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RSA7100B 宽带信号分析仪
RSA7100B 宽带信号分析仪

RSA7100B 宽带信号分析仪

RSA7100B 宽带信号分析仪提供高达 800 MHz 带宽的实时频谱分析以及全带宽的无缝数据的同时流式传送。 它让通信、雷达和电子战的研究人员进行下一代设计。 通过 SignalVu-PC,16 kHz 至 14/26.5 GHz 频率范围涵盖了广泛的分析需求,包括调制、脉冲、WLAN 和频率/相位稳定测量 向 RAID、LVDS、40 GbE 和 API 进行 IQFlowTM 流式传输具有执行实时 DSP 算法和记录/分析长事件序列所需的速度和灵活性。 使用 DataVu-PC 快速查找和标记所需事件,同时隐藏数 TB 的存储数据
RSA7100B 宽带信号分析仪
产品描述

Specifications

All specifications are guaranteed unless noted otherwise. All specifications apply to all models unless noted otherwise.

Frequency reference
Frequency
10 MHz
Initial accuracy at Cal (10 min warm-up)
± 50 x 10  -9 (23 °C to 28 °C)
Aging after 30 days of continuous operation, typical

± 0.5 x 10 -9per day

± 100 x 10 -9first year

Cumulative error (Initial + Temperature + Aging), typical

200 x 10 -9(1 year)

Temperature drift
10 x 10  -9 (23 °C to 28 °C)

50 x 10 -9(0 °C to 55 °C)

External reference output
BNC connector, 50 Ω, nominal
External reference output level
0.71 Vpp to 2 Vpp into 50 Ω
External reference output level, typical
1.2 Vpp into 50 Ω
External reference input
BNC connector, 50 Ω, nominal
External reference input frequency
10 MHz ±0.2 x 10-6
External reference input level
0.5 Vpp to 2 Vpp into 50 Ω
Sweep time
Full-span sweep time, typical mean

(RBW: Auto, Span = 26.5 GHz)

Preselector Auto: 26.33 sec

Preselector Off: 4 sec

Channel response (amplitude and phase deviation), typical

For these specifications, set Preselector as Off, Attenuator to 10 dB, 18 °C to 28 °C.

Channel response, typical
Characteristic Description      
Measurement center frequency Span (MHz) Amplitude flatness (dBrms) Amplitude flatness (dB) Phase linearity (degrees rms) Phase linearity (degrees)
10 MHz to 3.6 GHz (CF ≥ Span) 10  0.06  ±0.8  0.08  ±0.1 
25  0.15  ±0.2  0.4  ±0.5 
50  0.2  ±0.3  1.0  ±1.3 
100  0.4  ±0.6  2.5  ±3.5 
320  1.0  ±1.4  10  ±13 
3.6 GHz to 26.5 GHz 10  0.07  ±0.1  0.08  ±0.1 
25  0.1  ±0.12  0.3  ±0.5 
50  0.1  ±0.15  0.8  ±1.1 
100  0.17  ±0.24  1.2  ±1.8 
320  0.6  ±0.86  ±8 
800  0.9  ±1.27  11  ±16 
 
 
 
 
 
Noise and distortion
3rd Order IM intercept (TOI)

+24 dBm at 3.3 GHz, Preamp OFF

(2-tone signal level -20 dBm per tone at the RF input. 1 MHz tone separation. Attenuator = 0 dB, Ref Level = -10 dBm. 5 MHz span, RBW set so noise is 10 dB below the IM3 tone level or lower. Production tested in a verification mode not part of normal operation.)

3rd Order IM intercept (TOI), typical

-12 dBm (10 MHz to 3.6 GHz, Preamp ON)

+19 dBm (10 MHz to 100 MHz, Preamp OFF)

+24 dBm (100 MHz to 3.6 GHz, Preamp OFF)

+20 dBm (3.6 GHz to 7 GHz)

+27 dBm (7.5 GHz to 14 GHz)

+21 dBm (14 GHz to 26.5 GHz)

(2-tone signal level -20 dBm per tone at the RF input. 1 MHz tone separation. Attenuator = 0 dB, Ref Level = -10 dBm. 5 MHz span, RBW set so noise is 10 dB below the IM3 tone level or lower.)

