Agilent Technologies Webcam 89600 User Manual

Agilent  
Acqiris Broadband High-Speed Digitizers  
Using 89600 Vector Signal Analyzer Software  
Application Note  
Vector signal analysis using  
Agilent Acqiris broadband digitizers.  
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This product note describes the characteristics, setup, and operation of a broadband  
vector signal analyzer (VSA) comprised of an Agilent Acqiris U1066A (DC440, DC438)  
or U1065A (DC282, DC252, DC222) high-speed digitizer and the 89600 vector signal  
analyzer software. By taking advantage of the layered architecture and extensive digital  
signal processing (DSP) routines of the 89600 VSA software, the digitizer becomes  
a new “front end” data acquisition subsystem for the VSA. This hardware-software  
combination provides up to 2 GHz of analysis bandwidth depending on the digitizer  
used. See Table 1 for the supported digitizer models and the corresponding analysis  
bandwidths. Appendix A contains suggestions for ultra-wideband downconverters.  
1 Overview  
The 10- and 12-bit, high sample rate analog-to-digital converter (ADC) in the Acqiris  
digitizers produces the large analysis bandwidths shown in Table 1. These bandwidths  
are capable of providing a spurious-free dynamic range greater than or equal to 40 dB  
for the U1065A and greater than or equal to 75 dB for the U1066A. This is sufficient for  
1.5 to 2% error vector magnitude measurements in most cases. For spectrum measure-  
ments with higher dynamic range, a traditional spectrum analyzer should be used.  
Table 1. Agilent Acqiris digitizers supported by 89600 VSA software  
Model  
No of  
channels  
Max  
sample rate  
Frequency  
range  
Default  
memory  
Optional  
memory  
U1066A-001 (DC440)  
U1066A-001 (DC440)  
U1066A-001 (DC440) HF input  
U1066A-001 (DC440) HF input  
U1066A-002 (DC438)  
U1066A-002 (DC438)  
U1065A-001 (DC222)  
U1065A-002 (DC252)  
U1065A-002 (DC252)  
U1065A-004 (DC282)  
U1065A-004 (DC282)  
1. Max span = 164 MHz  
1
2
1
2
1
2
1
1
2
1
2
400 M  
400 M  
420 M  
420 M  
200 M  
200 M  
8 G  
8 G  
4 G  
8 G  
4 G  
dc – 100 MHz  
dc – 100 MHz  
1 MHz – 300 MHz  
1 MHz – 300 MHz  
dc – 78.125 MHz  
dc – 78.125 MHz  
dc – 2 GHz  
dc – 2 GHz  
dc – 1.5625 GHz  
dc – 2 GHz  
4 M  
4 M  
4 M  
4 M  
4 M  
4 M  
1 M  
1 M  
512 k  
1 M  
512 k  
8 M  
8 M  
8 M  
8 M  
8 M  
1
1
8 M  
128 M, 1 G  
128 M, 1 G  
64 M, 512 M  
128 M, 1 G  
64 M, 512 M  
dc – 1.5625 GHz  
3
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1.189600 VSA software  
The 89600 vector signal analyzer software is the heart of the broadband VSA. This software  
provides flexible tools for analyzing and demodulating even the most advanced digital modu-  
lations, including those not defined by an established standard.  
The VSA makes measurements on signals in the time and frequency domains using either  
the BB (baseband) or IF Zoom mode. In BB mode, the analysis frequency range is from 0 Hz  
to the stop frequency. In IF Zoom mode, the analysis frequency range is defined by center  
frequency and span. There is also an I+jQ mode for analyzing two baseband quadrature  
channels. Results for any mode can be displayed as magnitude  
or phase, in I/Q and several other formats.  
With the optional digital demodulator, Option 89600-AYA, modulation quality measurements  
in the form of error vector magnitude (EVM) can be made on digital wireless communica-  
tions signals with bandwidths of hundreds of MHz. In addition, powerful diagnosis capabili-  
ties allow you to determine the exact impairments that cause a digitally modulated signal to  
fail quality standards.  
The features of the digital demodulator include variable-block-size signal acquisition, pulse  
burst edge search, synch word search and a user-controllable adaptive equalizer.  
User-selectable filter types include cosine (raised and square-root raised), Gaussian, low-  
pass, and user-defined. You can vary the filter alpha/BT shape factor. Supported modulation  
formats for both burst and continuous carriers include FSK, BPSK, QPSK, OQPSK, DQPSK,  
π/4DQPSK, 8PSK, QAM (16 to 1024), and MSK.  
In addition, the 89600 software provides a signal record feature for later playback and  
analysis.  
