MS2830A-044 26.5 GHz Signal Analyzer MS2830A-045 43 GHz Signal Analyzer

Product Introduction MS2830A-044 26.5 GHz Signal Analyzer MS2830A-045 43 GHz Signal Analyzer MS2830A Signal Analyzer

MS2830A Signal Analyzer series MS2830A-044 26.5 GHz Signal Analyzer MS2830A-045 43 GHz Signal Analyzer Product Introduction MS2830A-040: 9 khz to 3.6 GHz* MS2830A-041: 9 khz to 6.0 GHz* MS2830A-043: 9 khz to 13.5 GHz* MS2830A-044: 9 khz to 26.5 GHz MS2830A-045: 9 khz to 43.0 GHz *: See MS2830A product introduction. Version 2.02 ANRITSU CORPORATION Slide 1

Modulation Analysis Signal Analyzer Spectrum Analyzer Expandability of MS2830A-044/045 Frequency 9 khz 3.6 GHz 6 GHz 13.5 GHz 26.5 GHz 43 GHz 110 GHz Any one of five spectrum analyzers supporting different frequencies can be selected. The MS2830A-044/045 supports up to 110 GHz using an external mixer. MS2830A-008 Preamp MS2830A-044 MS2830A-045 MS2830A-068 Microwave Band Preamp (for MS2830A-044/045) External Mixer External Mixer Installing the Analysis Bandwidth option supports the signal analyzer function. Moreover, installing the microwave Preselector Bypass expands the bandwidth up to 110 GHz. MS2830A-006 Analysis Bandwidth 10 MHz MS2830A-005 Analysis Bandwidth Expansion 31.25 MHz (requires MS2830A-006, cannot be installed to MS2830A-045) MS2830A-067 Microwave Preselector Bypass (for MS2830A-044/045, requires MS2830A-006/005) Pre-selector range 4GHz (Frequency band mode: Normal) Pre-selector range 3.5GHz (Frequency band mode: Spurious) MS2830A-007 Analysis Bandwidth Epansion 31.25 MHz (with Preselector Bypass) (requires MS2830A-006, MS2830A-045 exclusive) Requires External Mixer *: The MS2830A-007 is not sold in some areas. Please contact us. Installing measurement software in the main frame with signal analyzer function supports modulation analysis for each system. Various measurement software Example: MX269017A Vector Modulation Analysis Software Slide 2

MS2830A Series Comparison Chart (1/2) Frequency Option MS2830A-040 MS2830A-041 MS2830A-043 MS2830A-044 MS2830A-045 Fraquency Range 9 khz to 9 khz to 9 khz to 9 khz to 9 khz to 3.6 GHz 6 GHz 13.5 GHz 26.5 GHz 43 GHz ±1x10^-7/day (standard) Aging Rate ±1x10^-8/day (Opt.002) ±1x10^-8/day (standard) ±1x10^-10/month (Opt.001) ±1x10^-10/month (Opt.001) Start-up Time and Activation Characteristics Phase Noise 1 khz Offset 10 khz Offset 100 khz Offset 1 MHz Offset Displayed Avg. Noise Level Frequency 500 MHz Frequency 2 GHz Frequency 5 GHz Frequency 12 GHz Frequency 25 GHz Frequency 40 GHz 5 min, ±5x10^-7 (standard) 5 min, ±5x10^-8 (Opt.002) 7 min, ±1x10^-9 (Opt.001) 5 min, ±5x10^-8 (standard) 7 min, ±1x10^-9 (Opt.001) Frequency 500 MHz, spectrum analyzer mode -107 dbc/hz (Opt.062) -113 dbc/hz (Opt.062) -115 dbc/hz (standard) -115 dbc/hz (standard) -133 dbc/hz (Opt.062) -133 dbc/hz (standard) -133 dbc/hz (standard) -148 dbc/hz (Opt.062) nominal value Spectrum analyzer mode without options -153 dbc/hz -151 dbc/hz -150 dbc/hz -146 dbc/hz -144 dbc/hz -142 dbc/hz -151 dbc/hz -146dBc/Hz -144dBc/Hz Slide 3