3rd Order Intermod Distortion (Preamp OFF, Preselector bypassed, 320 MHz acquisition bandwidth), typical

-85 dBc (100 MHz to 3.4 GHz)

-65 dBc (3.4 GHz to 6 GHz)

-80 dBc (6 GHz to 26.5 GHz)

(2-tone signal level -20 dBm per tone at the RF input. 50 MHz tone separation. Attenuator = 0 dB, Ref Level = -10 dBm)

2nd Harmonic Intercept (Preselector Enabled, Preamp OFF), typical

+40 dBm (50 MHz to 300 MHz input signal)

+74 dBm (300 MHz to 1.8 GHz input signal)

+68 dBm (1.8 GHz to 13.25 GHz input signal)

(0 dBm CW at the RF input. Attenuator = 10 dB, Ref Level = 0 dBm. Span 50 ≤ MHz.)

Displayed Average Noise Level (DANL) (Preamp OFF, Preselector bypassed, 18 ◦C to 28 ◦C)

-153 dBm/Hz (>10 MHz to 1.7 GHz)

-150 dBm/Hz (>1.7 GHz to 2.8 GHz)

-148 dBm/Hz (>2.8 GHz to 3.6 GHz)

-152 dBm/Hz (>3.6 GHz to 14 GHz)

-145 dBm/Hz (>14 GHz to 17 GHz)

-150 dBm/Hz (>17 GHz to 24 GHz)

-146 dBm/Hz (>24 GHz to 26.5 GHz)

(Normalized to 1 Hz RBW, with log-average detector, 0 dB attenuation, ref level -50 dBm.)

Displayed Average Noise Level (DANL) (Preamp OFF, Preselector bypassed), typical

-153 dBm/Hz (200 kHz to 10 MHz)

-155 dBm/Hz (10 MHz to 100 MHz)

-156 dBm/Hz (100 MHz to 1.7 GHz)

-154 dBm/Hz (1.7 GHz to 2.8 GHz)

-151 dBm/Hz (2.8 GHz to 3.6 GHz)

-156 dBm/Hz (3.6 GHz to 14 GHz)

-152 dBm/Hz (14 GHz to 24 GHz)

-150 dBm/Hz (24 GHz to 26.5 GHz)

(Normalized to 1 Hz RBW, with log-average detector, 0 dB attenuation.)

Displayed Average Noise Level (DANL) (Preamp ON, 18 ◦C to 28 ◦C)

-163 dBm/Hz (10 MHz to 50 MHz)

-164 dBm/Hz (50 MHz to 1.7 GHz)

-162 dBm/Hz (>1.7 GHz to 3.6 GHz)

(Normalized to 1 Hz RBW, with log-average detector, 0 dB attenuation, ref level -50 dBm.)

Displayed Average Noise Level (DANL) (Preamp ON), typical

-168 dBm/Hz (10 MHz to 100 MHz)

-167 dBm/Hz (100 MHz to 1.7 GHz)

-165 dBm/Hz (1.7 GHz to 3.6 GHz)

(Normalized to 1 Hz RBW, with log-average detector, 0 dB attenuation.)

Displayed Average Noise Level (DANL) (Preselector enabled), typical

-152 dBm/Hz (3.6 GHz to 14 GHz)

-147 dBm/Hz (14 GHz to 26.5 GHz)

(Normalized to 1 Hz RBW, with log-average detector, 0 dB attenuation, ref level -50 dBm.)

