Tektronix SPECMON3, SPECMON6 Performance Verification
xx
SPECMON3 Real-Time Spectrum Analyzers
SPECMON6 Real-Time Spectrum Analyzers
ZZZ
Specifications and Performance Verification
Technical Reference
*P077074201*
077-0742-01
xx
SPECMON3 Real-Time Spectrum Analyzers
SPECMON6 Real-Time Spectrum Analyzers
ZZZ
Specifications and Performance Verification
Technical Reference
This document applies to instruments running software version
3.1.x or later.
Warning
The servicing instructions are for use by qualified personnel
only. To avoid personal injury, do not perform any servicing
unless you are qualified to do so. Refer to all safety summaries
prior to performing service.
www.tektronix.com
077-0742-01
Copyright © Tektronix. All rights reserved. Licensed software products are owned by Tektronix or its subsidiaries
or suppliers, and are protected by national copyright laws and international treaty provisions.
Tektronix products are covered by U.S. and foreign patents, issued and pending. Information in this publication
supersedes that in all previously published material. Specifications and price change privileges reserved.
TEKTRONIX a nd TEK are registered trademarks of Tektronix, Inc.
Contacting Tektronix
Tektronix, Inc.
14150 SW Karl Braun Drive
P.O . Bo x 50 0
Beaverto
USA
For product information, sales, service, and technical support:
n, OR 97077
In North America, call 1-800-833-9200.
World wide , vi s it www.tektronix.com to find contacts in your area.
Warranty
Tektronix warrants that this product will be free from defects in materials and workmanship for a period of one (1)
year from the date of shipment. If any such product proves defective during this warranty period, Tektronix, at its
option, either will repair the defective product without charge for parts and labor, or will provide a replacement
in exchange for the defective product. Parts, modules and replacement products used by Tektronix for warranty
work may be n
the property of Tektronix.
ew or reconditioned to like new performance. All replaced parts, modules and products b ecome
In order to o
the warranty period and make suitable arrangements for the performance of service. Customer shall be responsible
for packaging and shipping the defective product to the service center designated by Tektronix, with shipping
charges prepaid. Tektronix shall pay for the return of the product to Customer if the shipment is to a location within
the country in which the Tektronix service center is located. Customer shall be responsible for paying all shipping
charges, duties, taxes, and any other charges for products returned to any other locations.
This warranty shall not apply to any defect, failure or damage caused by improper use or improper or inadequate
maintenance and care. Tektronix shall not be obligated to furnish service under this warranty a) to repair damage
result
b) to repair damage resulting from improper use or connection to incompatible equipment; c) to repair any damage
or malfunction caused by the use of non-Tektronix supplies; or d) to service a product that has been modified or
integrated with other products when the effect of such modification or integration increases the time or difficulty
of servicing the product.
THIS WARRANTY IS GIVEN BY TEKTRONIX WITH RESPECT TO THE PRODUCT IN LIEU OF ANY
OTHER WARRANTIES, EXPRESS OR IMPLIED. TEKTRONIX AND ITS VENDORS DISCLAIM ANY
IMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE.
TRONIX' RESPONSIBILITY TO REPAIR OR REPLACE DEFECTIVE PRODUCTS IS THE SOLE
TEK
AND EXCLUSIVE REMEDY PROVIDED TO THE CUSTOMER FOR BREACH OF THIS WARRANTY.
TEKTRONIX AND ITS VENDORS WILL NOT BE LIABLE FOR ANY INDIRECT, SPECIAL, INCIDENTAL,
OR CONSEQUENTIAL DAMAGES IRRESPECTIVE OF WHETHER TEKTRONIX OR THE VENDOR HAS
ADVANCE NOTICE OF THE POSSIBILITY OF SUCH DAMAGES.
[W2 – 15AUG04]
btain service under this warranty, Customer must notify Tektronix of the defect before the expiration of
ing from attempts by personnel other than Tektronix representatives to install, repair or service the product;
Table of Contents
General safety summary ........................ ................................ ................................ ... v
Preface ............................................................................................................. vii
Related Manuals ............ ................................ ................................ ................. vii
Specificati
Performance Verification . ................................ .................................. ...................... 51
ons ....................................................................................................... 1
Performance Conditions ...................................................................................... 1
Electrical Specifications...................... ................................ ................................ . 1
Electrical Functional Specifications ...................... ................................ .................. 28
Physical Characteristics ...................................................................................... 42
Safety........................................................................................................... 43
Certific
Environmental Characteristics .............................................................................. 43
Digital IQ Output Connector Pin Assignment (Option 55 Only).......................... .............. 45
Digital IQ Output Timing .................................................................................... 48
Prerequisites........... ................................ .................................. ...................... 51
Requ
Preliminary Checks................................. .................................. ........................ 53
Warranted Characteristics Tests ............................................................................. 55
Frequency Accuracy.......................................................................................... 55
Phase Noise (Instruments with Option 11)................................................................. 58
Phase Noise (Instruments without Option 11) ............................................................. 60
Am
Noise and Distortion.......................................................................................... 80
IF Flatness (Channel Response)....... ................................ ................................ ...... 88
Spurious Response.......................... ................................ ................................ .. 91
Test Record .............. ................................ .................................. .................... 99
ations and Compliances ............................................................................. 43
ired Equipment.......................................................................................... 51
plitude ..................................................................................................... 65
SPECMON3 and SPECMON6 Technical Reference i
Table of Contents
List of Figure
Figure 1: Digital IQ output connector pin assignment ........................................................ 45
Figure 2: IQ
Figure 3: Connections for Reference Frequency Output Accuracy check .................................. 55
Figure 4: Power meter setup . ................................ .................................. .................. 56
Figure 5: Power meter calibration ......................... ................................ ...................... 56
Figure 6: Equipment connections for Ref Out power level check ........................................... 57
Figure 7: Equipment connections for Ref In power level check . ................................ ............ 57
Figure 8:
Figure 9: Equipment connections for phase noise checks .................................................... 59
Figure 10: Equipment connections for phase noise checks ....................... ............................ 61
Figure 11: Equipment connections for RF Flatness check............ .................................. ...... 65
Figure 12: Equipment connections for Low Frequency (LF) input path accuracy check ................. 69
Figure 13: Equipment connections for RF Flatness (Frequency Response) 10 MHz to 6.2 GHz check. 72
e 14: Equipment connections for Low Frequency (LF) input path accuracy check ................. 76
Figur
Figure 15: Equipment connections for Third Order Intermodulation Distortion check .. . .. .. . .. . .. .. . .. . 80
Figure 16: Equipment connections for IF Flatness check..................................................... 88