MS2830A Series Comparison Chart (2/2) Frequency Option MS2830A-040 MS2830A-041 MS2830A-043 MS2830A-044 MS2830A-045 9 khz to 9 khz to 9 khz to 9 khz to 9 khz to Fraquency Range 3.6 GHz 6 GHz 13.5 GHz 26.5 GHz 43 GHz Attenuator Range/Step 0 to 60 db /2 db step 0 to 60 db /10 db step Total Level Accuracy Includes frequency characteristics, attenuator switching erros, linearity errors. Intuitive recognition of instrument errors cuts risks for measurement errors. Frequency 500 MHz, 2 GHz Frequency 5 GHz, 12 GHz Frequency 25 GHz Frequency 40 GHz Resolution bandwidth Analysis bandwidth Addtionl functions Vector Signal Generator Phase Noise *2 Phase Noise Meas. Function Pre-amp *3 Microwave Band Pre-amp *4 Microwave Pre-selector Bypass *5 1st Local Signal Output for an External Mixer *6 1st IF Signal Output *7 *: The MS2830A-007 is not sold in some areas. Please contact us. Slide 4 ±0.5 db ±1.8 db Spectrum Analzyer mode 1 Hz to 3 MHz (1-3 sequence), 5/10/20/31.25 MHz, 50 khz 10MHz (Opt.006) 31.25MHz (Opt.005) Yes (Opt.020/021) Yes (Opt.062) N.A. N.A. N.A. N.A. Yes (Opt.010/110) Yes (Opt.008/108) ±3.0 db ±3.0 db 10 MHz (Opt.006) 31.25 MHz (Opt.007) N.A. N.A. Yes (Opt.068/168) Yes (Opt.067/167) Yes Yes

26.5/43 GHz Signal Analyzer Features Performance Wide Dynamic Range (< 13.5 GHz) 159 db (26.5 GHz) DANL: 146 dbm/hz *1 (18.3 < f < 34 GHz) TOI: +13 dbm *2 (6 GHz < f < 26.5 GHz) Dynamic range: Difference between TOI and DANL as simple guide. DANL: Displayed Average Noise Level TOI: Third-order intermodulation distortion Preamp up to 43 GHz DANL: 156 dbm/hz *3 (18.3 < f < 34 GHz) Excellent total level accuracy 0.5dB *5 (300kHz f <4GHz) 3.0dB *5 (13.8GHz < f 40GHz) Measures up to 110 GHz with external mixer Supports use as down-converter Connector: SMA-J, 50 IF output frequency: 1875 MHz IF output bandwidth: 1 GHz (3-dB bandwidth) nominal *1: Without Opt-067/068. *2: Without Opt-068 or preamp OFF. *3: Without Opt-067 or Preselector Bypass OFF, and with Opt-068 and preamp ON. *4: With Opt-068 and preamp ON, and with Opt-067 and Preselector Bypass OFF. *5: Without Opt-068 or preamp ON. Attenuator = 10 db to 60 db *6: MS2830A-044/045 only. Excludes other options. *7: With Opt-067 or Opt-007 *: The MS2830A-007 is not sold in some areas. Please contact us. MS2830A-044: 9 khz to 26.5 GHz MS2830A-045: 9 khz to 43.0 GHz Function <Modulation Analysis> <Signal Analyzer> 31.25 MHz analysis bandwidth supporting up to 43 GHz *7 Vector Modulation Analysis Software Full line of built-in measurement functions Low cost Low power consumption for saving costs! 190 VA nominal *6 Slide 5