Time-qualified trigger
Minimum Re-Arm Time
10 μs
SignalVu-PC standard measurements
Measurements included.
General signal analysis
Spectrum analyzer Spans from 100 Hz to full span of instrument
Three traces plus math and spectrogram trace
Five markers with power, relative power, integrated power, power density and dBc/Hz functions
DPX Spectrum/Spectrogram Real time display of spectrum with 100% probability of intercept of up to 232 nsec signals in up to 800 MHz span. Swept DPX with DPX Spectrum to perform stepped DPX spectrum measurements over the full frequency range of the instrument.
Amplitude, frequency, phase vs. time, RF I and Q vs. time Basic vector analysis functions
Time Overview/Navigator Enables easy setting of acquisition and analysis times for deep analysis in multiple domains
Spectrogram Analyze and re-analyze your signal with a 2-D or 3-D waterfall display
Analog modulation analysis
AM, FM, PM analysis Measures key AM, FM, PM parameters
RF measurements
Spurious measurement User-defined limit lines and regions provide automatic spectrum violation testing across the entire range of the instrument. Four traces can be saved and recalled; CISPR Quasi-Peak and Average detectors available with option SVQP.
Spectrum emission mask User-defined or standards-specific masks
Occupied Bandwidth Measures 99% power, -xdB down points
Channel Power and ACLR Variable channel and adjacent/alternate channel parameters
MCPR Sophisticated, flexible multi-channel power measurements
CCDF Complementary Cumulative Distribution Function plots the statistical variations in signal level
Measurement functions
Measurement functions Description
Frequency domain Channel Power, Multi-Carrier Adjacent Channel Power / Leakage Ratio, Adjacent Channel Power, dBm/Hz Marker, dBc/Hz Marker
Time domain and statistical RF I/Q vs. Time, Power vs. Time, Frequency vs. Time, Phase vs. Time, CCDF, Peak-to-Average Ratio
SignalVu-PC applications performance summary
General purpose digital modulation analysis (SVMNL-SVPC)
Carrier type
Continuous, Burst (5 μs minimum on-time)
Modulation formats
BPSK, QPSK, 8PSK, 16QAM, 32QAM, 64QAM, 128QAM, 256QAM, π/2DBPSK, DQPSK, π/4DQPSK, D8PSK, D16PSK, SBPSK, OQPSK, SOQPSK, 16-APSK, 32-APSK, MSK, GFSK, CPM, 2FSK, 4FSK, 8FSK, 16FSK, C4FM
Analysis period
Up to 164,840 samples
Measurement filter
Root Raised Cosine, Raised Cosine, Gaussian, Rectangular, IS-95 Base EQ, User, None
Reference Filter
Gaussian, Raised Cosine, Rectangular, IS-95 baseband, User, None
Filter rolloff factor
α:0.001 to 1, in 0.001 steps
Measurement functions
Constellation, Error Vector Magnitude (EVM) vs. Time, Symbol Table
Vector diagram display format
Symbol/locus display, Frequency Error measurement, Origin Offset measurement
Constellation diagram display format
Symbol display, Frequency Error measurement, Origin Offset measurement
Error vector diagram display format
EVM, Magnitude Error, Phase Error, Waveform Quality (ρ) measurement, Frequency Error measurement, Origin Offset measurement
Symbol table display format
Binary, hexadecimal
QPSK Residual EVM (center frequency = 2 GHz), typical mean

0.35 % (1 MHz symbol rate)

0.35 % (10 MHz symbol rate)

0.75 % (30 MHz symbol rate)

0.75 % (60 MHz symbol rate)

1.5 % (120 MHz symbol rate)

2.0 % (240 MHz symbol rate)

400 symbols measurement length, 20 Averages, normalization reference = maximum symbol magnitude

256 QAM Residual EVM (center frequency = 2 GHz), typical mean

0.4 % (10 MHz symbol rate)

0.6 % (60 MHz symbol rate)

1.0 % (120 MHz symbol rate)

1.5 % (240 MHz symbol rate)

OQPSK Residual EVM (center frequency = 2 GHz), typical mean

0.6% (100 kHz symbol rate, 200 kHz measurement bandwidth)

0.6% (1 MHz symbol rate, 2 MHz measurement bandwidth)

1.0% (10 MHz symbol rate, 20 MHz measurement bandwidth)

Reference filter: raised-cosine, Measurement filter: root raised cosine, Filter parameter: Alpha = 0.3 

SOQPSK (MIL) Residual EVM (center frequency = 250 MHz), typical mean

0.4% (4 kHz symbol rate, 64 kHz measurement bandwidth)

Reference filter: MIL STD, Measurement filter: none

SOQPSK (MIL) Residual EVM (center frequency = 2 GHz), typical mean

0.5% (20 kHz symbol rate, 320 kHz measurement bandwidth)