1.2 Required software revisions  
Using the 89600 Series VSA software with Agilent Acqiris high-speed digitizers requires  
compatible software versions:  
Table 2. Required software versions  
Agilent Acqiris Software for  
Windows®  
AcqirisSoftware 3.2  
(Driver AqDrv4.dll 4.13) or later  
For baseband operation:  
89600 VSA  
v8.00 or later  
1.0 or later  
Acqiris VSA Server  
For HF operation:  
89600 VSA  
v9.00 or later  
2.0 or later  
Acqiris VSA Server  
4
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The 89600 VSA software must be installed on a computer.  
2 Install 89600 VSA  
Software  
Installation for standard operation  
Insert the Agilent Technologies 89600 Series Software CD-ROM in your standard PC  
and follow the instructions in the installation wizard. When the Installation Manager  
window opens, click Install 89600 Series Software. In the Hardware Support window,  
select Acqiris VSA Server. This will avoid installing unnecessary components on your  
computer. After the software and hardware support is installed, exit the Installation  
Manager window.  
Installation for embedded operation  
Operation of the 89600 Series software on an embedded Compact PCI computer is  
similar to operation on a standard PC. The instructions for standard operation can be  
followed here as well using a LAN or USB accessible CD drive.  
Note: Before you can run the VSA with an Agilent Acqiris digitizer, make sure  
the Agilent Acqiris digitizer hardware and driver software are installed and  
configured as directed in the 89600 Series Installation and VXI Service Guide  
found on your Agilent Technologies 89600 Series Software CD or go to  
www.agilent.com/find/89600 then click on Technical Support > Manuals.  
5
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Connect the digitizer to the computer as shown in Figure 1a or 1b. There are two options  
for the connection, by remote computer or by embedded computer.  
3 Hardware  
Configuration  
3.1 I/O between computer and digitizer  
Operation of the 89600 Series software on an embedded Compact PCI computer  
is similar to operation on a standard PC. The instructions for standard operation  
can be followed here as well using a LAN or USB accessible CD drive.  
Agilent Acqiris data acquisition system  
Agilent Acqiris digitizer  
1
2
3
4
Optional anti-alias LPFs  
Interface  
Input Ch 1 Input Ch 2  
(Digitizer Ch 1) (Digitizer Ch 2)  
Figure 1a. Digitizers connected through CompactPCI to PCI interface  
The digitizers can be connected through various interface types from a  
CompactPCI crate to either a desktop PC or a portable PC.  
Agilent Acqiris data acquisition system  
Agilent Acqiris digitizer  
1
2
3
4
Optional anti-alias LPFs  
Embedded computer  
Input Ch 1 Input Ch 2  
(Digitizer Ch 1) (Digitizer Ch 2)  
Figure 1b. Digitizers connected through embedded single board PC  
Alternatively, the digitizers can be controlled by an embedded computer as  
shown in Figure 1b.  
6
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3.2 Anti-alias filters and alias exposure-free mode  
The broadband VSA can be configured to be essentially alias-free by using the full  
rate sampling mode and installing an external lowpass filter on the digitizer input.  
Use BNC-f to SMA-m and SMA-f to BNC-m adapters to connect the filter’s SMA  
connectors to the digitizer in case the digitizer has BNC connectors.  
Table 3. External lowpass filters  
Digitizer model  
Cutoff frequency Filter part number  
U1066A-002 (DC438)  
U1066A-001 (DC440)  
U1065A (DC252 (2 ch),  
DC282 (2 ch))  
U1065A (DC222, DC252 2000 MHz  
(1 ch), DC282 (1ch))  
90 MHz  
100 MHz  
1650 MHz  
Mini-circuits BLP/SLP-90  
2
1
Mini-circuits BLP/SLP-100  
1
Mini-circuits SLP-1650  
1
Mini-circuits SLP-2000  
2. For the HF input a 300 MHz lowpass filter will avoid aliasing from signals above 300 MHz, but in-band  
and out-of-band aliasing is still possible since full rate mode is not supported with the HF input.  
7
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4.1 Basic operation  
4 Operation  
Operation of the broadband VSA is substantially the same as that of the 89600  
VSA. See the following sections for some differences or special configurations.  
There is an online Tutorial and Getting Started Guide under the Help/Roadmap  
toolbar in the 89600 software.  
4.2 Sampling modes: full rate and user rate  
Full rate mode  
When the Sample Mode is set to full rate using the Utilities/Hardware/ADC1  
/Agilent Acqiris One Channel Digitizer/Configure/Sample Mode/Edit menu  
path for the U1065A-001 or Utilities/Hardware/ADC1 /Agilent Acqiris Two  
Channel Digitizer/Configure/Sample Mode/Edit menu path for all the other  
models, the digitizer sample rate is fixed at the maximum for each digitizer  
model according to Table 4.  