26.5/43 GHz Signal Analyzer Outline Measures up to 110GHz using External Mixer External Mixer function is supported as a standard 1st Local Output Connector: SMA-J, 50 (nominal) Local Signal Output: 5 GHz to 10 GHz IF Signal Frequency: 1875 MHz Operating LO level range: + 10 to +18 dbm RF Input connector N-J, 50 (MS2830A-044) K-J, 50 (MS2830A-045) Used as Wideband Down Converter IF Output function is supported as a standard (MS2830A-044/045) Connector: SMA-J, 50 (nominal) IF output frequency: 1875MHz IF output bandwidth: about 1 GHz* (nominal) Gain: - 10 db (nominal) *: When using external mixer bands, or using internal micro frequency bands (Band; 3 to 9) with Microwave Preselector Bypass option: On Slide 6

DANL [dbm/hz] TOI [dbm] Performance: World No.1 Dynamic range Wide C/N measurement for Spurious, Mask and Occupied Bandwidth tests -80-90 -100-110 -120-130 -140-150 -160 MS2830A-045(43GHz) TOI-DANL with preamplifier, without preselector bypass Wide Dynamic Range 0 10 20 30 40 Frequency [GHz] Dynamic range is a key specification for spectrum analyzers. Low displayed average noise level (DANL) as well as thirdorder intermodulation distortion (TOI) are important too. Sometimes, distortion may occur in the mixer when inputting a carrier signal with low TOI and high level. In this case, the input level to the mixer can be reduced using an attenuator but, at the same time, the level of fine spurious also drops, making it impossible to find the noise floor. The MS2830xA has an excellent dynamic range, supporting accurate measurements for checking the spectrum, such as spurious tests, mask and occupied bandwidth with wide dynamic range. Slide 7 +15 +14 +13 +12

High performance DANL [dbm/hz] Performance: Wide Dynamic Range Excellent performance with >6 GHz! For spurious tests! DANL comparison without Preamplifier and Preselector Bypass 26.5 GHz model price image -120-125 -130 Product A (26GHz) Product B (26GHz) -135-140 -145 Product C (43GHz) Product D (50GHz) -150-155 -160 0 10 20 30 40 Frequency [GHz] Product E (40GHz) Product F (40GHz) MS2830A(43G) The basic configuration for DANL with >6 GHz supports best-of-class performance. The above performance is assured without preamp option. Slide 8

High performance DANL [dbm/hz] Performance: Preamp Up to 43 GHz Built-in preamp option expands DANL for 10 db MS2830A 43 GHz version DANL change by pre-amp Opt.068 w/preamp, Opt.067/007 w/o pre-selector bypass -100-110 -120 Amp(off) -130 MS2830A(Std) -140 Amp(on) -150-160 -170 0 10 20 30 40 Frequency [GHz] A built-in preamp option supports measurement of weak signals. Slide 9

Performance: Preamp Up to 43 GHz Slide 10

Performance: Excellent Total Level Accuracy Reliable catalog specification Most spectrum analyser catalog specifications do not include attenuator switching error in the absolute level accuracy, frequency characteristics, and linearity values. However, the total level of accuracy of the MA2830A in the catalog includes the above three errors. Stable measurement is assured in the prescribed error range even when changing the frequency/attenuator. Slide 11

Performance: Measures Up to 110 GHz with External Mixer Standard local output (LO) for external mixer! MS2830A-044/045 DUT 1st Local Output Connector: SMA-J, 50 (nominal) Local Signal Output: 5 GHz to 10 GHz IF Signal Frequency: 1875 MHz Operating LO level range: +10 to +18 dbm SMA Cable Combination with an external mixer supports spectrum measurements up to 110 GHz. This supports high-sensitivity measurements with local signal outputs at high frequencies from 5 to 10 GHz to minimize the required LO harmonic order. Slide 12

