RIGOL TECHNOLOGIES, INC.
DSA1000 series is a 3GHz general purpose spectrum analyzer. With its
stable performance as well as overall and easy-to-use test functions, it
can fulll most of the spectrum-related test and application requirements,
such as maintenance, production and education. In addition, it is a
highly cost effective instrument that is worth having.
All Digital IF Technology
Frequency Range: 9 kHz to 3 GHz
Displayed Average Noise Level Up to -148 dBm (DSA1030A)
Phase Noise up to -88 dBc/Hz @10 kHz offset (DSA1030A)
Total Amplitude Uncertainty <1.0 dB(DSA1030A)
Minimum Resolution Bandwidth (RBW) : 10 Hz (DSA1030A)
Quasi-Peak Detector & EMI Filter (Standard)
3 GHz Tracking Generator (for DSA1030-TG and DSA1030A-TG)
Advanced measurement functions (option for DSA1030 and
DSA1030-TG, standard for DSA1030A and DSA1030A-TG)
8.5 inch widescreen display (800X480)
Complete Connectivity: LAN, USB Host&Device, VGA, USB-GPIB
(optional)
Compact size, light weight
Product Dimensions: Width X Height X Depth = 399 mm × 223 mm × 159 mm Weight: 6.2 kg (Without Battery and Package)
Benets of Rigol's all digital IF design
Unique widescreen display, friendly interface and easy-to-use operations
Auto
Tune
Auto
Range
Auto
Scale
Auto
Couple
Power ON
Last
Factory
Preset
User
Preset
Preset
Status saving and
loading such as
Setup
State
Trace
Corrections
Measure
Marker Table
Peak Table
Limit
1RIGOL
DSA1000 Series provides a series of automatic setting functions such
as Auto Tune, Auto Range, Auto Scale and Auto Couple that enable the
analyzer to acquire signals and match parameters automatically, instead
of the manual process used by a traditional analyzer. In addition, the User
and Factory settings under the Preset function enable users to quickly and
easily recall previous measurement settings.
With the DSA1000 Series get a high quality spectrum analyzer without the
price tag. This lowers the investment whether you are in stages related
to research and development or manufacturing and maintenance. Don't
let instrumentation costs dictate resource allocation. With our available
calibration and maintenance training as well as firmware updates never
regret a purchase because of total cost of ownership.
1. The ability to measure smaller signals: on the basis of this technology,
the IF lter enables smaller bandwidth settings, which greatly reduce the
displayed average noise level.
2. The ability to distinguish between small signals by frequency: using the
IF lter with the smallest bandwidth setting it is possible to make out
signals with a frequency difference of only 10 Hz.
3. High precision amplitude readings: this technology almost eliminates
the errors generated by lter switching, reference level uncertainty,
scale distortion, as well as errors produced in the process of switching
between logarithmic and linear display of amplitude when using a
traditional analog IF design.
4. Higher reliability: compared with traditional analog designs, the digital
IF greatly reduces the complexity of the hardware, the system instability
caused by channel aging, and the temperature sensitivity that can
contribute to parts failure.
5. High measurement speed: the use of digital IF technology improves the
bandwidth precision and selectivity of the lter, minimizing the scanning
time and improving the speed of the measurement.
Breadth of measurement functions and
automatic settings provide ultimate exibility
Incomparable Value
Advanced Performance and stability
Stability and precision is the primary design goal of the DSA1000 Series.
We started with an all digital IF core. With the minimum 10Hz resolution
bandwidth, -88 dBc/Hz phase noise (typical) at 10 kHz offset, up to -148
dBm displayed average noise level (10 Hz RBW, standard preamplier on)
and less than 1.0 dB total amplitude error, the DSA1000 Series makes high
precision measurements easier than ever whether the application calls for
low noise or narrow resolution.