Figure 17: Equipment connections for Image Suppression check ..... .................................. .... 93
Figure 18: Equipment connections for Signal Spurious check ............................................... 96
Timing............................................................................................... 49
Error message showing loss of lock to External Reference signal ................. .............. 58
s
ii SPECMON3 and SPECMON6 Technical Reference
List of Tables
Table 1: Frequency ................................................................................................. 1
Table 2: Phase noise................................................................................................ 2
Table 3: Integrated jitter .. .. . .. .. . .. . .. .. . .. .. . .. .. . .. .. . .. . .. .. . .. .. . .. .. . .. . .. .. . .. .. . .. .. . .. . .. .. . .. .. . .. .. . .. . . 3
Table 4: RF input ...................... .................................. ................................ ........... 3
Table 5: Maximum input level ............................. .................................. ..................... 4
Table 6: Input attenuator........................................................................................... 4
Table 7: Analog sweep.. ................................ ................................ ........................... 4
Table 8: Amplitude and RF flatness (exc
Table 9: Noise and distortion
Table 10: Channel Response – Amplitude & Phase Flatness (Standard/Option 40) .. .. . .. . .. .. . .. ... .. . .. . 9
Table 11: Channel Response – Amplitude & Phase Flatness (Option 110) ......................... ......... 9
Table 12: Channel response
Table 13: Pulse measurements, typical........................................................................... 9
Table 14: Impulse response ...................................................................................... 14
Table 15: Spurious response.......................................... ................................ ............ 14
Table 16: Spurious response with signal at center frequency (offset ≥ 400 kHz) .......................... 15
Table 17: Spurious response with signal at center frequency (10 kHz ≤ offset ≤ 400 kHz) .............. 15
Table 18: Spurious response with signal at other than CF .................................................... 16
Table 19: Acquisition . .. .. . .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. . .. .. .. . .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. . .. .. . .. .. . .. .. . .. . 16
Table 20: Amplitude vs. time .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . . 18
Table 21: Trigger .................................................................................................. 19
Table 22: Trigger (with Option 200) ............................................................................ 21
Table 23: Resolution bandwidth filter (SA mode) ........... ................................ .................. 25
Table 24: Range and settable RBW (SA mode).................. .................................. ............ 25
Table 25: Resolution bandwidth filter (time-domain mode).................................................. 26
Table 26: Range and settable RBW (time-domain mode) .................................................... 26
Table 27: Preamp (O
Table 28: Digital IQ output....................................................................................... 27
Table 29: 28 Volt noise source drive output .................................................................... 27
Table 30: Measurement function ................................................................................ 28
Table 31: Views by domain ...................................................................................... 31
Table 32: Analog demodulation accuracy .................... ................................ .................. 31
Table 33: General Purpose Analog modulation accuracy............... ................................ ...... 32
Table 34: General purpose digital modulation analysis (Option 21)......................................... 32
Table 35: Digital demodulation accuracy (Option 21) .................. ................................ ...... 33
Table 36: ACLR measurement........................... ................................ ........................ 34
Table 37: Digital phosphor spectrum processing (DPx) .......... ................................ ............ 34
Table 38: Frequency Settling Time Measurement (Option 1 2)
Table of Contents
luding mismatch error)
1
.................................................................................... 6
1
...................................................................................... 9
1
............................................ 5
ption 50) ................................................................................... 27
1
............................................. 38
SPECMON3 and SPECMON6 Technical Reference iii
Table of Contents
Table 39: AM/FM
/PM and Direct audio measurements (Option 10)
1
........................ .............. 38
Table 40: Adaptive equalizer..................................................................................... 40
Table 41: OBW measurement.............................. ................................ ...................... 40
Table 42: xdB Bandwidth Measurement........................................................................ 41
Table 43: Settled Phase Uncertainty (Option 12)
1
............................................................. 41
Table 44: File Saving Speeds .................................................................................... 41
Table 45: Da
ta Transfer/Measurement Speeds ............................... .................................. 41
Table 46: Physical characteristics ....................... .................................. ...................... 42
Table 47: Display/computer .......................... .................................. .......................... 42
Table 48: Environmental characteristics ........................................................................ 43
Table 49: Power requirements ..... .................................. ................................ ............ 44
Table 50: I OUTPUT connector pin assignment ....................... ................................ ........ 45
Table 5 1
: Q OUTPUT connector pin assignment.............................................................. 46
Table 52: Mating connections................................ ................................ .................... 48
Table 53: EXT_IQ_DAV Duty cycle versus Span........................... ................................ .. 48
Table 54: IQ Timing............................................................................................... 49
Table 55: Equipment required for Performance Verification ......... .................................. ...... 51
Table 56: Phase noise offsets (Low range; without Option 11) .......................... .................... 62
e 57: RF Flatness (Preamp OFF) ........................................................................... 66
Tabl
Table 58: Low Frequency Input Path Flatness (Preamp OFF) ............................................... 70
Table 59: RF Flatness (Option 50 Preamp ON) ................................ ................................ 73
Table 60: Low Frequency Input Path Flatness (Preamp ON)................................................. 77
Table 61: Frequencies of interest for DANL (LF Path) ....................................................... 83
Table 62: Frequencies of interest for DANL (RF Path) ....................................................... 84
ble 63: Frequencies of interest for DANL LF Path check (Option 50) ................................... 86
Ta
Table 64: Frequencies of interest for DANL check (Option 50) ............. ................................ 88
Table 65: IF Flatness ................................ ................................ .............................. 90
Table 66: Residual Response Center Frequencies ......................... .................................. .. 92
Table 67: Image Suppression Settings . . .. .. . .. .. . .. .. . .. .. . .. .. . .. . .. .. . . . .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. 95
Table 68: Center Frequencies for Half-IF. .. .. . .. .. . .. .. . .. . .. .. . .. .. . .. . .. .. . .. .. . .. . .. .. . .. .. . .. .. . .. . .. .. . .. . 98
iv SPECMON3 and SPECMON6 Technical Reference
General safety summary
General safet
To avoid fire or personal
injury
y summary
Review the fo
this product or any products connected to it.