Performance: Measures Up to 110 GHz with External Mixer Anritsu supports external mixers for the MA2740A series supporting up to 110 GHz. Using other makers external mixers supporting up to 325 GHz enables monitoring up to 325 GHz*. Band Name Freq. Range Model Name LO Harmonic Order Mixing Mode Waveguide flange Chart: MS2830A-044/045 External Mixer Band List Waveguide size A Band 26.5 to 40.0GHz MA2741A 4 + MIL-F3922/68-001AM WR-28 Q Band 33.0 to 55.0GHz MA2742A 5 + MIL-F3922/67B-006 WR-22 U Band 40.0 to 60.0GHz MA2743A 6 + MIL-F3922/67B-007 WR-19 V Band 50.0 to 75.0GHz MA2744A 8 + MIL-F3922/67B-008 WR-15 E Band 60.0 to 90.0GHz MA2745A 9 + MIL-F3922/68B-009 WR-12 W Band 75 to 110GHz MA2746A 11 + MIL-F3922/68B-010 WR-10 F Band 90 to 140GHz - 14 + D Band 110 to 170GHz - 17 + G Band 140 to 220GHz - 22 + Y Band 170 to 260GHz - 26 + J Band 220 to 325GHz - 33 + Name Purpose Connector Frequency Level 1st Local Output Local signal output for external mixer connection Front panel, SMA-J, 50 Ω nominal Local signal output: 5 to 10 GHz IF signal frequency: 1875 MHz Operating LO level range: +10 to +18 dbm *: Limited to devices meeting following conditions Two-port type common for LO/IF ports LO frequency range: Supported frequency includes 5 to 10 GHz IF frequency range: Supported frequency includes 1.875 GHz Operating LO level range: +10 to +18 dbm Slide 13

Performance: Use as Wideband Down-Converter IF output frequency 1.875 GHz, IF bandwidth 1 GHz nominal DUT Center frequency 80 GHz MS2830A Back Panel IF Output: 1.875 GHz Oscilloscope 1.875 GHz Bandwidth 1 GHz Down-convert (example 80 GHz 1.875 GHz) 1 GHz* band Measurement image: Down-convert signals with 80 GHz center frequency and 1 GHz* bandwidth to 1.875 GHz Harmonic mixing internal band and IF signals from the external mixer can be output from the backpanel IF Output connector. Because the IF frequency is 1.875 GHz, this can be used as a down-converter for millimeter-wave wideband modulation signal analysis, such as the 1-GHz* modulation bandwidth. Name Purpose Connector Frequency Bandwidth Gain IF Output Output signals before 1st IF band control Back panel, SMA-J, 50 Ω nominal Frequency: 1875 MHz 1 GHz* nominal (3-dB bandwidth) 10 dbm nominal (input attenuator = 0 db, input frequency at 10 GHz) *: When using external mixer bands, or using internal micro frequency bands (Band; 3 to 9) with Microwave Preselector Bypass option: On Slide 14

Performance: Use as Wideband Down-Converter Gain (db) 10.5 10 9.5 9 8.5 8 7.5 7 1.875GHz BW =1GHz* 3dB nominal 6.5 6 1300 1400 1500 1600 1700 1800 1900 2000 2100 2200 2300 2400 Frequency (MHz) Figure 9. IF Output frequency characteristics reference values (internal MS2830-044/045 only) The graph shows the IF output (1.875 GHz) frequency reference characteristics. The characteristics are approx. +1/ 2 db within the 1-GHz band. These frequency characteristics are for the internal MS2830A-044/045. Actual results include the frequency characteristics for accessories, such as the external mixer, and cables between the external mixer, MS2830A-044/045 and IF output terminal. *: When using external mixer bands, or using internal micro frequency bands (Band; 3 to 9) with Microwave Preselector Bypass option: On Slide 15

Performance: Supports 31.25 and 43 GHz Analysis Bandwidth MS2830A-067 Microwave Preselector Bypass supports 31.25- MHz wideband measurements up to 43 GHz MX269017A Vector Modulation Analysis Software Modulation method BPSK, QPSK, Pai/4 DQPSK, 8PSK, 16QAM, 64QAM, 2FSK, 4FSK 256QAM *1 Filter (Depends on Modulation method) Nyquist, Root Nyquist, Gaussian, Non, ARIB STD-T98, User Defined Symbol rate (Upper limit depends on analysis bandwidth 10 MHz/31.25 MHz) 0.1 k to 2.5 M/6.25 M symbol/s *2 0.1 k to 5 M/12.5 M symbol/s *3 0.1 k to 5 M/35 M symbol/s *4 *1: 256QAM available with Non-Format *2: When 2FSK and 4FSK *3: When Frame Formatted and xxpsk, xxqam *4: When Non-Formatted and xxpsk, xxqam Wideband analysis with high frequencies is supported for microwave links. Modulation analysis and various VSA functions improve design verification efficiency. Slide 16