RIGOL 2
Features and Benets
Distinguish the two nearby signals clearly with
the 10Hz RBW
Readout the signal's Phase Noise directly by
using the standard Noise Marker function
Compare the spectrums with different
color trace
The advanced Occupied Bandwidth
measurement function
The advanced Harmonic distortion
measurement function
Readout the Spectrum Peak values with the
Peak table function
The advanced Channel Power measurement
function
Quasi-Peak Detector & EMI Filter (Standard)
RIGOL Spectrum Analyzer Option and Accessory
VSWR Bridge
( VB1020/VB1040)
Rack Mount Kit
( RM-DSA1000 )
USB to GPIB Converter
( USB-GPIB )
RF Demo Kit
( TX1000 )
RF CATV KitRF Demo Kit
( RX1000 )
Soft Carrying Bag
( BAG-DSA1000 )
DSA Utility Kit
RF Cable Kit
( CB-NM-NM-75-L-12G )
( CB-NM-SMAM-75-L-12G )
RF Adaptor Kit
High Power Attenuator
( ATT03301H )
RF Attenuator Kit
DSA PC Software
( Ultra Spectrum )
Advanced Measurement Kit
(AMK-DSA1000)
Harmonic distortion TOI Emission
Bandwidth
Channel Power
Time Domain Power
Adjacent Channel Power
Occupied
Bandwidth
Carrier to Noise
Ratio
Pass/Fail
3RIGOL
Desk Mount Instrument Arm
(ARM)
Specications
Model DSA1030A/DSA1030A-TG DSA1030/DSA1030-TG
Frequency
Frequency
Frequency Range 9 kHz to 3 GHz
Frequency Resolution 1 Hz
Internal Frequency Reference
Reference Frequency 10 MHz
Aging Rate <3 ppm/year
Temperature Drift <3 ppm, 20 ℃ to 30 ℃
Frequency Readout Accuracy
Marker Resolution span/(sweep points-1)
Marker Uncertainty ± (frequency indication × frequency reference uncertainty +1% × span + 10% × resolution
bandwidth + marker resolution)
Marker Frequency Counter
Resolution 1 Hz, 10 Hz, 100 Hz, 1 kHz, 10 kHz, 100 kHz
Uncertainty
±(frequency indication × frequency reference uncertainty + counter resolution)
Note: Frequency Reference Uncertainty= (aging rate × period since adjustment + temperature
drift).
Frequency Span
Range 0 Hz, 100 Hz to 3 GHz
Uncertainty ±span/(sweep points-1)
SSB Phase Noise
SSB Phase Noise
Note: Typical fc = 500MHz,
RBW≤1kHz, sample detector, and trace
average≥50.
Carrier Offset 10 kHz: <-88 dBc/Hz, typical
Carrier Offset 100 kHz:<-100 dBc/Hz, typical
Carrier Offset 1 MHz:<-110 dBc/Hz, typical Carrier Offset 10 kHz: <-80 dBc/Hz
Bandwidths
Set “Auto SWT” to “Accy”
Resolution Bandwidth (-3dB) 10 Hz to 1 MHz, in 1-3-10 sequence 100 Hz to 1 MHz, in 1-3-10 sequence
Bandwidth (-6dB) 200Hz, 9kHz, 120kHz, 1 MHz 200Hz, 9kHz, 120kHz, 1 MHz
RBW Uncertainty <5%, nominal
Resolution Filter Shape Factor
(60 dB : 3 dB) <5, nominal
Video Bandwidth (-3dB) 1 Hz to 3 MHz, in 1-3-10 sequence
Amplitude
Measurement Range
Range
10 MHz to 3 GHz: DANL to +30 dBm
1 MHz to 10 MHz: DANL to +21 dBm
9 kHz to 1 MHz: DANL to +17 dBm
Maximum rated input level
Note: When input level >33 dBm, the protection switch will be on.
DC Voltage 50 V
CW RF Power 30 dBm (1 W ) (RF attenuation≥20 dB )
Max. Damage Level 40 dBm (10 W )
1dB Gain Compression
fc ≥ 50MHz, preamplier off
Specications are valid under the following conditions: the instrument is within the calibration period, is stored for at least two hours at 5℃ to 40℃
temperature, and is warmed up for 30 minutes. Unless otherwise noted, the specications in this manual include the measurement uncertainty.
Typical (typ.): characteristic performance, which 80 percent of the measurement results will meet at room temperature (approximately 25℃). This data is
not warranted and does not include the measurement uncertainty.