0.5% (100 kHz symbol rate, 1.6 MHz measurement bandwidth)

0.5% (1 MHz symbol rate, 16 MHz measurement bandwidth)

Reference filter: MIL STD, Measurement filter: none

SOQPSK (ARTM) Residual EVM (center frequency = 250 MHz), typical mean

0.3% (4 kHz symbol rate, 64 kHz measurement bandwidth)

Reference filter: ARTM STD, Measurement filter: none

SOQPSK (ARTM) Residual EVM (center frequency = 2 GHz), typical mean

0.5% (20 kHz symbol rate, 320 kHz measurement bandwidth)

0.5% (100 kHz symbol rate, 1.6 MHz measurement bandwidth)

0.5% (1 MHz symbol rate, 16 MHz measurement bandwidth)

Reference filter: ATRM STD, Measurement filter: none

SBPSK (MIL) Residual EVM (center frequency = 250 MHz), typical mean

0.3% (4 kHz symbol rate, 64 kHz measurement bandwidth)

Reference filter: MIL STD, Measurement filter: none

SBPSK (MIL) Residual EVM (center frequency = 2 GHz), typical mean

0.5% (20 kHz symbol rate, 320 kHz measurement bandwidth)

0.5% (100 kHz symbol rate, 1.6 MHz measurement bandwidth)

0.5% (1 MHz symbol rate, 16 MHz measurement bandwidth)

Reference filter: MIL STD, Measurement filter: none

CPM (MIL) Residual EVM (center frequency = 250 MHz), typical mean

0.3% (4 kHz symbol rate, 64 kHz measurement bandwidth)

Reference filter: MIL STD, Measurement filter: none

CPM (MIL) Residual EVM (center frequency = 2 GHz), typical mean

0.5% (20 kHz symbol rate, 320 kHz measurement bandwidth)

0.5% (100 kHz symbol rate, 1.6 MHz measurement bandwidth)

0.5% (1 MHz symbol rate, 16 MHz measurement bandwidth)

Reference filter: MIL STD, Measurement filter: none

2/4/8/16FSK Residual RMS FSK Error (center frequency = 2 GHz), typical mean

0.5% (2/4FSK, 10 kHz symbol rate, 10 kHz frequency deviation)

0.4% (8/16FSK, 10 kHz symbol rate, 10 kHz frequency deviation)

Reference filter: none, Measurement filter: none

Flexible OFDM Measurements application (SVONL-SVPC)
802.11a/g/j/p OFDM and 802.16-2004 maximum residual EVM (RMS), typical mean

-52 dB at 2.4 GHz (802.11a/g/j and 802.16-2004)

-50 dB at 2.4 GHz and 5.8 GHz

802.11b Maximum Residual EVM (RMS), typical mean

1.0% at 2.4 GHz

WLAN 802.11n Measurement application (SV24NL-SVPC)
OFDM Maximum Residual EVM (RMS), typical mean

-49 dB at 2.4 GHz

-49 dB at 5.8 GHz

(40 MHz bandwidth)

APCO P25 Measurements Application (SV26NL-SVPC)
Measurements
RF output power, operating frequency accuracy, modulation emission spectrum, unwanted emissions spurious, adjacent channel power ratio, frequency deviation, modulation fidelity, frequency error, eye diagram, symbol table, symbol rate accuracy, transmitter power and encoder attack time, transmitter throughput delay, frequency deviation vs. time, power vs. time, transient frequency behavior, HCPM transmitter logical channel peak adjacent channel power ratio, HCPM transmitter logical channel off slot power, HCPM transmitter logical channel power envelope, HCPM transmitter logical channel time alignment, cross-correlated markers
Modulation fidelity, typical

C4FM = ≤ 1.0%

HCPM ≤ 0.5%

HDQPSK = ≤ 0.25%

Input signal level is optimized for best modulation fidelity.

Bluetooth Measurements Application (SV27NL-SVPC and SV31NL-SVPC)
Supported standards

Bluetooth® 4.2 Basic Rate, Bluetooth® 4.2 Low Energy, Bluetooth® 4.2 Enhanced Data Rate. Bluetooth® 5 when SV31 is enabled.