Performance: Supports 31.25 and 43 GHz Analysis Bandwidth Require options by the combination of preselector bypass and analysis bandwidth With Preselector Bypass function Analysis Bandwidth 10MHz 31.25MHz Opt.006 + MS2830A-044 Opt.005 + 9kHz to 26.5GHz Opt.067 MS2830A-045 9kHz to 43GHz Opt.006 + Opt.067 Opt.006 + Opt.007 Without Preselector Bypass function Analysis Bandwidth 10MHz 31.25MHz MS2830A-044 Opt.006 + 9kHz to 26.5GHz Opt.005 Opt.006 MS2830A-045 9kHz to 43GHz Slide 17 *: The MS2830A-007 is not sold in some areas. Please contact us.

Performance: Built-in Versatile Measurement Functions Supports simple operation measurement functions *1: SPA (Spectrum Analyzer) *2: VSA (Vector Signal Analyzer) function (Opt-005/006/007 required) Adjacent Channel Leakage Power Spurious Emission Occupied Bandwidth Slide 18

Performance: Built-in Versatile Measurement Functions Signal Analyzer (VSA) Display Mode Measures FSK and GMSK modulation wave frequency variation, and VCO frequency switching time Frequency vs. Time Phase vs. Time Monitors time fluctuations of phase to check sudden phase shift Spectrum Power Frequency Time Power vs. Time Spectrogram CCDF/APD Displays spectrum variations with time; useful for understanding waveform transients because supports visual monitoring of frequency and level time variations Displays waveform of wideband SPAN up to 31.25 MHz without interruption Supports wideband CCDF analysis up to 31.25 MHz; useful for evaluating power amplifiers in wideband communications systems Slide 19 Supports wideband CCDF analysis up to 31.25 MHz and ideal for evaluating power amps for wideband communication systems

Low Cost: Low Power Consumption to Save Running Costs Excellent Eco Product Eco-friendly products After a global assessment, the Anritsu group has been recognized as manufacturing ecofriendly products. Excellent echo product: Products receiving score or 80 or more Eco product: Products receiving score or 60 or more Assessed product: Product meeting assessment conditions Reduce raw materials/production costs Reduce toxic materials Reduce distribution costs Reduce usage costs Reduce waste at disposal Slide 20

Low Cost: Low Power Consumption to Save Running Costs Low Power Consumption Anritsu conventional model Spectrum Analyzer 210 VA down 52.5% cut MS2830A-044/045 400 VA Specification: 190 VA ** nominal Measurement example: 170 VA * *: With MS2830A-044/045 and excluding other options **: With full options; example only and not guaranteed Most faults during the stabilization period are due to heat-deteriorated parts. Restricted airflow causing overheating causes parts deterioration and increases fault rates. Lower power consumption reduces heat production, helping cut both fault rates and running costs. Slide 21

Useful Measurement Functions for Evaluating Tx Characteristics (1/15) The MS2830A has all the versatile built-in measurement functions needed for evaluating Tx characteristics. Using functions matching measurements supports simple tests according to specifications. Slide 22

Useful Measurement Functions for Evaluating Tx Characteristics (2/15) Channel Power Channel power measurement using three types of filter (Rectangular, Nyquist, Root Nyquist) is supported. SPA VSA Channel Power Measurement Measurement function ON/OFF Bandwidth Channel center frequency Channel bandwidth Filter: Rectangular, Nyquist, Root Nyquist Results display Channel Center: Set value for channel center frequency Channel Width: Set value for channel bandwidth Absolute Power: Power per Hz (Density) In-zone power (Integration) Slide 23