Nominal (nom.): the expected mean or average performance or a designed attribute (such as the 50 Ω connector). This data is not warranted and is
measured at room temperature (approximately 25℃).
Measured (meas.): an attribute measured during the design phase which can be compared to the expected performance, such as the amplitude drift
variation with time. This data is not warranted and is measured at room temperature (approximately 25℃).
NOTE: All data in this manual are the measurement results of multiple instruments at room temperature unless otherwise noted. The specications (except
the TG specications) listed in this manual are those when the tracking generator is off.
RIGOL 4
Total Power at Input Mixer >0 dBm
Note: Mixer power level (dBm) = input power (dBm) – input attenuation (dB).
Displayed Average Noise Level (DANL)
0 dB RF Attenuation, RBW=100 Hz,
VBW=1Hz, RMS Average Detector, Trace
Average ≥ 50, Input Impedance=50 Ω,
Tracking Generator Off.
DANL
(Preamplier Off)
100 kHz to 10 MHz:
<-85 dBm-3 x (f/1 MHz) dB, typical -125 dBm
10 MHz to 2.5 GHz:
<-127 dBm+3 x (f/1GHz) dB,
typical -130 dBm
2.5 GHz to 3 GHz:<-115 dBm
100 kHz to 10 MHz:
<-75 dBm-3 x (f/1 MHz) dB, typical -115 dBm
10 MHz to 2.5 GHz:
<-117 dBm+3 x (f/1 GHz) dB,
typical -120 dBm
2.5 GHz to 3 GHz:<-105 dBm
DANL
(Preamplier On)
100 kHz to 1 MHz:<-103 dBm
1 MHz to 10 MHz:<-103 dBm-3 x (f/1 MHz) dB,
typical -143 dBm
10 MHz to 2.5 GHz:<-145 dBm+3 x (f/1 GHz)
dB, typical -148 dBm
2.5 GHz to 3 GHz:<-133 dBm
100 kHz to 1 MHz:<-93 dBm
1 MHz to 10 MHz:<-93 dBm-3 x (f/1 MHz)
dB, typical -133 dBm
10 MHz to 2.5 GHz:<-135 dBm+3 x (f/1
GHz) dB, typical -138 dBm
2.5 GHz to 3 GHz:<-123 dBm
Level Display Range
Log Scale 1 dB to 200 dB
Linear Scale 0 to Reference Level
Number of Display Points Normal: 601; Full Screen: 751
Number of Traces 3 + Math Trace
Trace Detectors Normal, Positive-peak, Negative-peak, Sample, RMS, Voltage Average, Quasi-Peak
Trace Functions Clear Write, Max Hold, Min Hold, Average, Freeze, Blank
Scale Units dBm, dBmV, dBμV, V, W
Frequency Response
10 dB RF Attenuation, Relative to 50 MHz, 20℃ to 30℃
Frequency Response Preamplier Off , 100 kHz to 3 GHz: <0.7 dB
Preamplier On , 1 MHz to 3 GHz: <1.0 dB
Preamplier Off , 100 kHz to 3 GHz: <1.0 dB
Preamplier On , 1 MHz to 3 GHz: <1.4 dB
Input Attenuation Switching Uncertainty
Setting Range 0 to 50 dB, in 1 dB step
Switching Uncertainty (fc=50 MHz,
relative to 10 dB, 20 ºC to 30 ºC) < (0.3 + 0.01 x attenuator setting) dB <0.8 dB
Absolute Amplitude Uncertainty
Uncertainty
(fc=50 MHz, peak detector,
preamplier off, 10 dB RF
attenuation, input signal=-10 dBm,
20 ºC to 30 ºC)
±0.4 dB
RBW Switching Uncertainty
10 Hz to 1 MHz, relative
to 1 kHz RBW 100 Hz to 1 MHz, relative to 1 kHz RBW
Uncertainty <0.1 dB
Reference Level
Range -100 dBm to +30 dBm, in 1 dB step
Resolution Log Scale: 0.01 dB; Linear Scale: 5 digits
Level Measurement Uncertainty
95% condence level, S/N>20 dB, RBW=VBW=1 kHz, preamplier off, 10 dB RF attenuation, -50 dBm<reference level<0,10
MHz<fc<3 GHz, 20 ºC to 30 ºC
Level Measurement Uncertainty <1.0 dB, nominal <1.5 dB, nominal
RF Input VSWR
10 dB RF Attenuation
VSWR
100 kHz to 10 MHz: <1.8, nominal
10 MHz to 2.5 GHz: <1.5, nominal
2.5 GHz to 3 GHz: <1.8, nominal
0 dB RF Attenuation, RBW=10
Hz, VBW=1Hz, RMS Average
Detector, Trace Average ≥ 50,
Input Impedance=50 Ω, Tracking
Generator Off.
