each built-in ARB memory and supports frequency offset, as well as output of two different video channels.

Ch1

Video 1

Product

Ch2

Video 2

Product

Slide 3

MX370160A-E-L-1

*The MG3700A has a modulation bandwidth of 120 MHz max. when using frequency offset. There is a limit due to sampling.

MG3700A: Software Lineup



The MG3700A Supports Various

Communication Systems

• Built-in Waveform Patterns

- W-CDMA/HSDPA, - GSM/EDGE, - PDC, - PHS

- CDMA2000 1x/1xEV-DO, - AWGN

- Bluetooth, - GPS

- Broadcasting (ISDB-T/BS/CS/CATV)

- Wireless LAN (IEEE802.11a/11b/11g)

• Optional Waveform Patterns (sold separately)

- TD-SCDMA

- Public Wireless System

(RCR STD-39, ARIB STD-T61/T79/T86)

• Waveform Generation Software: IQproducer (sold separately)

- W-CDMA, - AWGN, - HSDPA/HSUPA,

- 3GPP LTE (FDD), - 3GPP LTE (TDD),

- TDMA (PDC, PHS, Public Wireless)

- CDMA2000 1xEV-DO, - Multi-carrier

- Mobile WiMAX, - DVB-T/H , - Fading, - CMMB

• Arbitrary Waveform Generator

ASCII system IQ data created using a general EDA tool can be converted and output as waveform pattern for the

MG3700A. The quick and easy creation and measurement of waveform patterns increases the development efficiency of new communications systems.

Since the MG3700A uses arbitrary waveform memory (ARB), signals can be output just by preparing waveform patterns.

Anritsu offers various waveform patterns with preset parameters.

Moreover, IQproducer with GUI supports easy generation of waveform patterns by setting parameters at a PC.

Note:

Anritsu does not support continuous

PN data, due to memory limits.

This can be used for BER tests with

Simple-BER (Vitabi-BER) or Fixed-

BER.

Slide 4

MX370160A-E-L-1

MG3700A: Waveform Combine Function



Waveform Combine Function

(Standard Function)

The single MG3700A unit supports setting and output of different waveform patterns for two ARB memories.

It can also set level and frequency offset, and supports output of different channels

(frequency) with different video.

[Ex. MG3700A Setting Screen]

One unit outputs two channel signals

Offset

Two signals set simultaneously

Different signals set in memory A and B

Two waveforms set with different level and C/N

Frequency offset setting

Range depends on waveform pattern sampling rate*

Slide 5

MX370160A-E-L-1

*: Example for 20 MHz sampling rate

Frequency Offset Setting Range

–60 MHz to +60 MHz

MG3700A: Memory Capacity and Video Size



Waveform for Video Evaluation

The MG3700A has two ARB memories with the following capacities.

•

512 MB x 2 pc (Standard)

•

1 GB x 2 pc (MG3700A-011 Option) <<Recommended

We recommend increasing the size of the waveform pattern memory using the MG3700A-011 option.

1. Standard memory: 6 s x 2 patterns/12 s x 1 pattern

2. Optional memory : 12 s x 2 patterns/26 s x 1pattern

Memory A: 1 GB

Video 1

Run Time: about 12 s

Memory B: 1 GB

Video 1

Run Time: about 12 s

Example 1. and 2.

With 1 GB x 2 pcs

Video 1

Run Time: about 26 s

*This software reads your “MFS format” video contents files and generates MG3700A

“video”

waveform patterns.

If you do not have

“MTS format” video contents files, it generates “Viterbi-BER”

waveform patterns.

Slide 6

MX370160A-E-L-1

Rx Performance Measurement



Viterbi-BER Measurement

(for product with error correction count function)

Instrument

Waveform pattern for

Viterbi-BER* output

Viterbi-BER* measured after demodulation

Viterbi-BER measurement result received and displayed

(*: Viterbi-BER is a method of counting and comparing error bits before and after error correction at the receiver.

It can be used to evaluate signals without continuous PN such as PN-BER. The count at the receiver is read at the

PC. Since it is not necessary to output the DATA and CLOCK outside the receiver, Viterbi-BER is commonly used to perform the Receiver Sensitivity Test on production lines.)



Video Measurement

*Requires MFS format video to generate video waveform pattern

Video waveform pattern output

Slide 7

MX370160A-E-L-1

Video displayed on monitor

CMMB

Waveform Generation Software

–Configuration–

CMMB waveform generating software are consists of below three files.

