TR1300 datasheet Datasheet

TR1300 datasheet Datasheet
OBZOR TR1300/1
NETWORK ANALYZER
DATA SHEET
OBZOR TR1300/1 Network Analyzer is designed for use
in the process of development, adjustment and testing
of various electronic devices in industrial and
laboratory facilities, including operation as
a component of an automated measurement system.
OBZOR TR1300/1 is designed for operation with
external PC, which is not supplied with the Analyzer.
To learn more about the software functions, download
the program from our website and install it on your PC
in demo mode.
MEASUREMENT RANGE
Impedance
50 Ω (75 Ω connectors via adapters)
Test port connector
N-type, female
Number of test ports
2
Frequency range
300 kHz to 1.3 GHz
Full CW frequency accuracy
±5x10–6
Frequency setting resolution
1 Hz
Number of measurement points
1 to 10001
Measurement bandwidths
10 Hz to 30 kHz (with 1/3 step)
Dynamic range (IF bandwidth 10 Hz)
130 dB
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Elkina str. 32, Chelyabinsk, 454091, RUSSIA, tel +7(351) 265-10-69, internet: www.planar.chel.ru, e-mail: [email protected]
OBZOR TR1300/1
NETWORK ANALYZER
DATA SHEET
MEASUREMENT ACCURACY
Accuracy of transmission measurements (magnitude / phase)1
+10 dB to +13 dB
0.2 dB / 2°
-50 dB to +10 dB
0.1 dB / 1°
-70 dB to -50 dB
0.2 dB / 2°
-90 dB to -70 dB
1.0 dB / 6°
Accuracy of reflection measurements (magnitude / phase)1
-15 dB to 0 dB
0.4 dB / 4°
-25 dB to -15 dB
1.5 dB / 7°
-35 dB to -25 dB
4.0 dB / 22°
Trace stabilit
stabilityy
Trace noise magnitude
(IF bandwidth 3 kHz)
0.002 dB rms
Temperature dependence
(per one degree of temperature variation)
0.02 dB
EFFECTIVE SYSTEM DATA1
Effective directivity
45 dB
Effective source match
40 dB
1
applies over the temperature range of 23°C ± 5 °C after 40 minutes of warming-up, with less than 1 °C
deviation from the one-path two-port calibration temperature, at output power of -10 dBm, and IF bandwidth
10 Hz.
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Elkina str. 32, Chelyabinsk, 454091, RUSSIA, tel +7(351) 265-10-69, internet: www.planar.chel.ru, e-mail: [email protected]
OBZOR TR1300/1
NETWORK ANALYZER
DATA SHEET
TEST PORT
Directivity
(without system error correction)
18 dB
TEST PORT OUTPUT
Match
(without system error correction)
18 dB
Power range
-55 dBm to +3 dBm
Power accuracy
±1.5 dB
Power resolution
0.05 dB
TEST PORT INPUT
Match
28 dB
Damage level
+26 dBm
Damage DC voltage
35 V
Noise level (defined as the rms value of the specified
noise floor, IF bandwidth 10 Hz)
-127 dBm
MEASUREMENT SPEED
Measurement time per point
150 μs
Typical cycle time versus number of measurement points
Number of points
51
201
401
1601
9 ms
31 ms
60 ms
235 ms
Start 0.3 MHz, stop 1.3 GHz, IF bandwidth 30 kHz
One-path two-port calibration
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Elkina str. 32, Chelyabinsk, 454091, RUSSIA, tel +7(351) 265-10-69, internet: www.planar.chel.ru, e-mail: [email protected]
OBZOR TR1300/1
NETWORK ANALYZER
DATA SHEET
GENERAL DATA
Output reference signal level at 50 Ω impedance
3 dBm ± 2 dB
«OUT 10 MHz» connector type
BNC female
Operating temperature range
+5 °C to +40 °C
Storage temperature range
-45 °C to +55 °C
Humidity
90% at 25 °C
Atmospheric pressure
84 to 106.7 kPa
Calibration interval
3 years
Power supply:
- AC circuit
100 - 240 V, 50/60 Hz
- external DC power supply
9-15 V
Power consumption
8W
Dimensions (L x W x H)
285 x 142 x 40 mm
Weight
1.5 kg
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Elkina str. 32, Chelyabinsk, 454091, RUSSIA, tel +7(351) 265-10-69, internet: www.planar.chel.ru, e-mail: [email protected]
OBZOR TR1300/1
NETWORK ANALYZER
DATA SHEET
MEASUREMENT CAPABILITIES
Measured parameters
Number of measurement channels
Data traces
Memory traces
Data display formats
S11, S21
Up to 4 independent logical channels. Each logical
channel is represented on the screen as an
individual channel window. A logical channel is
defined by such stimulus signal settings as
frequency range, number of test points, power level,
etc.