Useful Measurement Functions for Evaluating Tx Characteristics (3/15) Occupied Bandwidth Occupied bandwidth is measured in two modes N% and X db. SPA VSA Occupied Bandwidth Measurement Measurement function ON/OFF Bandwidth Measurement mode selection: (See below) % setting for <N%> mode Power setting for <X db> mode Results display N% mode: Bandwidth containing N% power with total power in display as 100% X db mode: Bandwidth X db down from peak value OBW: Occupied bandwidth OBW Center: Center frequency of occupied bandwidth OBW Lower: Occupied bandwidth left-side frequency OBW Upper: Occupied bandwidth right-side frequency Slide 24

Useful Measurement Functions for Evaluating Tx Characteristics (4/15) Adjacent Channel Leakage Power (ACLR) This function measures adjacent channel leakage power. Adjacent Channel Leakage Power Measurement SPA VSA Offset In-band Offset Measurement function ON/OFF Reference Power setting: (See below) In-band setting Results display Offset Channel setting Result display switching Carrier: In-band, Ofs: Offset Channel, All: Both In-band and Offset Channel Noise cancellation function ON/OFF (subtracts main-frame noise from measurement result) Relative power for Offset 1 to 3 [dbc] vs. reference power selected with ACP Reference ( ) indicates absolute power [dbm]. Reference power setting: - SPAN TOTAL: Integral power for overall display - Carrier Total: Total of all carrier power - Both Sides of Carriers: Out-of-band carrier power - Carrier Select: Specified carrier power Slide 25

Useful Measurement Functions for Evaluating Tx Characteristics (5/15) Adjacent Channel Leakage Power (ACLR) SPA In Band can be set from 1 to 12 carriers and switched instantaneously on the screen. Moreover, true ACLR performance is measured using the noise cancellation function to subtract main-frame noise from the measurement result. VSA ACLR Measurement (12 carriers) Carrier number switched instantaneously! Offset In Band Offset Slide 26

Useful Measurement Functions for Evaluating Tx Characteristics (6/15) Adjacent Channel Leakage Power (ACLR) SPA Offset Channel can be set from 1 to 8 and switched instantaneously on the screen. ACLR Measurement (12 carriers / 8 offsets) Offset number switched instantaneously! Offset In Band Offset Slide 27

Useful Measurement Functions for Evaluating Tx Characteristics (7/15) Spectrum Emission Mask (SEM) Offset limit lines can be set for up to six segments. The peak frequency and level in each segment are displayed and parts exceeding the limit line are indicated in red. Also, when a limit line is exceeded at just one part, Fail is displayed in red at the Result displays at the bottom left of the screen. Spectrum Emission Mask Measurement SPA Offset Limit line Reference carrier Offset Measurement function ON/OFF Reference carrier bandwidth and sweeping method setting Offset position and sweeping method setting Limit line setting (orange line) Result display Measurement target setting: (See below) Result display switching -Peak: Absolute power - Margin: Margin for limit line Level (Peak/Margin) and frequency of point closest to limit line per offset. Measurement Target Setting - Both: Measures both Lower and Upper - Lower: Measures Lower - Upper: Measures Upper Slide 28

Useful Measurement Functions for Evaluating Tx Characteristics (8/15) Limit Line SPA Two limit lines are set on the spectrum display (frequency domain) and the evaluation (judgment) using these limit lines is displayed. The judgment type can be selected from Upper Limit and Lower Limit. Lines can be set sequentially from the low-frequency side at frequency and level changes. Up to 100 change points can be set. (In the example below, 6 points are set at Limit 1 and four at Limit 2). In addition, setting margins at each of Limit 1 and 2 supports judgment using lines, taking into account margins. Once Limit 1 and 2 are set, level direction can be fine-adjusted by margin setting. Limit Line Measurement Limit Line1 Limit Line2 Line: Limit 1, Limit 2 Judgment type: Upper Limit, Lower Limit Change point: 1 to 100 Margin: Display line for Limit 1/2 + margin Slide 29