(1) Executing file

(2) Parameter file

(3) Supplementary file

Video contents file (user prepares)

[Waveform pattern generation sequence]

1. Set parameter file.

2. Double click .exe file.

3. Move waveform pattern generated in same folder to MG3700A for use.

Slide 8

MX370160A-E-L-1

CMMB

Waveform Generation Software

–Parameter Setting Display–

Parameter file and its setting are shown below.

 Pattern Name (less than 20 characters)

 Bandwidth (fixed at 8 MHz = 0)

 Frame Length (factor of 2 under 26)

 Region ID (0 to 127)

 Transmitter ID (128 to 255)

CLCH parameters fixed as below

(standardized with specification)

RS Coding = 0 [RS (240, 240)],

Interleave = 1,

LDPC = 0 [1/2],

Modulation = 0 [BPSK],

Scramble = 0

Each SLCH Parameter

TS Coverage of each SLCH

Data Type of Channel Coding

0: PN23 fixed

1: User File

Slide 9

MX370160A-E-L-1

CMMB

Waveform Generation Software

–Parameter Setting Range–

Parameter items and setting range are shown below.

Parameter

Band Width

Reed-Solomon

Interleave Mode

LDPC

Modulation

Time Slot

Scramble

Data

Number of Frames

Range

8 MHz

RS(240, 240), RS(240,224),

RS(240, 192), RS(240, 176)

1, 2, 3

1/2, 3/4

BPSK, QPSK, 16QAM

0 to 39

0 to 7

PN23fix, User File

2 to 12 (Standard),

2 to 26 (with Option 21)

[supplemental remarks]

► 1 Frame = 1 s

► This software supports on-air 8 MHz

► PN23 fixed is discontinuous data for the PN sequence at waveform pattern connection. It can be used simple for

BER measurements.

This cannot be used for PN continuous BER, but high-speed BER measurement function (option) supports BER measurements of any bid line.

►

With User File, the data part of the user’s file is read to generate waveform patterns. Generate video waveform patterns with an MFS format video contents file.

Slide 10

MX370160A-E-L-1

CMMB

Waveform Generation Software

–How to Use(1)–



Start waveform generation

Start waveform generation after setting parameters.

<Procedure>

1.

Check that the following files are in the same folder:

Execution file (CMMB WaveformGen.exe)

Parameter file (CmmbParam.csv)

Supporting file (Pre-Comp_1_2.dat,

Pre-Comp_3_4.dat), Folder (tmp)

2. Double click [ CMMB WaveformGen.exe

]. The

DOS command prompt screen opens (see opposite) and waveform generation starts.

3. When waveform pattern generation is completed, [Press return key.] is displayed on the DOS command prompt screen.

Press the [ Return ] key to complete.

4. Check that the waveform pattern (wvi/wvd) is generated.

5. Transfer the waveform pattern from the PC to the MG3700A to use.

Slide 11

MX370160A-E-L-1

CMMB

Waveform Generation Software

–How to Use(2)–



Downloading waveform pattern to MG3700A

Download the waveform generated by the PC to the MG3700A hard disk.

<Procedure> Using a CF card

1. Copy the waveform pattern to the CF card. Put the waveform pattern in the root directory.

2. Insert the CF card into the MG3700A card slot.

3. Press the Baseband key , and then the F1 key (Load File to Memory) .

4. Press the F3 key (File Copy CF to HDD) to read the CF card file data. Do not remove the CF card from the card slot.

5. The waveform pattern selection window and waveform files in the CF card are displayed. Use the rotary knob or Up/Down keys to select the waveform files to copy , and press the Set key to confirm.

Select [ *** ALL Install *** ] to copy all waveforms in the CF card to the internal hard

disk.

Note: Read the following pdf for the procedure using a LAN.

MG3700A_Connection to LAN_J.pdf

Slide 12

MX370160A-E-L-1

CMMB

Waveform Generation Software

–How to Use(3)–



Loading waveform pattern into memory

Load waveform patterns from the MG3700A hard disk into memory.

<Procedure>

1. Press the Baseband key , and then F1 key (Load File to Memory) .

2. Press the F1 key (Select Package) to display the package selection window. Use the rotary knob or Up/Down keys to select the package and press the Set key.