5RIGOL
Intermodulation
Second Harmonic Intercept (SHI) +35 dBm
Third-order Intermodulation (TOI) fc >30 MHz: +7 dBm
Spurious Responses
Image Frequency <-60 dBc
Intermediate Frequency <-60 dBc
Spurious Response <-88 dBm, typical <-85 dBm, typical
System-related Sideband
(Referenced to local oscillators,
referenced to A/D conversion,
referenced to subharmonic of rst
LO, referenced to harmonic of rst
LO )
<-60 dBc
Input Related Spurious
(Mixer level: -30 dBm ) <-60 dBc, typical
Sweep
Sweep
Sweep Time Range 100 Hz ≤ Span ≤ 3 GHz: 10 ms to 3000 s
Span=0 Hz: 20 μs to 3000 s
Sweep Time Uncertainty Non-zero Span (100 Hz ≤ Span ≤ 3 GHz): 5%, nominal
Zero Span (1 ms to 3000 s): 5%, nominal
Sweep Mode Continuous, single
Trigger Functions
Trigger
Trigger Source Free Run, Video, External
External Trigger Level 5 V TTL level, nominal
Tracking (for DSA1030A-TG and DSA1030-TG)
TG Output
Frequency Range 10 MHz to 3 GHz , 9 kHz settable
Output Level -20 dBm to 0 dBm, in 1 dB steps
Output Flatness (10 MHz to 3
GHz, referenced to 50 MHz ) ±3 dB
Inputs/Outputs
RF Input
Impedance 50 Ω, nominal
Connector N female
TG Out
Impedance 50 Ω, nominal
Connector N female
Probe Power
Voltage/Current +15 V, <10% at 150 mA
-12.6 V, <10% at 150 mA
10 MHz REF In / 10 MHz REF Out / External Trigger In
Connector BNC female
10 MHz REF Amplitude 0 dBm to 10 dBm
Trigger Voltage 5 V TTL level, nominal
Remote Control
USB
USB Host
Connector A Plug
Protocol Version 2.0
USB Device
Connector B Plug
Protocol Version 2.0
LAN
LXI Core 2011 Device 10/100 Base, RJ-45
GPIB
IEC/IEEE Bus (GPIB) With the USB-GPIB option
IEEE 488.2
RIGOL 6
VGA
Connector VGA compatible, 15-pin mini D-SUB
Resolution 800 * 600 @ 60Hz
General Specications
Display
Type TFT LCD
Resolution 800 * 480
Size 8.5”
Colors 65536
Printer Supported
Protocol PictBridge
Mass Memory
Mass Memory Flash Disk (internal), USB Disk (not supplied)
Data Storage Space 1G Bytes
Power Supply
Input Voltage Range, AC 100 V to 240 V, nominal
AC Supply Frequency 45 Hz to 440 Hz
Power Consumption Typical 35 W, Max 60 W with all options.
Operation Time at DC Power
Supply About 3 hours, nominal
Temperature
Operating temperature range 5 ℃ to 40 ℃
Storage temperature range -20 ℃ to 70 ℃
Dimensions
Dimensions
(W x H x D)
399 mm x 223 mm x 159 mm
(15.7 inches x 8.78 inches x 6.26 inches), approximate
Weight
Weight Without battery pack: 6.2 kg (13.7 lbs), approximate;
With battery pack: 7.4 kg (16.3 lbs) , approximate
7RIGOL
Ordering Information
Warranty
Three -year warranty, excluding accessories.