Measurements
Peak Power, Average Power, Adjacent Channel Power or InBand Emission mask, -20 dB Bandwidth, Frequency Error, Modulation Characteristics including ΔF1avg (11110000), ΔF2avg (10101010), ΔF2 > 115 kHz, ΔF2/ΔF1 ratio, frequency deviation vs. time with packet and octet level measurement information, Carrier Frequency f0, Frequency Offset (Preamble and Payload), Max Frequency Offset, Frequency Drift f1-f0, Max Drift Rate fn-f0 and fn-fn-5, Center Frequency Offset Table and Frequency Drift table, color-coded Symbol table, Packet header decoding information, eye diagram, constellation diagram
Output power (BR and LE), typical mean

Supported measurements: Average power, peak power

Level uncertainty: refer to instrument amplitude and flatness specification

Measurement range: signal level > –70 dBm

Modulation characteristics, typical mean (CF = 2400 MHz to 2500 MHz)

Supported measurements: ΔF1avg, ΔF2avg, ΔF2avg/ ΔF1avg, ΔF2max%>=115kHz (basic rate), ΔF2max%>=115kHz (low energy)

Deviation range: ±280 kHz

Deviation uncertainty (at 0 dBm):

<2 kHz1+ instrument frequency uncertainty (basic rate)

<3 kHz + instrument frequency uncertainty (low energy)

Measurement resolution: 10 Hz

Measurement range: Nominal channel frequency ±100 kHz

Initial Carrier Frequency Tolerance (ICFT) (BR and LE), typical mean

Measurement uncertainty (at 0 dBm): <1 kHz2+ instrument frequency uncertainty

Measurement range: Nominal channel frequency ±100 kHz

Measurement resolution: 10 Hz

RF signal power range: > –70 dBm

Carrier Frequency Drift (BR and LE), typical mean

Supported measurements: Max freq. offset, drift f1- f0, max drift fn-f0, max drift fn-fn-5(BR and LE 50 μs)

Measurement uncertainty: <1 kHz3+ instrument frequency uncertainty

Measurement resolution: 10 Hz

Measurement range: Nominal channel frequency ±100 kHz

RF signal power range: > –70 dBm

In-band emissions (ACPR) (BR and LE)