3. The waveform file selection window and waveform files in the selected package are displayed. Use the rotary knob or UP/Down keys to select the waveform file to load into memory and press the Set key to confirm.

Select [ *** ALL Load *** ]

to load all waveforms in the package into memory.

Slide 13

MX370160A-E-L-1

CMMB

Waveform Generation Software

–How to Use(4)–



Selecting waveform pattern

Select a waveform pattern in the MG3700A waveform memory.

<Procedure>

1. Press the Baseband key and move the cursor to File Select using the rotary knob or Up/Down keys.

2. Press the Set key to display the package selection window. Select the package using the rotary knob or Up/Down keys, and press the Set key.

3. The waveform file selection window and waveform files in the selected package are displayed. Use the rotary knob or Up/Down keys to select the waveform file to output , and press the Set key to confirm.

Usage Notes

1. Cold start the receiver. (Do not leave any previous data remaining.)

2. Check the map display of the receiver while outputting the waveform pattern once.

3. Press F4 (Waveform Restart) to restart (output from top) the waveform pattern.

(When restarting almost simultaneously with a receiver cold start, the output time can be used effectively.)

Slide 14

MX370160A-E-L-1

CMMB

Waveform Generation Software

~Operating Environment~



Operating environment

Requires following PC:



OS: Windows 2000 Professional or Windows XP



CPU: Pentium III 1 GHz or faster



Memory: 512 MB



Hard disk: >5 GB (required capacity depends on parameters)

Detailed Information



MG3700A operation

See the MG3700A Vector Signal Generator instruction manual (main frame)

[W2495AW].



IQproducer operation

See the MG3700A Vector Signal Generator instruction manual (IQproducer)

[W2496AW].

Slide 15

MX370160A-E-L-1

Example 1: Delayed Signal Interference Evaluation

Delay Wave

Time

In a real environment, interference occurs due to wave delays caused by reflection from buildings, hills, etc. This wave delay can affect reception, so evaluation of wave delay interference is required.

Slide 16

MX370160A-E-L-1

MER Deterioration

Example 1: Delayed Signal Interference Evaluation

The MG3700A waveform combine function simulates evaluation of waveform delay (one waveform) by outputting the waveform patterns in memory A and B at different timings.

The different timing is set using “Start Offset” shown below.

Setting same waveform pattern in memory A and B

Delay setting

Wanted Signal

Delayed Signal

[MG3700A Setting Example]

Slide 17

MX370160A-E-L-1

C/N Level setting

Example 2: CN Margin Test

CN Margin

Noise

In a real environment, interference between signals may cause noise, causing deteriorated MER even when the Rx level is adequate (figure opposite).

Testing the CN margin requires addition of white noise (AWGN) to the wanted wave.

Slide 18

MX370160A-E-L-1

MER Deterioration

Example 2: CN Margin Test

The MG3700A waveform combine function supports evaluation of

CN margin by setting the wanted signal in memory A, AWGN in memory B, and combining the waveform patterns.

IQproducer supports AWGN generation as a standard function.

Setting wanted waveform pattern

(video) in memory A

Setting AWGN waveform pattern in memory B

Wanted Signal

AWGN

[Ex. MG3700A Setting Screen]

Slide 19

MX370160A-E-L-1

C/N Level

setting

Example 3: Multi-Function Mutual Interference and Rx Characteristics Evaluation

TD-SCDMA

LTE TDD

Wireless LAN

Bluetooth…, etc.

When wireless systems, such as wireless LAN or Bluetooth, are installed in a receiver, testing with each signal source is required to confirm Rx characteristics and lack of interference.

Slide 20

MX370160A-E-L-1

Example 3: Multi-Function Mutual Interference Evaluation



Supports Various Communication Systems

• Built-in Waveform Pattern

- W-CDMA/HSDPA, - GSM/EDGE, - PDC, - PHS, -GPS

- CDMA2000 1x/1xEV-DO, - AWGN, - Bluetooth

- Broadcasting (ISDB-T/BS/CS/CATV)

- Wireless LAN (IEEE802.11a/11b/11g)

• Optional Waveform Patterns (sold separately)

- TD-SCDMA

- Public Wireless System

(RCR STD-39, ARIB STD-T61/T79/T86)

• Waveform Generating Software: IQproducer (*sold separately)

- W-CDMA, - AWGN, - HSDPA/HSUPA*

- 3GPP LTE(FDD), - 3GPP LTE(TDD)

- TDMA*(PDC, PHS, ARIB)

- CDMA2000 1xEV-DO*, - Multi-carrier*

- Mobile WiMAX*, - DVB-T/H*, - Fading

The MG3700A Vector Signal

Generator outputs signals of various communication system.