To avoid pot
Only qualified personnel should perform service procedures.
While using this product, you may need to access other parts of a larger system.
Read the safety sections of the other component manuals for warnings and
cautions r
Use proper power cord. Use only the power cord specified for this product and
certified for the country of use.
Ground the product. This product is grounded through the grounding conductor
of the power cord. To avoid electric shock, the grounding conductor must be
connected to earth ground. Before making connections to the input or output
terminals o f the product, ensure that the product is properly grounded.
Observe all terminal ratings. To avoid fire or shock hazard, observe all ratings
and markings on the product. Consult the product manual for further ratings
information before making connections to the product.
llowing safety precautions to avoid injury and prevent damage to
ential hazards, u se this product only as specified.
elated to operating the system.
The inputs are not rated for connection to mains or Category II, III, or IV circuits.
Power disconnect. The power cord disconnects the product from the power source.
Do not block the power cord; it must remain accessible to the user at all times.
Do not operate without covers. Do not operate this product with covers or panels
removed.
Do not operate with suspected failures. If you suspect that there is damage to this
product, have it inspected by qualified service personnel.
Avoid exposed circuitry. Do not touch exposed connections and components when
power is present.
Replace batteries properly. Replace batteries only with the specified type and
rating.
Use proper fuse. Use only the fuse type and rating specified for this product.
Wear eye protection. Wear eye protection if exposure to high-intensity rays or
laser radiation exists.
SPECMON3 and SPECMON6 Technical Reference v
General safety summary
Termsinthismanual
Symbols and terms on the
product
Do not operate i
Do not operate in an explosive atmosphere.
Keep product surfaces clean and dry.
Provide prop
on installing the product so it h as proper ventilation.
These terms may appear in this manual:
WARNING.
in injury or loss of life.
CAUTION
damage to this product or other property.
These t
erms may appear on the product:
DANGER indicates an injury hazard immediately accessible as you read
the ma
n wet/damp conditions.
er ventilation. Refer to the manual's installation instructions for details
Warning statements identify conditions or practices that could result
. Caution statements identify conditions or practices that could result in
rking.
WARNING indicates an injury hazard not immediately accessible as you
the marking.
read
CAUTION indicates a hazard to property including the product.
The following symbol(s) may appear on the product:
vi SPECMON3 and SPECMON6 Technical Reference
Preface
Related Manuals
This document contains the Specifications and the Performance Verification for
the SPECMON3 and SPECMON6 Real Time Spectrum Analyzers. It contains
procedures s
properly, and meets the performance characteristics as warranted.
The following documents relate to the operation or service of the analyzer:
uitable for determining that the analyzer functions, is adjusted
The SPECM
Spectrum Analyzer Quick Start User Manual describes how to use your
analyzer.
The SPECMON3 Real-Time Spectrum Analyzers and SPECMON6 Real-Time
Spectrum Analyzers Application Examples Manual, provides tutorial
examples of how to take measurements in different application areas.
The SPECMON3 Real-Time Spectrum Analyzers and SPECMON6 Real-Time
Spectrum Analyzers Programmers Manual describes how to use a computer
to control the analyzer through the GPIB interface.
The SPECMON3 and SPECMON6 Service Manual provides information for
maintaining and servicing your analyzer to the module level.
ON3 Real-Time Spectrum Analyzes and SPECMON6 Real-Time
SPECMON3 and SPECMON6 Technical Reference vii
Preface
viii SPECMON3 and SPECMON6 Technical Reference
Specifications
This section lists the SPECMON3 and SPECMON6 Real-Time Spectrum
Analyzer specifications. Items listed in the Performance Requirement column
are generall
procedure or are guaranteed by design. Items listed in the Reference Information
column are useful operating parameters that have typical values; information in
this column is not guaranteed.
NOTE. In these tables, characteristics which are warranted are indicated by a
symbol in the Characteristics column.
Performance Conditions
The performance limits in these specifications are valid with these conditions:
y quantitative, and are either tested by the Performance Verification
The spe
ctrum analyzer must have been calibrated and adjusted at an ambient
temperature between +18 °C and +28 °C.
The spe
ctrum analyzer must be in an environment with temperature, altitude,
humidity, and vibration within the operating limits described in these
specifications.
The spectrum analyzer must have had a warm-up period of at least 20 minutes
after starting the analyzer application.
Electrical Specifications
Table 1: Frequency
Characteristic Description
Measurement frequency
Frequency
range, nominal
Frequency
Marker
Residual FM, typical
Span Accuracy ±0.3% of s pan (Auto mode)
SPECMON3 (RF band) 9 kHz to 3 GHz
SPECMON6 (RF band) 9 kHz to 6.2 GHz
Readout Accuracy
Readout Resolution
±(RE × MF + 0.001 × Span + 2 ) Hz
RE: Reference Frequency Error
MF: Marker Frequency [Hz]
Reference level dependent
As small as 0.0001 µV
<2 Hz
Freq vs Time mode, Autoscale (95% confidence)
in 1 second at 200 MHz CF, 100 Hz span,
p-p
SPECMON3 and SPECMON6 Technical Reference 1
Specifications
Table 1: Frequency (cont.)