Useful Measurement Functions for Evaluating Tx Characteristics (9/15) Average In-burst Power Measurement The average power of specified burst segments is displayed in the time domain. Measurement only requires setting the measurement start and end positions on the screen. Average In-burst Power Measurement Start End Measurement function ON/OFF Measurement start position Measurement stop position SPA VSA Start/End measurement positions Results display Noise cancellation function ON/OFF (Subtracts main-frame noise from measurement result) Displays average power between Start Time and Stop Time Slide 30

Useful Measurement Functions for Evaluating Tx Characteristics (10/15) Spurious Emission The peak frequency and level in each segment and the standard margin are displayed; parts exceeding the limit line are indicated in red. Also, Fail is displayed in red at the bottom left of the Results display even when the limit line is exceeded at only one part. A maximum of 20 segments can be set. Spurious Emission Measurement SPA Spurious Limit Line Results Display Time Domain Measurement: Spurious can be swept (detected) for up to 20 segments using the Zero Span measurement function. Different parameters (RBW/VBW) from segment sweeping can be set. Time domain measurements can switched ON/OFF. Detected spurious: Segment number, frequency, level (Peak/Margin), limit line Slide 31

Amplitude Frequency Useful Measurement Functions for Evaluating Tx Characteristics (11/15) AM: Power vs. Time This function measures the amplitude modulation. FM Shift Measurement Function: Frequency vs. Time VSA VSA This function measures frequency shift. AM Measurement FM Shift Measurement Time Time Results Display Results Display +Peak, -Peak, (Peak-Peak)/2, average voltage between marker 1 and 2 +Peak, -Peak, (Peak-Peak)/2, average frequency between marker 1 and 2 Slide 32

Phase Useful Measurement Functions for Evaluating Tx Characteristics (12/15) Phase Fluctuation Display Function: Phase vs. Time This function displays phase time fluctuations. VSA Phase Fluctuation Display Phase Fluctuation: Phenomena that are hard to spot using a spectrum analyzer, such as phase drift due to switching and transients, can be evaluated. Time Slide 33

Useful Measurement Functions for Evaluating Tx Characteristics (13/15) Zone Marker Function This displays the Peak value within the specified range. It is useful for measuring unstable signals with fluctuating frequency and noise. Multi-Marker/Highest 10 Function SPA SPA This automatically searches for the ten highest peaks sorted from highest level (Sort Y) or lowest frequency (Sort X). In addition, setting a threshold eliminates unnecessary searching. This can be used for IM and harmonic, etc., measurements. VSA VSA IM Measurement Harmonic Measurement Threshold Sort X Sort Y Slide 34

Useful Measurement Functions for Evaluating Tx Characteristics (14/15) Gate Sweeping This function performs sweeping at the specified gate timing. The spectrum of the burst-on signal is easily displayed, etc., because sub-screens can be displayed simultaneously in the time domain. Frequency Counter SPA SPA Set [Freq. Count] to ON to use the frequency counter function. [Gate Time] sets the frequency counter measurement time. Results Display Specified gate time Slide 35 Gate Time: Sets frequency counter measurement time

Useful Measurement Functions for Evaluating Tx Characteristics (15/15) Phase Noise Measurement Function (Opt-010) This function measures the phase noise over a frequency offset range of 10 Hz to 10 MHz. Offset 10 Hz 10 MHz Normal: Normal marker. Displays phase noise level at specified frequency offset. Integral Noise: Calculates Integral Noise for specified integrated bandwidth RMS Noise: Calculates RMS Noise for specified integrated bandwidth Jitter: Calculates Jitter for specified integrated bandwidth Residual FM: Calculates Residual FM for specified integrated bandwidth Carrier Frequency: 10 MHz to main frame upper limit Start Offset (lower limit frequency): 10 Hz to 1 khz Stop Offset (upper limit frequency): 100 khz to 10 MHz Log Scale Line(10/16): Sets number of Log scale lines to 10 or 16 Reference Value: Sets upper limit of vertical axis 140 to 50 dbc/hz (Log Scale Line: 10) 170 to 20 dbc/hz (Log Scale Line: 16) Slide 36