Because it pre-installs key mobile phone signals as well as WLAN and Bluetooth, it can be used as a signal source for digital terrestrial broadcast interference waves when installing multiple systems.

Interference

Digital Terrestrial

Broadcasting

Product

Slide 21

MX370160A-E-L-1

Example 3: Multi Function Rx Characteristics Evaluation

Test System

Bluetooth

Car navigation system

MG3700A

Vector Signal Generator

GPS

WLAN

ISDB-T

CMMB

DVB

Mobile phone

Control

PC

This can be used as a signal source for Rx characteristics tests when installing multiple systems.

Slide 22

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Appendix

Slide 23

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Appendix: CMMB System Outline

Standard:

Target:

CMMB (China Multimedia Mobile Broadcast)

Standard number: GY/T 220.1-2006, GY/T 220.2-2006

Satellite and terrestrial mobile television

Frequency (Channel):

Terrestrial: 474 MHz (13ch) to 562 MHz (24ch),

610 MHz (25ch) to 794 MHz (48ch)

Satellite: 2635 to 2660 MHz

Channel spacing: 8 MHz

Slide 24

MX370160A-E-L-1

Appendix: CMMB PHY Layer Structural Outline 1/3

CLCH

SLCH0

SLCH1 SLCH2 SLCHn

Time

Slot

#0

Channel Coding, Modulation, Time Slot Allocation

Time

Slot

#1

–#2

Time

Slot

#3

–#5

Time

Slot

#6

Time

Slot

#37

–#39

Time

Slot

#0

Time

Slot

#1

Time

Slot

#2

・・・・・・・・

1 Frame = 1 s

Slide 25

MX370160A-E-L-1

Time

Slot

#39

CLCH: Control Logical Channel

SLCH: Service Logical Channel

Appendix: CMMB PHY Layer Structural Outline 2/3

Time

Slot

TxID Synchronizing

Signal

Synchronizing

Signal

OFDM symbol0

OFDM symbol1

- - - -

OFDM symbol52

3077 sub-carriers

- - -

- - -

- - -

- - -

53OFDM Symbol

Slide 26

MX370160A-E-L-1

Continual Pilot

Scattered Pilot

Data

Appendix: CMMB PHY Layer Structural Outline 3/3

SLCH0

SLCH1

SLCH2

Video

Audio

Video

Audio

Video

Audio

SLCHn

Video

Audio

RS

RS

RS

RS

Byte

Interleave

Byte

Interleave

Byte

Interleave

Byte

Interleave

LDPC

LDPC

LDPC

LDPC

Bit

Interleave

Bit

Interleave

Bit

Interleave

Bit

Interleave

SLCH0

SLCH1

SLCH2

IQ mapping

IQ mapping

IQ mapping

SLCHn IQ mapping

Continual Pilot

Scattered Pilot

Carrier

Allocation

Scramble

OFDM

Modulation

Frame

Generation

Slide 27

MX370160A-E-L-1

Appendix: Introduction of MG3700A GPS Patterns 1/3



GPS Waveform Patterns

*1: Since SYNC_ADJ is used with DATA0，DATA1 and DATA10, you need to select the file. Press the MG3700A

Baseband key, set the Pattern Combination in Defined, and select the file.

*2: GLOBAL POSITIONING SYSTEM STANDARD POSITIONING SERVICE SIGNAL SPECIFICATION

Note: At least four satellites are received at GPS module device evaluation. However, the above-mentioned four waveform patterns are not supported by the GPS evaluation function, because these satellite numbers are fixed at “1”. These waveform patterns can be used for performance validation, TRx characteristics evaluation and evaluated mobile synchronizing adjustments.