Characteristic Description
Reference Frequency
–8
Stability, nominal
Adjustment Range ±5.5 x 10
Initial Accuracy at Cal
Aging
Per day
Long term
Cumulative Error, typical
ature + Aging)
Internal or External
ature drift
Temper
nce
Refere
Output Level
(Temper
Internal or External, typical +4 dBm
External Reference Input, nominal BNC Connector, 50 Ω
External Reference Input Frequency, nominal 10 MHz ±30 Hz (3 ppm)
External Reference Input Range
External Reference Input Level
2x10
–7
Within 1 x 10
–9
±1 x 10
±3 x 10
4x10
1x10
(after 30 days of operation)
–7
–7
(10 years)
–7
(10°Cto40°C)
>0 dBm
Spurious level on input signal must be <–80 dBc within
100 kHz offset to avoid on-screen spurious
–7
±3 x 10
–10 dBm to +6 dBm
–7
(after a 10 min warmup)
(10 years)
Table 2: P hase noise
Characteristic Description
Specified
Frequency =
1000 MHz
Typical
Frequency =
1000 MHz
Noise sideband
–103 dBc/Hz
09 dBc/Hz
–1
–112 dBc/Hz
–130 dBc/Hz
137 dBc/Hz
–
–137 dBc/Hz
–107 dBc/Hz
–113 dBc/Hz
–116 dBc/Hz
–139 dBc/Hz
–144 dBc/Hz
–144 dBc/Hz
Offset
1kHz
10 kHz
0kHz
10
1MHz
6MHz
0MHz
1
1kHz
10 kHz
100 kHz
1MHz
6MHz
10 MHz
2 SPECMON3 and SPECMON6 Technical Reference
Table 2: Phase noise (cont.)
Characteristic Description
Frequency =
2000 MHz
Frequency =
6000 MHz
Frequency =
10 MHz (LF
band)
–107 dBc/Hz
–112 dBc/Hz
–115 dBc/Hz
–137 dBc/Hz
–142 dBc/Hz
–142 dBc/Hz
–104 dBc/Hz
–109 dBc/Hz
–114 dBc/Hz
–132 dBc/Hz
–141 dBc/Hz
–141 dBc/Hz
–128 dBc/Hz
–134 dBc/Hz
–134 dBc/Hz
–135 dBc/Hz
–140 dBc/Hz
Specifications
1kHz
10 kHz
100 kHz
1MHz
6MHz
10 MHz
1kHz
10 kHz
100 kHz
1MHz
6MHz
10 MHz
1kHz
10 kHz
100 kHz
1MHz
6MHz
Table 3: Integrated jitter
Characteristic Description
Integrated Phase (100 Hz to 100 MHz),
typical
2.51e-3 radians at 100 MHz
3.14e-3 radians at 1 GHz
3.77e-3 radians at 2 GHz
6.28e-3 radians at 5 GHz
Table 4: RF input
Characteristic Description
RF Input Connector, nominal
RF Input Impedance, nominal
RF VSWR, typical
95% confidence
Preamp OFF
10 kHz to 10 MHz <1.6
>10 MHz to 2 GHz
>2GHzto5GHz
>5 GHz to 6.2 GHz
Ntype
50 Ω
Center Frequency set to within 200 MHz of any V
frequency at time of test.
RF ATT = 10 dB
<1.12
<1.3
<1.45
SWR test
SPECMON3 and SPECMON6 Technical Reference 3
Specifications
Table 4: RF input (cont.)
Characteristic Description
Preamp ON (Option 50)
10kHzto10MHz <1.6
>10 MHz to 3 GHz
>3 GHz to 6.2 GHz
<1.3
<1.45
Table 5: M
Characteristic Description
Maximum DC voltage ±5 V (RF Input)
Maximum safe input power +30 dBm (RF Input, RF ATT ≥10 dB, P reamp Off)
Maxim
power
aximum input level
um Measureable input
+20 dBm (RF Input, RF ATT ≥10 dB, P reamp On)
+50 Wat
Pulses)
+ 30 dBm (RF Input, RF ATT Auto)
+ 10 Watts peak (RF Input, RF ATT Auto), (<10 μs Pulse Width, 1% Duty Cycle repetitive
puls
ts peak (RF Input, RF ATT ≥30 dB (<10 µs Pulse Width, 1% Duty Cycle repetitive
es)
Table 6: Input attenuator
Characteristic Description
RF Attenuator (DC to 6.2 GHz) 0 dB to 55 dB (5 dB step), nominal
Table 7: Analog sweep
Characteristic Description Reference info
Sweep Time, typical 1500 MHz/second tuning rate (standard)
500 MHz/second tuning rate (Option 40)
2
6000 MHz/second tuning rate (Option 110)
RBW set to Auto; RF & IF
ptimization set to Minimize
O
Sweep Time
4 SPECMON3 and SPECMON6 Technical Reference
Specifications
Table 8: Amplit
Characteristic Description
Reference level setting range, nominal –170 dBm to +40 dBm, 0.1 dB step, (Standard RF
Frequency response (18 °C to 28 °C)
ncy response (5 °C to 40 °C), typical
Freque
Input attenuator switching uncertainty ±0.3 dB
ude and RF flatness (excluding mismatch error)
10 dB RF
attenuator
setting, Preamp
OFF
10 dB RF
attenuator
setting, Preamp
ON (Option 50)
settings, Preamp
pical
OFF, ty
All RF attenuator
ngs, Preamp
setti
OFF
enuator =
Att
10 dB, Preamp
ON (Option 50)
10 MHz to 32 MHz, LF B and ±0.2 dB
10 MHz to 3 GHz
3GHzto6.2GHz
(SPECMON6 only)
10 MHz to 32 MHz, LF B and ±0.5 dB
10 MHz to 3 GHz
3GHzto6.2GHz
(SPECMON6 only)
9 kHz to 10 MHz ±0.7 dBAll RF attenuator
1 Hz to 10 MHz (LF Band)
32 MHz (LF Band)
1Hzto
o3GHz
9kHzt
to 6.2 GHz
3GHz
(SPECMON6 only)
32 MHz (LF Band)
9kHzto3GHz
3GHzto6.2GHz
(SPECMON6 only)
1
input)
±0.35 dB
±0.5 dB
±0.5 dB
±0.7 dB
±0.7 dB
±0.8 dB
±0.5 dB
±1.0 dB
8dB
±0.
8dB
±0.