Table 4. Sample rates of Acqiris digitizers in full rate mode  
Digitizer model  
No. of channels  
Full sample rate  
U1066A-001 (DC440)  
U1066A-001 (DC440)  
U1066A-002 (DC438)  
U1066A-002 (DC438)  
U1065A-001 (DC222)  
U1065A-002 (DC252)  
U1065A-002 (DC252)  
U1065A-004 (DC282)  
U1065A-004 (DC282)  
1
2
1
2
1
1
2
1
2
400 M  
400 M  
200 M  
200 M  
8 G  
8 G  
4 G  
8 G  
4 G  
With the addition of the anti-alias lowpass filter described above, this mode is  
free of alias exposure zones. This means that no signal anywhere in the range  
of the VSA’s center frequency will alias upon the desired signal and corrupt the  
measurement.  
There is a trade-off when using this mode. Although the digitizers have deep  
memories allowing long record lengths, if a longer Main Time (or Result Length  
for digital demodulation) is needed for more resolution in the frequency domain  
a different sample mode may be required. Go to the Configure menu, click on  
Sample Mode/Edit and select User Rate from the drop-down menu. The Main  
Time limit for any sample rate is shown in the operating region curves that  
appear in Appendix C.  
NOTE: Any limitation to Main Time (or Result Length) will be indicated by the  
inability of the software to increase the Main Time or decrease RBW when  
Number of Frequency Points is increased.  
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User rate mode  
The user rate setting allows you to directly control the digitizer’s sample rate. In  
this mode you select the digitizer sample rate to be used. The actual sample rate  
selected will be the highest rate that is less than or equal to the “user sample  
rate” setting. By controlling the digitizer’s sample rate you can directly influence  
the update rate of the VSA. This is because sample rate directly affects the num-  
ber of points the digitizer must transfer to the PC. Certain measurements can be  
made significantly faster by limiting the digitizer sample rate due to reduced data  
transfer requirements.  
There are two types of signal aliasing to be concerned with when using the  
89600 VSA application with an Agilent Acqiris digitizer. The first is aliasing of  
unwanted out-of-band signals into the measurement span. This will not be a  
problem with the majority of clean, single-signal devices. However, devices with  
multiple or spurious signals could have this type of aliasing. Section 6 describes  
how to perform a check to determine if there are any unwanted signals present  
that can alias down into the measurement span. A second type of aliasing hap-  
pens when the sample rate causes the in-band signal to fold over on itself. This  
in-band (or self-) aliasing is avoided in full rate mode by automatically selecting  
the highest sample rate. However, in user rate mode in-band aliasing may be a  
problem. To avoid in-band aliasing you must select a suitable sample rate based  
on your measurement center frequency and span.  
To avoid in-band aliasing the digitizer sample rate (F ) must be selected so that  
S
the analysis span falls within confined regions. Staying within these regions  
prevents the analysis span from being positioned too close to F /2. When F  
S
S
is selected so that the span is confined to be within a single gray box (see  
diagrams below), in-band aliasing is avoided. See the following table for the  
equations that describe these in-band alias-free regions.  
The primary use of user rate mode is to increase maximum waveform length that  
can be acquired or to increase the update rate. In all cases, user rate measure-  
ments must be been carefully engineered to avoid unwanted alias signals.  
Baseband:  
DC  
F /2  
F /2.56  
s
s
Zoom:  
(n + 1)F  
n * F  
(n + 1/2) * F  
s
s
s
Figure 2. Avoiding in-band aliasing by selecting FS within a confined span  
NOTE: User Rate is the only available mode in HF operation. The VSA does not  
attempt to avoid alias exposure regions when in User Rate mode.  
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This table summarizes the difference in approach to alias protection between  
the various sample modes:  
Table 5. Varying approaches for alias protection  
Full rate Both in-band and out-of-band aliasing are prevented through use  
of the maximum sample rate and an appropriate lowpass filter.  
User rate You are responsible to avoid in-band aliasing through appropriate  
selection of sample rate based on center frequency and span. To  
ensure no in-band aliasing is present the digitizer sample rate (FS)  
must be selected to meet this criteria:  
Baseband: F  
≤ F /2.56  
STOP  
S
Zoom: (n*F )/2 ≤ F  
- (1.28 * F  
)/2  
SPAN  
S
CENTER  
AND  
((n+1)*F )/2 ≥ F  
+ (1.28 * F  
)/2  
SPAN  
S
CENTER  
where n = 1,2,3,4…  
Out-of-band aliasing is minimized through use of appropriate  
low-pass filter. Use of Alias Checker macro (Section 6) is required  
to detect other unwanted out-of-band signal aliasing.  
(Note: aliasing of unwanted signals can be eliminated through use  
of appropriate bandpass filter.)  
Another concern in user rate mode is that you may see unwanted amplitude  
variability in two channel measurements. This can occur if any part of the mea-  
surement frequency span falls within the regions defined by:  
(2*n+1) x F /2 0.1 x F  
S
S
where n = 1, 2, 3, 4 …  
where F is the actual digitizer sample rate. Make sure you choose a sample rate  
S
where such overlap does not occur.  