Up to 8 data traces can be displayed in each channel
window. A data trace represents one of such
parameters of the DUT as S-parameters,
response in time domain, input power response.
Each of the 8 data traces can be saved into memory
for further comparison with the current values.
Logarithmic magnitude, linear magnitude, phase,
expanded phase, group delay, SWR, real part,
imaginary part, Smith chart diagram and polar
diagram.
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Elkina str. 32, Chelyabinsk, 454091, RUSSIA, tel +7(351) 265-10-69, internet: www.planar.chel.ru, e-mail: [email protected]
OBZOR TR1300/1
NETWORK ANALYZER
DATA SHEET
SWEEP FEATURES
Sweep type
Measured points per sweep
Segment sweep features
Power
Sweep trigger
Linear frequency sweep, logarithmic frequency
sweep, and segment frequency sweep, when the
stimulus power is a fixed value; and linear power
sweep when frequency is a fixed value.
Set by the user from 1 to 10001.
A frequency sweep within several independent
user-defined segments. Frequency range,
number of sweep points, source power, and
IF bandwidth should be set for each segment.
Source power from –55 dBm to +3 dBm with
resolution of 0.05 dB.
In frequency sweep mode the power slope can be set
to up to 2 dB/GHz for compensation of high
frequency attenuation in connection wires.
Trigger modes: continuous, single, hold.
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Elkina str. 32, Chelyabinsk, 454091, RUSSIA, tel +7(351) 265-10-69, internet: www.planar.chel.ru, e-mail: [email protected]
OBZOR TR1300/1
NETWORK ANALYZER
DATA SHEET
TRACE FUNCTIONS
Trace display
Trace math
Autoscaling
Electrical delay
Phase offset
Data trace, memory trace, or simultaneous indication
of data and memory traces.
Data trace modification by math operations: addition,
subtraction, multiplication or division of measured
complex values and memory data.
Automatic selection of scale division and reference
level value to have the trace most effectively
displayed.
Calibration plane moving to compensate for the
delay in the test setup. Compensation for electrical
delay in a DUT during measurements of deviation
from linear phase.
Phase offset defined in degrees.
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Elkina str. 32, Chelyabinsk, 454091, RUSSIA, tel +7(351) 265-10-69, internet: www.planar.chel.ru, e-mail: [email protected]
OBZOR TR1300/1
NETWORK ANALYZER
DATA SHEET
ACCURACY ENHANCEMENT
Calibration
Calibration methods
Reflection and transmission normalization
Factory calibration
Full one-port calibration
One-path two-port calibration
Mechanical Calibration Kits
Electronic Calibration Modules
Defining of calibration standards
Error correction interpolation
Calibration of a test setup (which includes
the Analyzer, cables, and adapters) significantly
increases the accuracy of measurements. Calibration
allows for correction of the errors caused by
imperfections in the measurement system: system
directivity, source and load match, tracking and
isolation.
The following calibration methods of various
sophistication and accuracy enhancement level are
available:
- reflection and transmission normalization;
- full one-port calibration;
- one-path two-port calibration.
The simplest calibration method. It provides low
accuracy.
The factory calibration of the Analyzer allows for
reduction of measurement error in reflection and
transmission normalization.
Method of calibration performed for one-port
reflection measurements. It ensures high accuracy.
Method of calibration performed for reflection and
one-way transmission measurements. It ensures
high accuracy for reflection measurements, and
mean accuracy for transmission measurements.
The user can select one of the predefined calibration
kits of various manufacturers or define own
calibration kits.
Electronic calibration modules offered by PLANAR
make the Analyzer calibration faster and easier than
traditional mechanical calibration.
Different methods of calibration standard
defining are available:
- standard defining by polynomial model;
- standard defining by data (S-parameters).
When the user changes such settings as start/stop
frequencies and number of sweep points, compared
to the settings at the moment of calibration,
interpolation or extrapolation of the calibration
coefficients will be applied.
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Elkina str. 32, Chelyabinsk, 454091, RUSSIA, tel +7(351) 265-10-69, internet: www.planar.chel.ru, e-mail: [email protected]
OBZOR TR1300/1
NETWORK ANALYZER
DATA SHEET
SUPPLEMENTAL CALIBRATION METHODS
Power calibration
MARKER FUNCTIONS
Data markers
Reference marker
Marker search
Marker search additional features
Setting parameters by markers
Marker math functions
Statistics
Bandwidth
Flatness
RF filter
Method of calibration, which allows more stable
maintaining of the power level setting at the DUT
input. An external power meter should be connected
to the USB port.
Up to 16 markers for each trace. Reference marker
available for delta marker operation. Smith chart
diagram supports 5 marker formats: linear
magnitude/phase, log magnitude/phase, real/
imaginary, R + jX and G + jB. Polar diagram
supports 3 marker formats: linear magnitude/phase,
log magnitude/phase, and real/imaginary.
Enables indication of any maker values as relative to
the reference marker.