.3 dB
±1
SPECMON3 and SPECMON6 Technical Reference 5
Specifications
Table 8: Amplitude and RF flatness (excluding mismatch error)1(cont.)
Characteristic Description
Absolute amp
Absolute am
litude accuracy at calibration point (RF)
plitude accuracy at all center frequencies (18 °C to 28 °C)
10 MHz to 3 G
3GHzto6.2
Hz
GHz (SPECMON6 only)
2
Level Linearity
1
All amplitude and frequency response measurements made with Preamp OFF, except where noted, and Flattop window filter used to maximize CW amplitude
measurement accuracy.
2
Reference Level ≤ –15 dBm, –15 dBm to –50 dBm. 10 Hz ≤ RBW ≤ 1 MHz, after alignment performed.
±0.31 dB
, 95% confidence
±0.3 dB
±0.5 dB
±0.1 dB (0
dB to –70 dB Below Reference Level)
Table 9:
Noise a nd distortion
1
Characteristic Description
1 dB Compression Input2,
3
2GHz
+7 dBm
RF Attenuation = 0 dB
1 dB Compression Input,
2,3
al
typic
300 MHz to 6.2 GHz
+7 dBm
RF Attenuation = 0 dB
m
1 dB Compression Input,
Preamp ON, typical
tenuation = 0 dB
RF At
Order IM Intercept (TOI)
3rd
Order IM Intercept (TOI),
3rd
2,3
typical
300 MHz to 6.2 GHz
.130 GHz
At 2
.130 GHz
At 2
10 kHz to 32 MHz, LF Band +12.5 dBm
-10 dB
+16 dBm
+17 dBm
9 kHz to 80 MHz +11 dBm
MHz to 300 MHz
80
00MHzto3GHz
3
GHz to 6.2 GHz
3
3 dBm
+1
+17 dBm
+17 dBm
(SPECMON6 only)
3rd Order IM Intercept (TOI),
preamp ON, typical
At 2.130 GHz
10 kHz to 32 MHz, LF Band –10 dBm
–5 dBm
9 kHz to 80 MHz –10 dBm
3GHzto6.2GHz
–5 dBm
(SPECMON6 only)
6 SPECMON3 and SPECMON6 Technical Reference
Table 9: Noise and distortion1(cont.)
Characteristic Description
3rd Order Intermodulation Distortion
3rd Order Intermodulation Distortion, preamp On, typical
2ndHarmonic Distortion, typical. Preamp OFF
2ndHarmonic Distortion Preamp ON, typical
2ndHarmonic Distortion Intercept (SHI), typical
2ndHarmonic Distortion Intercept (SHI) Preamp ON, typical
4
Specified
At 2.130 GHz
–82 dBc
Each signal level -25 dBm at the RF input. 1 MHz tone separation. Attenuator =
0, Ref Level = –20 dBm.
Typical
10 kHz to
< –75 dBc
32 MHz (LF
Band)
9kHzto
< –72 dBc
80 MHz
80 MHz to
< –76 dBc
300 MHz
300 MHz to
< –84 dBc
3GHz
3GHzto
< –84 dBc
6.2 GHz
(SPECMON6 only)
Each signal level –25 dBm at the RF input. 1 MHz tone separation. Attenuator = 0, Ref Level =
–20 dBm.
5
1 MHz to 80 MHz < –70 dBc
80 MHz to 300 MHz < –70 dBc
300 MHz to 3 GHz
3 GHz to 6.2 GHz (SPECMON6
< –80 dBc
< –80 dBc
only)
10 MHz to 500 MHz < –80 dBc
500 MHz to 1 GHz
1GHzto3.1GHz
10 MHz to 13.25 GHz
< –80 dBc
< –83 dBc
< –55 dBc
10 MHz to 500 MHz +45 dBm
500 MHz to 1 GHz
1GHzto3.1GHz
3.1 GHz to 7.5 GHz
7.5 GHz to 13.25 GHz
10 MHz to 13.25 GHz
+34 dBm
+34 dBm
+45 dBm
+45 dBm
+10 dBm
Specifications
SPECMON3 and SPECMON6 Technical Reference 7
Specifications
Table 9: Noise and distortion1(cont.)
Characteristic Description
Displayed Average Noise Level (DANL) Normalized to 1 Hz RBW with log-average detector
Preamp OFF (Minimum noise
Specificati
on
mode)
1Hzto100Hz,
––
LF Band
100 Hz to
–124 dBm/Hz –130 dBm/Hz
4 kHz, LF Band
4kHzto
–141 dBm/Hz –143 dBm/Hz
10 kHz, LF
Band
10 kHz to
–150 dBm/Hz –153 dBm/Hz
32 MHz, LF
Band
9kHzto1MHz
1MHzto
–108 dBm/Hz –111 dBm/Hz
–136 dBm/Hz –139 dBm/Hz
10 MHz
10 MHz to
–154 dBm/Hz –157 dBm/Hz
2GHz
2 GHz to 3 GHz –153 dBm /Hz –156 dBm /Hz
3GHzto4GHz
–151 dBm /Hz –154 dBm /Hz
(SPECMON6
only)
4GHzto
–149 dBm /Hz –152 dBm /Hz
6.2 GHz
(SPECMON6
only)
Preamp ON (option 50 only)
1MHzto
Specification
–158 dBm/Hz –160 dBm/Hz
32 MHz, LF
and
B
1MHzto
0MHz
1
10 MHz to
158 dBm/Hz
–
–164 dBm/Hz –167 dBm/Hz
2GHz
2 GHz to 3 GHz –163 dBm/Hz –165 dBm/Hz
3GHzto
–161 dBm/Hz –164 dBm/Hz
6.2 GHz
(SPECMON6
only)
1
All noise and distortion measurements are made with Preamp OFF except where noted.
2
Maximize Dynamic Range, “RF & IF Optimization” Mode, Span: 5 MHz.