4.3 Differences from 89600 VSA operation  
No Magnitude Trigger (however, Channel Trigger is available).  
Possible limitation of movement on the operating region curve to avoid alias  
corruption of the measured signal. This depends on the settings of Center  
Frequency, Span, Sample Mode, and Number of Frequency Points. There is  
also potential interference due to the alias products of out-of-band signals.  
(See Section 6.)  
No built-in wideband calibrator. The frequency response corrections are  
determined from factory data.  
10  
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The operating region curves for the broadband VSAs are different from those of  
standard VSAs because the Main Time Length may be limited for some sample  
rate, center frequency, and span combinations. The differences are due to three  
hardware characteristics of the ultra-wideband ADCs in the Agilent Acqiris  
digitizers:  
5 Time and  
Frequency Span  
Operating Region  
A much higher sampling rate  
The lack of a hardware decimator, which means the decimation must be  
performed by the software from same-length records taken at much higher  
sampling rates  
Limited memory capacity  
5.1 The relationship of main time length, span, and  
sample rate  
The record length or Main Time Length of a measurement is shown in the lower  
right corner of a spectrum or time display window. This is the length of time the  
digitizer sampled the input waveform for the measurement. These samples are  
transferred to the DSP and measurement algorithms running on the software.  
Maximum Main Time Length is normally adjusted by setting Number of Frequency  
Points in the MeasSetup/ResBW menu ResBW Coupling is set to Auto, and  
ResBW mode is set to Arbitrary or 1-3-10. The Time tab can then be used to set  
Main Time Length up to this maximum limit. This setup keeps Main Time Length  
maximized and within the DSP requirements.  
Although Main Time Length can be adjusted directly by the MeasSetup/Time  
menu, it cannot be greater than the limit imposed by the Number of Frequency  
Points line on the operating region chart. See the online Help tool for a complete  
discussion.  
Note: The maximum Main Time Length can be found as follows:  
The relationship between the parameters is shown below:  
Max Main Time Length = Number of frequency points  
Span  
where Span = Sample rate  
1.28  
Max Main Time Length = 1.28 x Number frequency points  
Sample rate  
where sample rate = current sample rate computed by the software for alias-  
free measurements  
Maximum Main Time Length may be further limited by digitizer memory depth.  
11  
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5.2 Operating region curves for Agilent Acqiris digitizers  
Several interrelated characteristics of both the Acqiris digitizers and the 89600 VSA  
software combine to form a region within which the VSA is constrained to operate.  
The 89600 VSA software characteristics that affect this operating region include  
maximum number of time points, the minimum number of time points (not user  
settable), a maximum acquisition record size (not user settable) and a maximum  
decimation factor (not user settable). The Digitizer characteristics that affect the  
operating region are sample rate and memory depth. This section describes the  
effects each of these parameters has on the VSA operating region.  
The operating region is described in terms of span and time record length. For a  
given window type it could just as easily be described in terms of span and RBW.  
Figure 3 shows the effects of the number of time points the 89600 VSA software is  
allowed to collect. Because sample spacing is inversely proportional to span, the  
record length decreases as span increases. Although a family of lines is shown,  
only two define the operating region at any one time. The lowest line gives the  
smallest time record length allowed for any given span. The position of this line  
is determined by minimum number of time points (16) the VSA requires in a time  
record. The line that defines the upper time record length boundary is positioned  
by the maximum number of time points the VSA allows in a time record . The maxi-  
mum number of time points is determined by the Frequency Points setting (Meas-  
Setup/ResBWFrequency Points). The 89600 VSA is constrained to operate in the  
region between these two lines. Note that the operating lines of Figure 3 are the  
same for all digitizer models.  
Operating region: number of frequency points limits  
1.E+01  
1.E+00  
1.E-01  
1.E-02  
1.E-03  
409601  
204801  
102401  
1.E-04  
51201  
25601  
12801  
6401  
3201  
1601  
801  
1.E-05  
1.E-06  
1.E-07  
1.E-08  
401  
201  
Minimum  
1.E+02  
1.E+03 1.E+04 1.E+05 1.E+06  
1.E+07 1.E+08  
1.E+09  
1.E+10  
1.E+11  
Span (Hz)  
Figure 3. The user-settable parameter, frequency points, begins to determine the  
boundaries of the time record length and frequency span operating region  
12  
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In addition to the time record length limits, there are limits to the allowable  
range of spans. These are represented as vertical lines on the operating region  
graphs (Figure 4). The upper span limit is set by the digitizer’s sample rate. For  
the highest sample rate supported by the digitizer this boundary may be further  
limited by the analog performance of the digitizer’s front-end. To zoom in on a  
signal of interest by reducing the span, traditional VSA instrumentation reduces  
the effective sample rate through the use of decimating filters while keeping  
the ADC at full rate. This technique allows for maximum alias protection. Unlike  
traditional VSA instruments, the Acqiris digitizers have no decimating filters.  