VSA Function: Wideband and High Accuracy Waveform Capture Captures wideband waveforms up to 31.25 MHz with accuracy of 0.3 db typ. Based on the excellent level accuracy and wide dynamic range of the MS2830A, a signal with an FFT analysis bandwidth of up to 31.25MHz can be captured with a level accuracy of 0.3dB. Slide 37

VSA Function: Calibration-Free Waveform Capture No need for calibration block at analysis tool side The MS2830A has built-in amplitude/phase calibration circuits to automatically calibrate internal errors. Captured waveform data are saved to the built-in hard disk and can be output to an external PC via 1000BASE-T. Digitize RF signals Re-analyze with VSA function Analyze with commercially available tool Waveform Memory Built-in HDD High-speed transfer using 1000BASE-T RAM Drive Slide 38

VSA Function: Intuitive Split-Screen Display Various VSA analyses can be performed on the main trace by specifying analysis segments on the sub-trace. Intuitive analysis focusing on signal-on/rising/falling, etc., parts is made easy by observing signal distributions on the sub-trace. Main Trace Main Trace Spectrum Power vs. Time Frequency vs. Time Phase vs. time CCDF/APD Spectrogram Sub-Trace Specifying Analysis Segment Sub-trace Power vs. Time Spectrogram Slide 39

VSA Function: One-Step Observation of Rising/Falling Signals Changing the analysis segment at the sub-trace permits frame-by-frame replay of the spectrum at the main trace. This function supports troubleshooting by frame-by-frame replay of transient burst responses and generation of unwanted spurious in captured RF signals. Changing the analysis section supports frameby-frame replay of the rising signal. Sub-Trace (Spectrogram) Frequency Time (1) (2) (3) (4) Slide 40

VSA Function: Useful Replay Function for Comparative Verification Captured waveforms can be replayed again by using the VSA function to read saved digitize data. This is convenient for comparing performance of each DUT test phase using digitized data as well as for troubleshooting post- shipment product faults Digitize Data File Selection Screen Digitize Data DUT (A) DUT (B) DUT (C) Slide 41

VSA Function: File Saving Function Captured data can be saved to a file by specifying the Analysis Time range (display range of main trace) or any time. The amount of saved data and later workload are cut because only required segments are captured and saved to a file. Example: Capture 20 ms and save only one burst (600 µs) of GSM signal to file. Save required segment to file. Analysis Time: 600 us Save total capture time. Analysis Time: 600 us Capture time: 20 ms Save data specified by Analysis Time. Save timespecified data. Slide 42

VSA Function: FFT Analysis Advantages Ultra High Speed Supports measurements many times faster than a sweep spectrum analyzer by using the signal analyzer mode, which performs FFT analysis. Spectrum Analyzer SPAN 25 MHz RBW 30 khz SWT 95 ms Signal Analyzer SPAN 25 MHz SPAN 25 MHz RBW 30 khz RBW 30 khz Analysis Length 95 us Analysis Length 1900 us 20 Averagings Measurement Time 2.6 s* *: Spectrum Analyzer measurement times measured with the MS269xA. 20 Averagings Measurement Time 0.3 s Slide 43 8 Times Faster Batch Capture 20 Times Measurement Time 0.04 s 65 Times Ultra Fast

Note Slide 44

Specifications are subject to change without notice. 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 Singapore Anritsu Pte. Ltd. 60 Alexandra Terrace, #02-08, The Comtech (Lobby A) Singapore 118502 Phone: +65-6282-2400 Fax: +65-6282-2533 India Anritsu Pte. Ltd. India Branch Office 3rd Floor, Shri Lakshminarayan Niwas, #2726, 80 ft Road, HAL 3rd Stage, Bangalore - 560 075, India Phone: +91-80-4058-1300 Fax: +91-80-4058-1301 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. Units 4 & 5, 28th Floor, 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 Please Contact: 1110 Printed on Recycled Paper No. -(2.02) Printed in Japan 2011-11 MG