3
The 1 dB compression point for the RF conversion system can not be measured from outside the instrument, nor can signals get near it in operation. This is
because the A/D converter will clip before the 1 dB compression is reached
Typical
–129 dBm/Hz
Typical
160 dBm/Hz
–
8 SPECMON3 and SPECMON6 Technical Reference
Specifications
4
Each signal lev
5
Each signal level –45 dBm at the RF input. 1 MHz tone separation. Attenuator = 0, Ref Level = –40 dBm.
el –25 dBm at the RF input. 1 MHz tone separation. Attenuator = 0, Ref Level = –20 dBm.
Table 10: Channel Response – Amplitude & Phase Flatness (Standard/Option 40)
Frequency range Span Amplitude flatness Phase flatness
Typical, RMS Typical, RMS
±0.1°
±0.5°
±1.0°
0.01 GHz to 6.2 GHz
≤300 kHz ±0.10 dB ±0.05 dB
0.03 GHz to 6.2 GHz ≤25/40 MHz
0.001 GHz to 0.032 GHz
≤20 MHz ±0.50 dB ±0.40 dB
Specification
±0.30 dB ±0.20 dB
(LF path only)
Table 11: Channel R esponse – Amplitude & Phase Flatness (Option 110)
Frequenc
yrange
Span Amplitud
Specification
0.07 GHz to 6.2 GHz
Table 12: Channel response
teristic
Charac
Amplitude Flatness
Phase Linearity, typical
1
The BW value used in this table is the bandwidth of the channel. RF Attenuator = 10 dB. Use Flattop Window for maximum CW amplitude verification accuracy.
2
After calibration and normalization, CF=200 MHz.
≤110 MHz ±0.50 dB ±0.40 dB
1
BW ≤ 300 kHz
300 kHz < BW ≤ 10 MHz
10 MHz < BW ≤ 25/40 MHz
40 MHz
BW ≤300 kHz
300 kHz < BW ≤ 10 MHz
Hz < BW ≤ 25/40 MHz
10 M
40 MHz < BW ≤ 110 MHz
2
<BW≤ 110 MHz
2
2
2
2
2
2
2
e flatness
Descri
±0.1 dB
±0.2 dB
±0.4 d
±0.5 d
°
±0.1
2°
±0.
75°
±0.
.0°
±2
Typ ical
ption
B
B
,RMS
Phase flat
,RMS
Typical
±1.5°
ness
Table 13: Pulse measurements, typical
Characteristic Description
Minimum Pulse Width for detection,
110 MHz BW
50 ns 150 ns
25/40 MHz BW
typical
Average ON Power
(18°Cto28°C),typical
±0.3 dB + absolute Amplitude Accuracy
For pulse widths ≥100 ns, duty
cycles of 0.5 to 0.001, and S/N
For pulse widths ≥300 ns, and signal levels >70 dB
below Ref Level
ratio = 30 dB
SPECMON3 and SPECMON6 Technical Reference 9
Specifications
Table 13: Pulse measurements, typical (cont.)
Characteristic Description
Duty Factor, typical
Pulse Width, typical
System Rise time, typical
Pulse-to-Pulse carrier phase,
12
typical
2 GHz ±0.72° ±0.35°
2 GHz ±0.7° ±0.3°
Pulse-to-Pulse carrier phase,
34
typical
2 GHz ±0.5° ±0.3°
2 GHz ±0.5° ±0.3°
Pulse-to-Pulse carrier frequency,
56
typical
2GHz
2GHz
Pulse-to-Pulse carrier frequency,
78
typical
2GHz
2GHz
±3% of reading
For pulse widths ≥150 ns, duty
cycles of 0.5 to 0.001, and S/N
ratio ≥ 30 dB
±0.4 dB + absolute Amplitude AccuracyAverage Transmitted Power, typical
For pulse widths ≥100 ns, duty
cycles of 0.5 to 0.001, and S/N
ratio ≥ 30 dB
±0.4 dB + absolute Amplitude AccuracyPeak Pulse Power, typical
For pulse widths ≥100 ns, duty
cycles of 0.5 to 0.001, and S/N
ratio ≥ 30 dB
±3% of reading
For pulse widths ≥150 ns, duty
cycles of 0.5 to 0.001, and signal
levels >50 dB below Ref Level
<12 ns <40 ns
110 MHz BW 25 MHz BW
60 MHz BW 20 MHz BW
110 MHz BW 25 MHz BW
60 MHz BW 20 MHz BW
110 MHz BW 20 MHz BW
±225 kHz ±13kHz
60 MHz BW
±80 kHz
110 MHz BW 20 MHz BW
±200 kHz ±12 kHz
60 MHz BW
±130 kHz
For pulse widths ≥450 ns, duty cycles of 0.5 to 0.001,
and S/N ratio ≥ 30 dB
For pulse widths ≥300 ns, duty cycles of 0.5 to 0.001,
and S/N ratio ≥ 30 dB
For pulse widths ≥300 ns, duty cycles of 0.5 to 0.001,
and S/N ratio ≥ 30 dB
For pulse widths ≥450 ns, duty cycles of 0.5 to 0.001,
and S/N ratio ≥ 30 dB
10 SPECMON3 and SPECMON6 Technical Reference
Specifications
Table 13: Pulse measurements, typical (cont.)
Characteristic Description
Pulse frequency linearity (Absolute
frequency error RMS), typical
910
2GHz
2GHz
Chirp frequency linearity ( Absolute
frequency error RMS), typical
11 12
2GHz
2GHz
1
For 60 MHz / 110 MHz bandwidths, and conditions of:
Pulse ON power ≥–20 dBm
Frequency Estimation = Manual
CW (non-chirped) pulses
Signal peak at Ref Lvl.
Atten = Auto
Pulse width ≥ 200 ns.
PRI ≤300 us.
Duty cycle ≥ 0.0007
t
meas–treference
Phase measurement includes 100 pulses minimum.
Measured pulses to be adjacent.
Measurement time position excludes the beginning and ending of the pulse extending for a time = (10/measurement Bandwidth) as measured from the
50% point of the Tr or Tf.
2
For 20 MHz / 25 MHz bandwidths, and conditions of:
Pulse ON power ≥–20 dBm
Frequency Estimation = Manual
CW (non-chirped) pulses
Signal peak at Ref Lvl.
Atten = Auto
Pulse width ≥ 300 ns.