To compensate for this shortcoming, decimating filters have been built into the  
89600 VSA software. The maximum amount of decimation allowed by the 89600  
VSA software sets the minimum span for any given digitizer sample rate.  
The operating region depicted in Figure 4 is determined by constraints imposed  
by both time record length and span. The Acqiris digitizers support many sample  
rates. For each sample rate, the operating region shifts slightly on the operating  
region graph. As the sample rate decreases, the operating region shifts slightly  
up and to the left. So, for any given digitizer, there will be a family of overlapping  
operating regions, one for each supported sample rate.  
In general, these regions would be the same for every digitizer that supports a  
given sample rate. The only difference is when the maximum span at the maxi-  
mum sample rate is limited by analog performance of the digitizer’s front-end  
rather than just by the sample rate.  
In addition to the time record length limits, there are limits to the allowable  
range of spans. These are represented as vertical lines on the operating region  
graphs (Figure 4). The upper span limit is set by the digitizer’s sample rate. For  
the highest sample rate supported by the digitizer this boundary may be further  
limited by the analog performance of the digitizer’s front-end. To zoom in on a  
signal of interest by reducing the span, traditional VSA instrumentation reduces  
the effective sample rate through the use of decimating filters while keeping  
the ADC at full rate. This technique allows for maximum alias protection. Unlike  
traditional VSA instruments, the Acqiris digitizers have no decimating filters.  
To compensate for this shortcoming, decimating filters have been built into the  
89600 VSA software. The maximum amount of decimation allowed by the 89600  
VSA software sets the minimum span for any given digitizer sample rate.  
The operating region depicted in Figure 4 is determined by constraints imposed  
by both time record length and span. The Acqiris digitizers support many sample  
rates. For each sample rate, the operating region shifts slightly on the operating  
region graph. As the sample rate decreases, the operating region shifts slightly  
up and to the left. So, for any given digitizer, there will be a family of overlapping  
operating regions, one for each supported sample rate.  
Taken altogether, these constraints form an operating region that the 89600 VSA  
software must remain within (Figure 6). To complete our understanding there are  
a couple of additional points regarding sampling mode and alias exposure that  
must be presented.  
The graphs presented in this section describe discrete operating regions that are  
a function of sample rate. In full rate or user rate sample modes a single operat-  
ing region curve fully describes the constraints imposed on the measurement.  
13  
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Operating region: span constraints  
1.E+01  
1.E+00  
1.E-01  
1.E-02  
1.E-03  
1.E-04  
1.E-05  
1.E-06  
1.E-07  
1.E-08  
409601  
204801  
102401  
51201  
25601  
12801  
6401  
3201  
1601  
801  
Operating region  
401  
201  
Minimum  
1.E+02  
1.E+03 1.E+04 1.E+05 1.E+06  
1.E+07 1.E+08  
1.E+09  
1.E+10  
1.E+11  
Span (Hz)  
Figure 4. The allowable range of spans, which may differ by model, further bound  
the operating region of the digitizer  
Operating region: with memory constraints  
1.E+01  
1.E+00  
1.E-01  
1.E-02  
1.E-03  
1.E-04  
1.E-05  
409601  
204801  
Operating region  
102401  
51201  
25601  
12801  
6401  
3201  
1.E-06  
1.E-07  
1.E-08  
1601  
801  
401  
201  
Minimum  
1.E+02  
1.E+03 1.E+04 1.E+05 1.E+06  
1.E+07 1.E+08  
1.E+09  
1.E+10  
1.E+11  
Span (Hz)  
Figure 5. The digitizer’s available memory also constrains the operating region  
14  
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In full rate sample mode with the use of appropriate lowpass filtering (Table  
3) signal aliasing is completely avoided. In this case the “Operating Region” is  
renamed Alias Exposure Free Zone” to indicate this special condition.  
NOTE: Does not apply to HF operation.  
Although the operating regions for all digitizer models are similar, each model  
or model family may have important differences in their operating region curves  
due to differences in maximum sample rate, front-end analog performance, and  
memory option. Appendix C provides the operating curves for all supported digi-  
tizers and most memory options.  
Operating region: with span and memory constraints  
1.E+01  
1.E+00  
1.E-01  
1.E-02  
1.E-03  
1.E-04  
1.E-05  
409601  
204801  
Operating region  
102401  
51201  
25601  
12801  
6401  
3201  
1.E-06  
1.E-07  
1.E-08  
1601  
801  
401  
201  
Minimum  
1.E+02  
1.E+03 1.E+04 1.E+05 1.E+06  
1.E+07 1.E+08  
1.E+09  
1.E+10  
1.E+11  
Span (Hz)  
Figure 6. The true operating region is fully described when constrained by  
all the previous parameters: number of frequency points, span, and digitizer  
memory. See Appendix C for operating region charts for the various supported  
digitizers.  