Search for max, min, peak, or target values on
a trace.
User-definable search range. Functions of specific
condition tracking or single operation search.
Setting of start, stop and center frequencies by
the stimulus value of the marker and setting of
reference level by the response value of the marker.
Statistics, bandwidth, flatness, RF filter.
Calculation and display of mean, standard deviation
and peak-to-peak in a frequency range limited by two
markers on a trace.
Determines bandwidth between cutoff frequency
points for an active marker or absolute maximum.
The bandwidth value, center frequency, lower
frequency, higher frequency, Q value, and insertion
loss are displayed.
Displays gain, slope, and flatness between two
markers on a trace.
Displays insertion loss and peak-to-peak ripple of
the passband, and the maximum signal magnitude in
the stopband. The passband and stopband are
defined by two pairs of markers.
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Elkina str. 32, Chelyabinsk, 454091, RUSSIA, tel +7(351) 265-10-69, internet: www.planar.chel.ru, e-mail: [email protected]
OBZOR TR1300/1
NETWORK ANALYZER
DATA SHEET
DATA ANALYSIS
Port impedance conversion
De-embedding
Embedding
S-parameter conversion
Time domain transformation
Time domain gating
The function of conversion of the S-parameters
measured at 50 Ω port into the values, which could
be determined if measured at a test port with
arbitrary impedance.
The function allows to mathematically exclude from
the measurement result the effect of the fixture circuit
connected between the calibration plane and the
DUT. This circuit should be described by an
S-parameter matrix in a Touchstone file.
The function allows to mathematically simulate the
DUT parameters after virtual integration of a fixture
circuit between the calibration plane and the DUT.
This circuit should be described by an S-parameter
matrix in a Touchstone file.
The function allows conversion of the measured
S-parameters to the following parameters: reflection
impedance and admittance, transmission impedance
and admittance, and inverse S-parameters.
The function performs data transformation from
frequency domain into response of the DUT to
various stimulus types in time domain. Modeled
stimulus types: bandpass, lowpass impulse, and
lowpass step. Time domain span is set by the user
arbitrarily from zero to maximum, which is
determined by the frequency step. Windows of
various forms are used for better tradeoff between
resolution and level of spurious sidelobes.
The function mathematically removes unwanted
responses in time domain what allows for obtaining
frequency response without influence from the
fixture elements. The function applies reverse
transformation back to frequency domain after
cutting out the user-defined span in time domain.
Gating filter types: bandpass or notch. For better
tradeoff between gate resolution and level of
spurious sidelobes the following filter shapes are
available: maximum, wide, normal and minimum.
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Elkina str. 32, Chelyabinsk, 454091, RUSSIA, tel +7(351) 265-10-69, internet: www.planar.chel.ru, e-mail: [email protected]
OBZOR TR1300/1
NETWORK ANALYZER
DATA SHEET
MIXER / CONVERTER MEASUREMENTS
Scalar mixer / converter measurements
Scalar mixer / converter calibration
Automatic frequency offset adjustment
The scalar method allows measuring magnitude only
of transmission coefficient of mixer and other
frequency translating devices.
The scalar method employs port frequency offset
when there is difference between source port
frequency and receiver port frequency.
The most accurate method of calibration applied for
measurements of mixers in frequency offset mode.
The OPEN, SHORT, and LOAD calibration standards
are used. An external power meter should be
connected to the USB port.
The function performs automatic frequency offset
adjustment when the scalar mixer / converter
measurements are performed to compensate for
internal LO setting inaccuracy in the DUT.
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Elkina str. 32, Chelyabinsk, 454091, RUSSIA, tel +7(351) 265-10-69, internet: www.planar.chel.ru, e-mail: [email protected]
OBZOR TR1300/1
NETWORK ANALYZER
DATA SHEET
OTHER FEATURES
Analyzer control
Familiar graphical user interface
Diagram printout/saving
Using external personal computer,
which runs the Analyzer software.
Graphical user interface based on Windows
operating system ensures fast and easy Analyzer
operation by the user.
The diagram and data printout function has preview
feature. The preview, saving and printout can be
performed using MS Word, Image Viewer
for Windows, or Analyzer Print Wizard.
REMOTE CONTROL AND DATA EXCHANGE
COM/DCOM
COM/DCOM automation is used for remote control
and data exchange with the user software.
The Analyzer program runs as COM/DCOM server.
The user program runs as COM/DCOM client.
The COM client runs on Analyzer PC. The DCOM
client runs on a separate PC connected via LAN.
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Elkina str. 32, Chelyabinsk, 454091, RUSSIA, tel +7(351) 265-10-69, internet: www.planar.chel.ru, e-mail: [email protected]
Elkina str. 32, Chelyabinsk, 454091, RUSSIA, tel +7(351) 265-10-69, internet: www.planar.chel.ru, e-mail: [email protected]
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