PRI ≤300 us.
Duty cycle ≥ 0.001
t
meas–treference
Phase measurement includes 100 pulses minimum.
Measured pulses to be adjacent.
Measurement time position excludes the beginning and ending of the pulse extending for a time = (10/measurement Bandwidth) as measured from the
50% point of the Tr or Tf.
3
For 110 MHz / 60 MHz bandwidths, and conditions of:
Linear Chirped pulses
For signal type: Linear chirp, Peak to peak chirp deviation: ≤ (0.8 x Measurement bandwidth)
Frequency Estimation = Manual
Pulse ON power ≥–20 dBm
Signal peak at Ref Lvl.
Atten=0dB
Pulse width ≥ 100 ns.
PRI ≤300 us.
≨ 10 ms
≤ 10 ms
110 MHz BW 20 MHz BW
±65 kHz ±7 kHz
60 MHz BW 25 MHz
±26kHz ±10kHz
110 MHz BW 25 MHz BW
±50 kHz ±6 kHz
60 MHz BW 20 MHz BW
±30 kHz ±5 kHz
SPECMON3 and SPECMON6 Technical Reference 11
Specifications
Duty cycle ≥ 0.0
t
meas–treference
003
≤ 10 ms
Measurement time position excludes the beginning and ending of the pulse extending for a time = (10/measurement Bandwidth) as measured from the
50% point of the Tr or Tf.
4
For 25 MHz / 20 MHz bandwidths, and conditions of:
Linear Chirped pulses
For signal type: Linear chirp, Peak to peak chirp deviation: ≤ (0.8 x Measurement bandwidth)
Frequency Estimation = Manual
Pulse ON power ≥–20 dBm
Signal peak at Ref Lvl.
Atten=0dB
Pulse width ≥ 300 ns.
PRI ≤1000 us.
Duty cycle ≥ 0.0003
t
meas–treference
≤ 10 ms
Measurement time position excludes the beginning and ending of the pulse extending for a time = (10/measurement Bandwidth) as measured from the
50% point of the Tr or Tf.
5
For 110 MHz / 60 MHz bandwidths, and conditions of:
CW (non-chirped) pulses
Frequency Estimation = Manual
Pulse ON power ≥–20 dBm
Signal peak at Ref Lvl.
Atten=0dB
Pulse width ≥ 200 ns.
PRI ≤300 us.
Duty cycle ≥ 0.0007
t
meas–treference
≤ 10 ms
Measurement time position excludes the beginning and ending of the pulse extending for a time = (10/Measurement Bandwidth) as measured from the
50% point of the Tr or Tf.
6
For 20 MHz bandwidth, and conditions of:
CW (non-chirped) pulses
Frequency Estimation = Manual
Pulse ON power ≥–20 dBm
Signal peak at Ref Lvl.
Atten=0dB
Pulse width ≥ 300 ns.
PRI ≤300 us.
Duty cycle ≥ 0.001
t
meas–treference
≤ 10 ms
Measurement time position excludes the beginning and ending of the pulse extending for a time = (10/Measurement Bandwidth) as measured from the
50% point of the Tr or Tf.
7
Hz bandwidth, and conditions of:
For 20 M
Linear chirped pulses
For signal type: Linear chirp, Peak to peak chirp deviation: ≤ (0.8 x Measurement bandwidth)
Frequency Estimation = Manual
Pulse ON power ≥–20 dBm
Signal peak at Ref Lvl.
Atten=0dB
Pulse width ≥ 100 ns.
PRI ≤300 us.
Duty cycle ≥ 0.0003
t
meas–treference
≤ 10 ms
Measurement time position excludes the beginning and ending of the pulse extending for a time = (10/Measurement Bandwidth) as measured from the
50% point of the Tr or Tf.
12 SPECMON3 and SPECMON6 Technical Reference
Specifications
8
For 20 MHz bandw
idth, and conditions of:
Linear chirped pulses
For signal type: Linear chirp, Peak to peak chirp deviation: ≤ (0.8 x Measurement bandwidth)
Frequency Estimation = Manual
Pulse ON power ≥–20 dBm
Signal peak at Ref Lvl.
Atten=0dB
Pulse width ≥ 300 ns.
PRI ≤1000 us.
Duty cycle ≥ 0.0003
t
meas–treference
≤ 10 ms
Measurement time position excludes the beginning and ending of the pulse extending for a time = (10/Measurement Bandwidth) as measured from the
50% point of the Tr or Tf.
9
For 60 MHz / 110 MHz bandwidth, and conditions of:
CW (non-chirped) pulses
Frequency Estimatio
n = Manual
Pulse ON power ≥–20 dBm
Signal peak at Ref Lvl.
Atten=0dB
Pulse width ≥ 200 ns.
PRI ≤300 us.
Duty cycle ≥ 0.0007
Absolute frequency error determined over center 50% of pulse.
10
For 20/25 MHz bandwidth, and conditions of:
CW (non-chirped) pulses
Frequency Estimation = Manual
Pulse ON power ≥–20 dBm
Signal peak at Ref Lvl.
Atten=0dB
Pulse width ≥ 300 ns.
PRI ≤ 300 us.
Duty cycle ≥ 0.001
te frequency error determined over center 50% of pulse
Absolu
11
For 60 MHz / 110 MHz bandwidth, and conditions of:
Linear chirped pulses
For signal type: Linear chirp, Peak to peak chirp deviation: ≤ (0.8 x Measurement bandwidth)
Frequency Estimation = Manual
Pulse ON power ≥–20 dBm
Signal peak at Ref Lvl.
Atten=0dB
Pulse width ≥ 100 ns.
PRI ≤300 us.
Duty cycle ≥ 0.0003
t
meas–treference
≤ 10 ms
Absolute Frequency Error determined over center 50% of pulse.
12
For 20/25 MHz bandwidth, and conditions of:
Linear chirped pulses
For signal type: Linear chirp, Peak to peak chirp deviation: ≤ (0.8 x Measurement bandwidth)
Frequency Estimation = Manual
Pulse ON power ≥–20 dBm
Signal peak at Ref Lvl.