15  
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5.3 Recording limits for Acqiris digitizers  
The 89600 VSA software allows the acquisition of long records to be captured. Analysis  
is done as a post-processing operation. This feature is called Recording. Recordings can  
be much longer than time records in live measurements.  
Prior to taking a recording, live test measurements of Main Time length are usually made  
at the desired span. Then, when the recording is made, the analyzer no longer uses Main  
Time Length but, instead, uses Recording Length to determine length of the acquired  
record.  
When making an 89600 VSA recording the maximum recording length is determined by  
the digitizer sample rate and memory depth. When in user rate the maximum record-  
ing lengths will increase as the sample rate decreases. The recording length increase  
is directly proportional to the sample rate decrease or the memory depth increase. The  
following table indicates the maximum recording length at full rate for each supported  
digitizer.  
Table 6. Maximum recording lengths at maximum span for each digitizer model with memory  
Model  
No. of Max span  
Ch's  
Recording length for possible memory configurations  
512k  
1M  
130 μs  
130 μs  
4M  
8M  
64M  
128M  
16 ms  
16 ms  
512M  
1G  
U1066A-001 (DC440) Std  
U1066A-001 (DC440) Std  
U1066A-001 (DC440) HF  
U1066A-001 (DC440) HF  
U1066A-002 (DC438)  
U1066A-002 (DC438)  
U1065A-001 (DC222)  
U1065A-002 (DC252)  
U1065A-002 (DC252)  
U1065A-004 (DC282)  
U1065A-004 (DC282)  
1
2
1
2
1
2
1
1
2
1
2
100 MHz  
100 MHz  
164 MHz  
164 MHZ  
78.125 MHz  
78.125 MHz  
2 GHz  
10 ms 20 ms  
10 ms 20 ms  
10 ms 20 ms  
10 ms 20 ms  
20 ms 40 ms  
20 ms 40 ms  
130 ms  
130 ms  
2 GHz  
1.5625 GHz 130 μs  
2 GHz  
1.5625 GHz 130 μs  
16 ms  
16 ms  
130 ms  
130 ms  
130 μs  
16 ms  
130 ms  
Note: The stated recording depths are at maximum sample rate. Lower user sample rates give proportionally longer times.  
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As mentioned above, the user rate sampling modes increase the maximum Main  
Time length at the expense of possible aliasing of out-of-band signals into the  
frequency span of the measurement. The spectrum ranges subject to the alias  
conversion are called alias exposure zones. To determine if any out-of-band  
signals exist in the exposure zones, run the Alias Exposure Zone Checker macro.  
6 Out-of-Band Alias  
Exposure Zones  
6.1 Setting up the Alias Exposure Zone Checker  
Follow this procedure for setting up the Alias Exposure Zone Checker:  
1. Start the VSA application.  
2. Click on Utilities\Macros\Recall. Navigate to the Examples\Macros  
subdirectory in the directory where you installed the VSA application (for  
example, C:\Program Files\Agilent\89600 VSA\Examples\Macros). Select  
RecallSetupAfterAliasCheck and AliasChecker files, and click OK.  
3. Right click on the top of the VSA application. You will see a popup showing  
the various toolbars. Select the Macros toolbar. This will make the alias  
checker icons appear on your VSA application toolbar.  
6.2 Using the Alias Exposure Zone Checker  
The Alias Exposure Zone Checker calculates the frequencies of the alias  
exposure zones for any combination of center frequency, span, and digitizer  
sample rate. It then measures the power in each zone and compares it to the  
power of the desired signal in the span of the measurement setup at the time  
the checker was started. An unwanted signal in an exposure zone is a source of  
interference if it is larger than the desired signal’s amplitude minus 40 dB. This  
–40 dBc threshold is approximately the same level as the quantization errors in  
the digitizer’s 10-bit digitizer, and represents the limit of the digitizer’s dynamic  
range. The –40 dBc level is sufficient for 1 to 2 percent EVM measurements.  
Launch the checker macro by using the tool path Utilities/Macros/Alias  
Checker or click its icon (shown below) on the bottom of the tool bar.  
NOTE: The Alias Exposure Zone Checker cannot be used with the U1066A-001  
(DC440) HF Input.  
When the macro stops, a full-span spectrum trace (Figure 7) will appear in Trace  
A (green). It shows the desired signal plus any unwanted signals. Superimposed  
is an orange Trace C showing boxes for each exposure zone frequency range.  
Any unwanted signal falling inside the zone box is a source of alias interference.  