Slide 28

MX370160A-E-L-1

Appendix: Introduction of MG3700A GPS Patterns 2/3



GPS Waveform Pattern Frame Format

Word1 Word2 Word3 Word4 Word5 Word6 Word7 Word8 Word9 Word10

TLM_PARITY

TLM P HOW P D P D P D P D P D P D P D P D P

TLM: Telemetry 24 bits, P: Parity 6 bits, HOW: Hand Over Word 24 bits

D: Data 24 bits (Random data)

PARITY

D P D P D P D P D P D P D P D P D P D P

D: Data 24 bits (PN9 data; PN data is continuous between adjacent WORD) P: Parity 6 bits

PN9

PN9 data

TLM

SYNC_ADJ

TLM HOW

Default Navigation Data (1010101……….)

Preamble TLM R P TOW AF ASF Subframe ID Solved P

Default Navigation Data: 240 bits, Preamble: 8 bits (8BH), TLM: TLM message 14 bits (00H),

R: Reserved 2 bits (3H), TOW: Time Of Week 17 bits (00000H

– 00005H), AF: Alert Flag 1 bit (0H),

ASF: Anti Snoop Flag 1 bit (0H), Subframe ID: 3 bits (0H

– 5H), Solved: 2 bits (0H)

Slide 29

MX370160A-E-L-1

Appendix: Introduction of MG3700A GPS Patterns 3/3



Using GPS Waveform Patterns

*3: The RF subframe output timing is within 10 ns relative to external start trigger input (right diagram)

*4: The special test mode, which checks GPS performance, is required for mobile function.

SYNC_ADJ Output Timing

Slide 30

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Appendix: Required Performance of Signal Generator

Standardized with GD/J020-2008

Slide 31

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*: 5 dB ATT required for RF output terminal

Ordering Information

Model/

Order No.

— Mainframe —

Name Remarks

Mandatory MG3700A

— Standard accessories —

J0017F

J1276

J1254

Z0742

Vector Signal Generator

Power cord, 2.6 m

LAN Straight cable

Compact Flash

Compact Flash Adapter

MG3700A CD-ROM

1 pc

1 pc, 10 cm, For back-panel U link connection

1 pc

1 pc, PCMCIA Adapter

1 pc, includes MG3700A Operation Manual, IQproducer Operation Manual, Standard

Waveform Pattern Operation Manual, IQproducer Software

— Options —

Recommended

Recommended

MG3700A-002

MG3700A-011

MG3700A-021

J1261D

J1277

Mechanical Attenuator

Upper Frequency 6 GHz

ARB Memory Upgrade 512 M sample

Ethernet Cable (Shield Type)

IQ Output Conversion Adapter

Replaces standard electronic attenuator with mechanical attenuator. increases output power from +13 to +19 dBm; improves Ajacent Channel Power by 1 to 2 dB

Expands standard frequency range from "250 kHz to 3 GHz" to "250 kHz to 6 GHz".

Expands standard ARB memory size from 128 Msamples/channel x 2 to 256

Msamples/channel x 2. Recommended for video because one 12-s video file requires

256Msa

MG3700A-031 High Speed BER Test Function

Replaces standard buit-in BER; recommended for R&D because supports threshold adjuctment function and higher error rates

— Softwares (License Key for IQproducer system) —

Mandatory MX370160A

CMMB waveform generation software

MX370104A Multi-carrier IQproducer

— Optional accessories —

Required when generating CMMB waveform pattern usinfg PC.

Required when generating multicarrer waveform pattern usinfg PC.

Crossover 3 m; required when connecting PC（IQproducer）and MG3700A directly.

Can use straight cable for connection via hub.

Required when evaluating using IQ output (Balance); converts MG3700A IQ output D-Sub connectior to BNC.

Slide 32

MX370160A-E-L-1

•

United States

Anritsu Company

1155 East Collins Blvd., Suite 100, Richardson,

TX 75081, U.S.A.

Toll Free: 1-800-267-4878

Phone: +1-972-644-1777

Fax: +1-972-671-1877

•

Canada

Anritsu Electronics Ltd.

700 Silver Seven Road, Suite 120, Kanata,

Ontario K2V 1C3, Canada

Phone: +1-613-591-2003

Fax: +1-613-591-1006

•

Brazil

Anritsu Eletrônica Ltda.

Praça Amadeu Amaral, 27 - 1 Andar

01327-010 - Bela Vista - São Paulo - SP - Brazil

Phone: +55-11-3283-2511

Fax: +55-11-3288-6940

•

Mexico

Anritsu Company, S.A. de C.V.