Description Order Number
Model
Spectrum Analyzer, 9 kHz to 3 GHz, with preamplier DSA1030A
Spectrum Analyzer, 9 kHz to 3 GHz, with preamplier, with track generator DSA1030A-TG
Spectrum Analyzer, 9 kHz to 3 GHz DSA1030
Spectrum Analyzer, 9 kHz to 3 GHz, with track generator DSA1030-TG
Standard
Accessories
Front Panel Cover FPCS-DSA1000
Quick Guide (Hard Copy) -
CDROM (User Guide, Programming Guide) -
USB Data Cable -
Power Cable Conforming to the Standard of the Country -
Options
Preamplier (for DSA1030 and DSA1030-TG) PA-DSA1030
Advanced Measurement Kit (for DSA1030 and DSA1030-TG) AMK-DSA1000
DSA PC Software Ultra Spectrum
Optional
Accessories
Include: N-SMA Cable, BNC-BNC Cable, N-BNC Adaptor, N-SMA Adaptor, 75 Ω – 50
Ω Adaptor, 900 MHz/1.8 GHz Antennas, 2.4 GHz Antennas DSA Utility Kit
Include: N(F)-N(F) Adaptor (1pcs), N(M)-N(M) Adaptor (1pcs), N(M)-SMA(F) Adaptor
(2pcs), N(M)-BNC(F) Adaptor (2pcs), SMA(F)-SMA(F) Adaptor (1pcs), SMA(M)-
SMA(M) Adaptor (1pcs), BNC T Type Adaptor (1pcs), 50Ω SMA Load (1pcs), 50Ω
Impedance Adaptor (1pcs)
RF Adaptor Kit
Include: 50Ω to 75Ω Adaptor (2pcs) RF CATV Kit
Include: 6dB Attenuator (1pcs), 10dB Attenuator (2pcs) RF Attenuator Kit
30dB High Power Attenuator, Max Power 100W ATT03301H
N(M)-N(M) RF Cable CB-NM-NM-75-L-12G
N(M)-SMA(M) RF Cable CB-NM-SMAM-75-L-12G
RF Demo Kit (Transmitter) TX1000
RF Demo Kit (Receiver) RX1000
VSWR Bridge (1 MHz to 2 GHz) VB1020
VSWR Bridge (800 MHz to 4 GHz) VB1040
Rack Mount Kit RM-DSA1000
Soft Carrying Bag BAG-DSA1000
USB to GPIB Interface Converter for Instrument USB-GPIB
11.1 V, 147 Wh Li-ion Battery Pack BAT(China Only)
Desk Mount Instrument Arm ARM
HEADQUARTER
RIGOL TECHNOLOGIES, INC.
No.156,Cai He Village,
Sha He Town,
Chang Ping District, Beijing,
102206 P.R.China
Tel:+86-10-80706688
Fax:+86-10-80705070
Electronic Measurement
Instrument service and support
email:EMD_support@rigol.com
Chemical Analysis Instrument
service and support email:service.
chem@rigol.com
EUROPE
RIGOL TECHNOLOGIES GmbH
Lindbergh str. 4
82178 Puchheim
Germany
Tel: 0049- 89/89418950
Email: info-europe@rigoltech.com
NORTH AMERICA
RIGOL TECHNOLOGIES,
USA INC.
10200 SW Allen Blvd, Suite C
Beaverton, OR 97005, USA
Toll free: 877-4-RIGOL-1
Ofce: (440) 232-4488
Fax: (216)-754-8107
Email: info@rigol.com
JAPAN
RIGOL TECHNOLOGIES JAPAN G.K.
Tonematsu Bldg. 5F, 2-33-8 Nihonbashi-
Ningyocho, Chuo-ku,
Tokyo 103-0013
Japan
Tel: +81-3-6264-9251
Fax: +81-3-6264-9252
Email: info-japan@rigol.com
RIGOL® is the registered trademark of RIGOL Technologies, Inc. Product information in
this document subject to update without notice. For the latest information about RIGOL's
products, applications and services, please contact local RIGOL ofce or access RIGOL
ofcial website: www.rigol.com
November 2015