Level uncertainty: refer to instrument amplitude and flatness specification

1At nominal power level of 0 dBm

2At nominal power level of 0 dBm

3At nominal power level of 0 dBm

LTE Downlink RF measurements (SV28NL-SVPC)
Standard Supported

3GPP TS 36.141 Version 12.5 

Frame Format supported

FDD and TDD

Measurements and Displays Supported
Adjacent Channel Leakage Ratio (ACLR), Spectrum Emission Mask (SEM), Channel Power, Occupied Bandwidth, Power vs. Time showing Transmitter OFF power for TDD signals and LTE constellation diagram for Primary Synchronization Signal and Secondary Synchronization Signal with Cell ID, Group ID, Sector ID, RS (Reference Signal) Power and Frequency Error.
Channel power measurement accuracy
Level uncertainty: refer to instrument amplitude and flatness specification
Pulse measurements (SVPNL-SVPC)
Measurements (nominal)
Pulse-Ogram™ waterfall display of multiple segmented captures, with amplitude vs time and spectrum of each pulse. Pulse frequency, Delta Frequency, Average on power, Peak power, Average transmitted power, Pulse width, Rise time, Fall time, Repetition interval (seconds), Repetition interval (Hz), Duty factor (%), Duty factor (ratio), Ripple (dB), Ripple (%), Droop (dB), Droop (%), Overshoot (dB), Overshoot (%), Pulse- Ref Pulse frequency difference, Pulse- Ref Pulse phase difference, Pulse- Pulse frequency difference, Pulse- Pulse phase difference, RMS frequency error, Max frequency error, RMS phase error, Max phase error, Frequency deviation, Phase deviation, Impulse response (dB),Impulse response (time), Time stamp.
Pulse measurement characteristics
Characteristic For 40 MHz bandwidth For 320 and 800 MHz bandwidth
Minimum Pulse Width for detection, typical 150 ns 50 ns
Average ON Power (at 18 to 28 °C), typical ±0.4 dB + absolute Amplitude Accuracy For pulses of 300 ns width or greater, and signal levels above 70 dB below reference level. ±0.4 dB + absolute Amplitude Accuracy For pulses of 100 ns width or greater, duty cycles of .5 to .001, and S/N ratio ≥ 30 dB.
Duty factor, typical ±0.2% of reading For pulses of 450 ns width or greater, duty cycles of .5 to .001, and S/N ratio ≥ 30 dB. ±0.2% of reading For pulses of 150 ns width or greater, duty cycles of .5 to .001, and S/N ratio ≥ 30 dB.
Average transmitted power, typical ±0.4 dB + absolute Amplitude Accuracy For pulses of 300 ns width or greater, duty cycles of .5 to .001, and S/N ratio ≥ 30 dB. ±0.4 dB + absolute Amplitude Accuracy For pulses of 100 ns width or greater, duty cycles of .5 to .001, and S/N ratio ≥ 30 dB.
Peak pulse power, typical ±0.4 dB + absolute Amplitude Accuracy For pulses of 300 ns width or greater, duty cycles of .5 to .001, and S/N ratio ≥ 30 dB. ±0.4 dB + absolute Amplitude Accuracy For pulses of 100 ns width or greater, duty cycles of .5 to .001, and S/N ratio ≥ 30 dB.
Pulse width, typical ±0.25% of reading For pulses of 450 ns width or greater, duty cycles of .5 to .001, and S/N ratio ≥ 30 dB. ±0.25% of reading For pulses of 150 ns width or greater, duty cycles of .5 to .001, and S/N ratio ≥ 30 dB.
Pulse measurement characteristics (continued)
Characteristic Center frequency 40 MHz bandwidth 320 MHz bandwidth 800 MHz bandwidth
Pulse-to-pulse carrier phase (non-chirped pulse), typical 2 GHz ±0.4° ±0.5° NA
4 GHz NA NA ±0.5°
10 GHz ±0.4° ±0.5° ±0.5°
20 GHz ±0.4° ±0.5° ±0.5°
Pulse-to-Pulse carrier phase (linear-chirped pulse), typical 2 GHz ±0.3° ±0.5° NA
4 GHz NA NA ±0.75°
10 GHz ±0.3° ±0.5° ±0.75°
20 GHz ±0.5° ±0.5° ±0.75°
Pulse-to-Pulse carrier frequency (non-chirped pulse), typical 2 GHz ±40 kHz ±400 kHz NA
4 GHz NA NA ±800 kHz
10 GHz ±40 kHz ±400 kHz ±800 kHz
20 GHa ±40 kHz ±400 kHz ±800 kHz
Pulse-to-Pulse carrier frequency (linear-chirped pulse), typical 2 GHz ±25 kHz ±400 kHz NA
4 GHz NA NA ±800 kHz
10 GHz ±25 kHz ±400 kHz ±800 kHz
20 GHz ±25 kHz ±400 kHz ±800 kHz
Pulse-to-Pulse delta frequency (non-chirped pulse), typical 2 GHz ±1 kHz ±20 kHz NA
4 GHz NA NA ±60 kHz
10 GHz ±1 kHz ±20 kHz ±60 kHz
20 GHz ±5 kHz ±25 kHz ±75 kHz
Pulse frequency linearity (Absolute Frequency Error RMS), typical 2 GHz ±10 kHz ±100 kHz NA
4 GHz NA NA ±200 kHz
10 GHz ±10 kHz ±100 kHz ±200 kHz
20 GHz ±10 kHz ±100 kHz ±200 kHz
Chirp frequency linearity (Absolute Frequency Error RMS), typical 2 GHz ±10 kHz ±150 kHz NA
4 GHz NA NA ±300 kHz
10 GHz ±10 kHz ±150 kHz ±300 kHz
20 GHz ±10 kHz ±150 kHz ±300 kHz
AM/FM/PM measurement application (SVANL-SVPC)
Carrier frequency range (analog demodulation)
(16 kHz or 1/2 × (audio analysis bandwidth) to maximum input frequency
Maximum audio frequency span (analog demodulation)
10 MHz
Global conditions for audio measurements