Av. Ejército Nacional No. 579 Piso 9, Col. Granada

11520 México, D.F., México

Phone: +52-55-1101-2370

Fax: +52-55-5254-3147

•

United Kingdom

Anritsu EMEA Ltd.

200 Capability Green, Luton, Bedfordshire, LU1 3LU, U.K.

Phone: +44-1582-433200

Fax: +44-1582-731303

•

France

Anritsu S.A.

12 avenue du Québec, Bâtiment Iris 1- Silic 612,

91140 VILLEBON SUR YVETTE, France

Phone: +33-1-60-92-15-50

Fax: +33-1-64-46-10-65

•

Germany

Anritsu GmbH

Nemetschek Haus, Konrad-Zuse-Platz 1

81829 München, Germany

Phone: +49-89-442308-0

Fax: +49-89-442308-55

•

Italy

Anritsu S.r.l.

Via Elio Vittorini 129, 00144 Roma, Italy

Phone: +39-6-509-9711

Fax: +39-6-502-2425

•

Sweden

Anritsu AB

Borgarfjordsgatan 13A, 164 40 KISTA, Sweden

Phone: +46-8-534-707-00

Fax: +46-8-534-707-30

•

Finland

Anritsu AB

Teknobulevardi 3-5, FI-01530 VANTAA, Finland

Phone: +358-20-741-8100

Fax: +358-20-741-8111

•

Denmark

Anritsu A/S (Service Assurance)

Anritsu AB (Test & Measurement)

Kay Fiskers Plads 9, 2300 Copenhagen S, Denmark

Phone: +45-7211-2200

Fax: +45-7211-2210

•

Russia

Anritsu EMEA Ltd.

Representation Office in Russia

Tverskaya str. 16/2, bld. 1, 7th floor.

Russia, 125009, Moscow

Phone: +7-495-363-1694

Fax: +7-495-935-8962

•

United Arab Emirates

Anritsu EMEA Ltd.

Dubai Liaison Office

P O Box 500413 - Dubai Internet City

Al Thuraya Building, Tower 1, Suit 701, 7th Floor

Dubai, United Arab Emirates

Phone: +971-4-3670352

Fax: +971-4-3688460

•

India

Anritsu India Private Limited

2nd & 3rd Floor, #837/1, Binnamangla 1st Stage,

Indiranagar, 100ft Road, Bangalore - 560038, India

Phone: +91-80-4058-1300

Fax: +91-80-4058-1301

Specifications are subject to change without notice.

•

Singapore

Anritsu Pte. Ltd.

60 Alexandra Terrace, #02-08, The Comtech (Lobby A)

Singapore 118502

Phone: +65-6282-2400

Fax: +65-6282-2533

•

P.R. China (Shanghai)

Anritsu (China) Co., Ltd.

Room 1715, Tower A CITY CENTER of Shanghai,

No.100 Zunyi Road, Chang Ning District,

Shanghai 200051, P.R. China

Phone: +86-21-6237-0898

Fax: +86-21-6237-0899

•

P.R. China (Hong Kong)

Anritsu Company Ltd.

Unit 1006-7, 10/F., Greenfield Tower, Concordia Plaza,

No. 1 Science Museum Road, Tsim Sha Tsui East,

Kowloon, Hong Kong, P.R. China

Phone: +852-2301-4980

Fax: +852-2301-3545

•

Japan

Anritsu Corporation

8-5, Tamura-cho, Atsugi-shi, Kanagawa, 243-0016 Japan

Phone: +81-46-296-1221

Fax: +81-46-296-1238

•

Korea

Anritsu Corporation, Ltd.

502, 5FL H-Square N B/D, 681

Sampyeong-dong, Bundang-gu, Seongnam-si,

Gyeonggi-do, 463-400 Korea

Phone: +82-31-696-7750

Fax: +82-31-696-7751

•

Australia

Anritsu Pty. Ltd.

Unit 21/270 Ferntree Gully Road, Notting Hill,

Victoria 3168, Australia

Phone: +61-3-9558-8177

Fax: +61-3-9558-8255

•

Taiwan

Anritsu Company Inc.

7F, No. 316, Sec. 1, NeiHu Rd., Taipei 114, Taiwan

Phone: +886-2-8751-1816

Fax: +886-2-8751-1817

1209

Please Contact:

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No. MX370160A-E-L-1-(3.00) Printed in Japan 2012-11 MG