If the height of any box is higher than the orange reference line, the power in  
that zone is greater than the –40 dBc threshold of interference. Click Yes in the  
checker dialog box to return to the original measurement setup. Click No for  
further examination of the out-of-band signals. You can return to the original  
measurement setup by clicking the Recall Setup After Alias Check macro icon.  
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Trace C  
Trace A  
Figure 7. Alias Exposure Zone Checker results. The desired signal is at 150 MHz and an out-of-  
band signal is at –35 dBc and 642 MHz. The unwanted signal in the second alias zone is 5 dB above  
the –40 dBc threshold line.  
When no alias zones exist because the current sampling mode is alias free, no  
orange zone boxes will appear. In addition, the message No Alias Zones Detected!  
Restore Initial Settings? will appear (see Figure 8).  
Figure 8. Alias checker results when no  
zones are detected. No orange alias zone  
boxes appear.  
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When the original center frequency/span is inadvertently tuned to an alias  
response of a signal whose frequency is not the center frequency, the checker  
will attempt to suggest the signal’s frequency. The checker results at the desired  
center frequency location (box formed by white solid and dashed lines) will show  
no signal, and a large signal will appear in one of the zones, as shown in Figure 9.  
Further, all zone boxes will be well above the orange threshold line.  
Figure 9. Alias checker results when the  
center frequency is originally tuned to an  
alias product. The checker shows no sig-  
nal at the desired frequency (white solid/  
dashed box) and large zone boxes at the  
zones containing the desired signal.  
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Downconverting RF and Microwave Signals into the  
Range of the Agilent Acqiris Digitizers  
Appendix A  
External components with wide bandwidths can be used to downconvert signals  
into the range of the broadband VSAs.  
The 89600 VSA software can account for the mixing equation of the external  
downconverter. While the downconverter cannot be controlled by the software,  
the downconverter’s input center frequency, IF bandwidth, external bandwidth,  
and IF mirroring can be taken into account by using the Utilities/Calibration /  
Frequency menu picks. See the Help text for further details on using the external  
frequency tool.  
IF out  
200 to 500 MHz  
RF in  
LO in  
Bandpass filter: Mini-Circuits BLP-600  
IF amp: Mini-Circuits ZFL-500  
Figure 10. Block diagram of suggested downconverter. See Table 4 for further details.  
Table 7. External wideband downconverter details  
RF range  
Mixer  
LO  
IF amp  
Remarks  
0 to 2 GHz  
None  
None  
Use digitizer Ch1 or Ch2  
(see Table 1)  
(VSA Ch2)  
2
1
0.2 to 6 GHz  
Marki  
16 to 19 dBm  
Mini Circuits  
ZFL-500  
Mxr: CL = 8 dB, TOI = 18 dBm,  
Amp: gain = 20 dB, NF = 5.5 dB,  
TOI = +18 dBm  
M2-0006MA  
F
= F - F  
LO RF  
IF  
F – 200 -500 MHz  
IF  
1
5 to 40 GHz  
Marki  
3 to 17 dBm  
F = F - F  
LO  
As above  
As above  
As above  
Mxr: CL = 8 dB, TOI = 16 dBm  
M9-0540IN  
RF  
IF  
th  
25.6 to 40 GHz  
33 to 50 GHz  
Agilent  
11970A  
15 dBm  
= (F - F )/8  
8
harmonic waveguide mixer,  
F
Mxr: CL = 22 dB, TOI = 15 dBm  
LO  
RF  
IF  
th  
Agilent  
11970Q  
15 dBm  
= (F - F )/10  
10 harmonic waveguide mixer,  
F
IF  
Mxr: CL = 24 dB, TOI = 15 dBm  
LO  
RF  
IF  
F = 0 – 1 GHz  
1.  
2.  
Marki Microwave, http://www.markimicrowave.com Telephone: 408-778-4200, FAX: 408-778-4300, 215 Vineyard Court, Morgan Hill, CA 95037  
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PC Requirements to Run 89600 Software  
Appendix B  
The 89600 requires a PC connected via the PCI extender to the Acqiris digi-  
tizer or an embedded PC. The PC must meet or exceed the following minimum  
requirements:  
Characteristic  
Microsoft® Windows® XP Professional  
CPU  
600 MHz Pentium® or AMD-K6 > 600 MHz Pentium or AMD-K6  
(> 2 GHz recommended)  
Empty slots (desktop)  
Empty slots (laptop)  
1 PCI-bus slot (two recommended) or 1 PCIe slot  
1 CardBus Type II slot or 1 ExpressCard slot  
RAM  
Video RAM  
Hard disk  
512 MB (1 GB recommended)  
4 MB (16 MB recommended)  
512 MB available  
Additional drives  
CD-ROM or USB storage device to load the software; License transfer  
requires a 3.5 inch floppy disk drive, network access, or USB memory stick  
Operating region curves  
Appendix C  
Operating region.  