Atten=0dB
Pulse width ≥ 300 ns.
SPECMON3 and SPECMON6 Technical Reference 13
Specifications
PRI ≤1000 us.
Duty cycle ≥ 0.0003
t
meas–treference
Absolute Frequency Error determined over center 50% of pulse.
≤ 10 ms
Table 14: Impulse response
Characteristic Description
15 to 40 dBImpulse Response Measurement Range
(nominal)
Impulse Response Measurement
Accuracy (typical)
Impulse Response Weighting Taylor Window
1
Chirp width 100 MHz, pulse width 10 μs, minimum signal delay 1% of pulse width or 10/(chirp bandwidth), whichever is greater, and minimum 2000 sample
points during pulse on-time.
Across the width of the chirp
±2 dB
1
For a signal 40 dB in amplitude and delayed 1% to 40% of the chirp width
Table 15: Spurious response
Characteristic Description
Residual Response (Atten =
0 dB, Ref = –30 dBm, RBW
= 1 kHz)
200 MHz to 3 GHz
3GHzto6.2GHz
(SPECMON6 only)
500kHzto32MHz,LF
Band
500 kHz to 80 MHz, RF
band
80 MHz to 200 MHz, RF
band
Residual DC Offset after Normalization (LF Path), typical <-40 dBm (Ref level ≤ 0dBm)
Spurious Response with Signal (Image Suppression)
Spurious Response with
Signal at Center Frequency
CF = 1 MHz to
6.2 GHz, offset ≥ 400 kHz
CF = 1 MHz to
6.2 GHz, offset ≤ 400 kHz
Spurious Response with
300 MHz to 6.2 GHz (See Table 18.)
Signal at Frequency other
than Center Frequency
<–95 dBm
<–95 dBm
<–100 dBm, typical
–75 dBm, typical
–95 dBm, typical
<-40 dBm from Ref level (Ref level > 0 dBm)
<–75 dBc (100 Hz to < 30 MHz, Ref= –30 dBm, Atten = 10 dB, RF
Input Level = –30 dBm, RBW = 10 Hz)
<–83 dBc (30 MHz to 3 G Hz, Ref= –30 dBm, Atten = 10 dB, RF Input
Level = –30 dBm, R BW = 10 Hz)
<–70 dBc (3 GHz to 6.2 GHz, Ref= –30 dBm, Atten = 10 dB, RF Input
Level = –30 dBm, RBW = 10 Hz) (SPECMON6 only)
(See Table 16.)
(See Table 17.)
14 SPECMON3 and SPECMON6 Technical Reference
Table 15: Spurious response (cont.)
Characteristic Description
Spurious Res
(SPECMON6)
ponse with Signal at 3.5125 GHz - Half-IF
<–80 dBc (CF 30 MHz to 3 GHz, Ref = –30 dBm, Atten = 10 dB,
RBW = 1 kHz)
Signal frequency range = 3.5125 GHz, RF input level = –30 dBm
This is an input signal at half the IF frequency.
Spurious R
esponse with Signal at 3.5125 GHz - Half
IF (SPECMON6)
<–80 dBc (CF 30 MHz to 6.2 GHz, Ref = –30 dBm, Atten = 10 dB,
RBW = 1 kHz)
Signal frequency range = 3.5125 GHz, RF input level = –30 dBm
This is an input signal at half the IF frequency.
Local Oscillator Feed-through to Input Connector (Spurious
<–60 dBm (Attenuator = 10 dB)
Leakage), typical
Table 16: Spurious response with signal at center frequency (offset ≥ 400 kHz)
Span ≤ 2
5MHz,
Swept Spans > 25 M Hz
ion 40/110
For Opt
25 MHz < Span ≤ 110 MHz
Frequency Specification Typical Specification Typical
1MHzt
o
–71 dB
c
–75 dB
c
–– ––
32 MHz (LF
band)
30 MHz to
–73 dBc –78 dBc –73 dBc –75 dBc
3GHz
3GHzto
GHz
6.2
–73 dBc –78 dBc –73 dBc –75 dBc
(SPECMON6
only)
1
Center frequency ≥ 90 MHz for Options 40/110.
1
Specifications
Table 17: Spurious response with signal at center frequency (10 kHz ≤ offset ≤ 400 kHz)
Span ≤ 25 MHz,
ept Spans > 25 MHz
Sw
requency
F
1MHzto
2MHz(LF
3
pecification
S
––
band)
30 MHz to
––
3GHz
3GHzto
––
6.2 GHz
(SPECMON6
only)
1
1 Center frequency ≥ 90 MHz for Options 40/110.
ypical
T
–71 dBc
–73 dBc
–73 dBc
For Option 40/110
MHz < Span ≤ 110 MHz
25
pecification
S
–– ––
––
––
1
ypical
T
–73 dBc
–73 dBc
SPECMON3 and SPECMON6 Technical Reference 15
Specifications
Table 18: Spuri
ous response with signal at other than CF
Span ≤ 25 MHz,
SweptSpans>25MHz
For Option 40/110
1
25 MHz < Span ≤ 110 MHz
Frequency Specification Typical Specification Typical
1MHzto
––
–71 dBc
–– ––
32 MHz (LF
band)
30 MHz to
––
–73 dBc
––
–73 dBc
3GHz
3GHzto
––
–73 dBc
––
–73 dBc
6.2 GHz
(SPECMON6
only)
1
1 Center frequency ≥ 90 MHz for Options 40/110.
Table 19: Acquisition
Charact
Real-ti
nominal
eristic
me Capture Bandwidth,
Descrip
25 MHz (R
40 MHz (RF, Option 40 Version)
110 MHz (RF, Option 110 Version)
Demodulation Bandwidth
25 MHz (RF, Standard Version)
40 MHz
110 MHz (RF, Option 110 Version)
A/D Converter, nominal 14 bits, 100 Ms/s (Standard Version)
14 bits, 100 Ms/s & 14 bits, 300 Ms/s (Option 40 and Option 110)
tion
F, Standard Version)
(RF, Option 40 Version)
16 SPECMON3 and SPECMON6 Technical Reference
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