Input frequency: <2 GHz

RBW: Auto

Averaging: Off

Filters: Off

FM measurements (Mod. index >0.1)
Carrier Power, Carrier Frequency Error, Audio Frequency, Deviation (+Peak, -Peak, Peak-Peak/2, RMS), SINAD, Modulation Distortion, S/N, Total Harmonic Distortion, Total Non-harmonic Distortion, Hum and Noise
FM carrier power accuracy, typical mean

±0.85 dB

Carrier frequency: 10 MHz to 2 GHz

Input power: -20 to 0 dB

FM carrier frequency accuracy, typical mean

±0.5 Hz + (transmitter freq * reference freq error)

Deviation: 1 to 10 kHz

FM deviation accuracy, typical mean

± (1% of (rate + deviation) + 50 Hz)

Rate: 1 kHz to 1 MHz

FM rate accuracy, typical mean
±0.2 Hz
FM residual THD, typical mean
 
AM measurements
Carrier Power, Audio Frequency, Modulation Depth (+Peak, -Peak, Peak-Peak/2, RMS), SINAD, Modulation Distortion, S/N, Total Harmonic Distortion, Total Non-harmonic Distortion, Hum and Noise
PM measurements
Carrier Power, Carrier Frequency Error, Audio Frequency, Deviation (+Peak, -Peak, Peak-Peak/2, RMS), SINAD, Modulation Distortion, S/N, Total Harmonic Distortion, Total Non-harmonic Distortion, Hum and Noise
Audio filters

Low pass: 300 Hz, 3 kHz, 15 kHz, 30 kHz, 80 kHz, 300 kHz and user-entered up to 0.9*(audio bandwidth)

High pass: 20 Hz, 50 Hz, 300 Hz, 400 Hz, and user-entered up to 0.9*(audio bandwidth)

Standards-based: CCITT, C-Message

De-emphasis (μs): 25, 50, 75, 750, and user-entered

User defined audio file format: User-supplied .TXT or .CSV file of amplitude/frequency pairs. Maximum 1000 pairs

Mapping (MAPNL-SVPC)
Supported map types
Pitney Bowes MapInfo (*.mif), Bitmap (*.bmp), Open Street Maps (.osm)
Saved measurement results
Measurement data files (exported results)
Map file used for the measurements
Google Earth KMZ file
Recallable results files (trace and setup files)
MapInfo-compatible MIF/MID files
Environmental specifications
CTRL7100B I/O

PCIe 2x USB 3.0 on front panel

2x USB 3.0 on rear panel

2x USB 2.0 on rear panel

17 removable drive bays (1 for OS, 16 for RAID)

6 Mini-Display ports

2x 10 Gbit Ethernet

1x 40 Gbit Ethernet (Mellanox ConnectX-3 Ethernet Adapter) with QSFP connector type

CTRL7100BRAID

Disk size and lifetime, 800 MHz bandwidth

RAID option

Total time of all records

Expected lifetime of disk

Option B at 1000 MS/s 55 min 290 hr
Option B at 1000 MS/s, stored unpacked 40 min 226 hr
Option C at 1000 MS/s 165 min 900 hr
Option C at 1000 MS/s, stored unpacked 120 min 680 hr
CTRL7100B internal characteristics

Dual Intel® Xeon® Gold 5218 16 Core (Cascade Lake)

512 GB SSD ( removable from front panel)

Windows 10 operating system

GPU: AMD WX9100

Optional RAID controller and front-panel removable drives supports 4 GB/s streaming and up to 32 TB memory

RSA7100B interfaces inputs and output ports

 

 

 

 

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MDO3000/4000示波器和AFG/TSG信号源及选配频谱仪/万用表/电源/功率分析仪
2015年终钜惠
2015-10-22 19:04:00
 年终钜惠,购买MDO4000B示波器,优惠15%,并免费获得应用套件。购买MDO3000示波器,免费获得频谱分析仪选项和应用套件,或免费获得函数发生器选项和应用套件。
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 年终钜惠,购买MDO4000B示波器,优惠15%,并免费获得应用套件。购买MDO3000示波器,免费获得频谱分析仪选项和应用套件,或免费获得函数发生器选项和应用套件。

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