Model: Acqiris U1065A (DC222, DC252, DC282)  
Memory: 1 Mpts  
1.E+01  
1.E+00  
1.E-01  
1.E-02  
5 Msa/s  
10 Msa/s  
20 Msa/s  
1.E-03  
1.E-04  
25 Msa/s  
50 Msa/s  
100 Msa/s  
200 Msa/s  
250 Msa/s  
500 Msa/s  
1 Gsa/s  
409601  
204801  
102401  
51201  
25601  
12801  
6401  
3201  
1601  
801  
401  
2 Gsa/s  
1.E-05  
1.E-06  
4 Gsa/s  
8 Gsa/s  
Alias exposure  
free zone  
*
201  
1.E-07  
1.E-08  
Minimum  
*
One-channel operation only.  
Time Rec Len  
** Maximum span depends on model number – See Table 1.  
**  
1.E +02  
1.E +03  
1.E +04  
1.E+05  
1.E+06  
1.E+07  
1.E+08  
1.E+09  
1.E+10  
Span (Hz)  
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Operating region  
Model: Acqiris U1065A (DC222, DC252, DC282)  
Memory: 256 Mpts and 1024 Mpts  
1.E+01  
1.E+00  
1.E-01  
1.E-02  
1.E-03  
1.E-04  
1.E-05  
1.E-06  
5 Msa/s  
10 Msa/s  
20 Msa/s  
25 Msa/s  
50 Msa/s  
100 Msa/s  
200 Msa/s  
250 Msa/s  
500 Msa/s  
1 Gsa/s  
2 Gsa/s  
4 Gsa/s  
8 Gsa/s  
409601  
204801  
102401  
51201  
25601  
12801  
6401  
3201  
1601  
801  
Alias exposure  
free zone  
*
401  
201  
1.E-07  
1.E-08  
Minimum  
*
One-channel operation only.  
** Maximum span depends on model number – See Table 1.  
Time Rec Len  
**  
1.E +02  
1.E +03  
1.E +04  
1.E+05  
1.E+06  
1.E+07  
1.E+08  
1.E+09  
1.E+10  
Span (Hz)  
Operating region  
Model: Acqiris U1066A-001 (DC440) and U1066A-002 (DC438)  
Memory: 4 Mpts  
1.E+01  
1.E+00  
1.E-01  
1.E-02  
5 Msa/s  
10 Msa/s  
20 Msa/s  
25 Msa/s  
50 Msa/s  
100 Msa/s  
200 Msa/s  
400 Msa/s  
409601  
204801  
102401  
1.E-03  
1.E-04  
51201  
25601  
12801  
6401  
Alias expos*ure**  
free zone  
*
3201  
1601  
801  
401  
201  
1.E-05  
1.E-06  
Minimum  
Time Rec Len  
**  
*
U1066A-001 only  
Maximum span depends on model number – See Table 1.
**  
1.E-07  
1.E-08  
*** Alias exposure free zone does not apply to HF Input operation  
1.E +02  
1.E +03  
1.E +04  
1.E+05  
1.E+06  
1.E+07  
1.E+08  
1.E+09  
Span (Hz)  
Operating region  
Model: Acqiris U1066A-001 (DC440) and U1066A-002 (DC438)  
Memory: 8 Mpts  
1.E+01  
1.E+00  
1.E-01  
1.E-02  
5 Msa/s  
10 Msa/s  
20 Msa/s  
25 Msa/s  
50 Msa/s  
100 Msa/s  
200 Msa/s  
400 Msa/s  
409601  
204801  
102401  
51201  
25601  
12801  
6401  
1.E-03  
1.E-04  
Alias expos*ure**  
free zone  
*
3201  
1601  
801  
401  
201  
1.E-05  
1.E-06  
Minimum  
Time Rec Len  
*
*  
*
U1066A-001 only  
** Maximum span depends on model number – See Table 1.  
*** Alias exposure free zone does not apply to HF Input operation  
1.E-07  
1.E-08  
1.E +02  
1.E +03  
1.E +04  
1.E+05  
1.E+06  
1.E+07  
1.E+08  
1.E+09  
Span (Hz)  
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For more product literature visit  
For More  
Information  
Related literature list  
89600 Series Vector Signal Analyzers Installation and VXI Service Guide  
Go to www.agilent.com/find/89600 then click on Technical Support > Manuals.  
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89600 Vector Signal Analyzer CD, literature number 5980-1989E  
89600 Series Vector Signal Analysis Software 89600/89600N/ 89601N12,  
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89600 Series Vector Signal Analysis Software 89600/89600N/ 89601N12,  
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Analysis Software, Data Sheet, literature number 5989-1753EN  
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