Easily measure and analyze:
Bode 100 User Manual | Bode Analyzer Suite Software
Bode 100 Gain-Phase Performance Examples Application Note
Find out more in our Publications Section.
Click here if you would like to reserve a Evaluation (‘Demo’) Unit . We will add you to our list and as soon as a unit becomes available, we will contact you. There is no cost to demo our products!
|OL000100||Bode 100 Vector Network Analyzer
|OL000150||Active Differential Probe 10:1/100:1, 25M||$499.00|
|OL000151||B-WIT 100 Wideband Injection Transformer||
|OL000152||B-SMC Impedance Adapter||
|OL000153||B-WIC Impedance Adapter||
|OL000168||B-AMP 12 External Power Amplifier||
|OL000169||B-LFT 100 Low-Frequency Injection Transformer||
|OL000170||B-RFID-A For Class 1 Cards||
|OL000171||B-RFID-B For Class 3 Cards||
|OL000172||B-RFID-C For Class 6 Cards||
FAST AND EASY MEASUREMENTS WITH THE BODE 100
With the multifunctional Bode 100 you get an exact picture of your electronic circuits and components in a frequency range from 1 Hz to 50 MHz. The Bode 100 is not only a state of the art Vector Network Analyzer, it also works as:
Accurate and compact with an unbeatable price-performance ratio, it is the best choice for industrial applications as well as research and educational labs.
The VNA Bode 100 is the perfect tool for application fields like production, research and development, educational institutions as well as service and maintenance. The compact hardware is controlled from the easy-to-use and intuitive Bode Analyzer Suite via USB.
MEASURING TO GO
The lightweight and portable hardware design combined with the Bode Analyzer Suite for Windows guarantee a very easy and user friendly handling of the Bode 100. Moreover, an OLE automation interface allows integrating the Bode 100 in any automated system.
The Bode 100 system includes:
For more details, check out our Detailed Specifications and Software tabs above or download our Bode 100 brochure.
*PC not included
**MATLAB is a registered trademark of The MathWorks, Inc.
***Excel, PowerPoint, Visual C++, C#, VB2005 and Windows are registered trademarks of Microsoft Corporation
#LabVIEW is a registered trademark of National Instruments Corporation
|Maximum DC Input Voltage||400||VDC|
|Maximum Continuous Current||20||A|
|Typical Input-Output Voltage Drop||0.75||VDC|
|Modulation Input Impedance||50||ohms|
|Output Signal Bandwidth||100-1M||Hz|
|Current Monitor Bandwidth (THRU CAL)||DC-1M||Hz|
|Current Monitor Scale (AC)||100||mV/A|
|Current Monitor Termination Impedance||50 or 1Meg||Ohms|
|Max Current Monitor DC Offset||100||mV|
|Recommended Injection Signal||6||dBm|
|Frequency range||1 Hz to 50 MHz|
|Input impedance (software switchable)||High: 1 MO ± 2% || 40...55 pF
Low: 50 O
|Return loss @ 50 O input impedance||> 28 dB, > 35 dB typical (1 Hz to 50 MHz)|
|Receiver bandwidth - RBW (software selectable)||1 Hz, 3 Hz, 10 Hz, 30 Hz, 100 Hz, 300 Hz, 1 kHz, 3 kHz, 5 kHz|
|Noise floor (S21 measurement)
RBW = 10 Hz, PSOURCE = 13 dBm,
Attenuator CH1: 20dB, CH2: 0dB
|1 Hz to 10 kHz: -115 dB (typical)
10 kHz to 10 MHz: -125 dB (typical)
10 MHz to 50 MHz: -105 dB (typical)
|Input attenuators (software selectable)||0 dB, 10 dB, 20 dB, 30 dB, 40 dB|
|Input sensitivity / range||100 mVRMS full scale @ 0 dB input attenuator
10 VRMS full scale @ 40 dB input attenuator
|Input channels dynamic range||> 100 dB (@ 10 Hz RBW)|
|Gain error||< 0.1 dB (User-Range calibrated)|
|Phase error||< 0.5° (User-Range calibrated)|
|Characteristic||Minimum PC Configuration|
|Processor||Intel Core-I Dual-Core (or similar)|
|Memory (RAM)||2 GB, 4 GB recommended|
|Graphics resolution||Super VGA (1024x768)
higher resolution recommended
|Graphics card||DirectX 11 with Direct2D support|
|USB interface||USB 2.0 or higher|
|Operating system||Windows 7 SP1 or higher|
|AC/DC power adapter|
|Input voltage/frequency||100…240 V/47…63 Hz|
|DC power requirements|
|Input voltage range / power||+9…24 V / <10 W|
|Supply current||at 12 V: 580 mA (typical)
at 18 V: 390 mA (typical)
at 24 V: 290 mA (typical)
|Low supply voltage shut-down||8.25 V (typical)|
|Power connector / socket||Coaxial power socket
Inner diameter 2.5 mm
Outer diameter 5.5 mm
|Connector polarity||Inner connector ... positive
Outer connector ... ground
|For specifications||23ºC ± 5ºC/73ºF ± 18ºF|
|Relative humidity||Storage||20…90%, non-condensing|
|Dimensions (w × h × d):||26 x 5 x 26.5 cm
10.25 x 2 x 10.5 inch
|Weight - Bode 100:||< 2 kg/4.4 lb|
|Weight - Accessories:||< 0.5 kg/1.1 lb|
|DC supply voltage||+28V|
|DC supply reverse voltage (device doesn't work)||-28V|
|Maximum input signal at CH1 or CH2
(low impedance, 50 Ohm)
|1 W (= 7 VRMS)|
|Maximum AC input signal at CH1 or CH2
(high impedance, 1 MOhm)
|50 VRMS 1 Hz to 1 MHz
30 VRMS 1 MHz to 2 MHz
15 VRMS 2 MHz to 5 MHz
10 VRMS 5 MHz to 10 MHz
7 VRMS 10 MHz to 50 MHz
|Maximum DC input signal at CH1 or CH2
(high impedance, 1 MOhm)
|Maximum return power at the OUTPUT connector||0.5 W (= 5 VRMS)|
Technical Data - Bode 100 Revision 1
|Frequency Sweep Measurements
Bode Analyzer Suite makes frequency sweep measurements an easy task. Impedance, Reflection, Admittance, Group Delay, Gain and Phase can be measured from 1Hz to 50MHz. Define start frequency, stop frequency and number of points to generate linear or logarithmic frequency sweeps. Cursors help you to find resonance frequencies or zero crossings in the measured curves.
Smith, Polar and Nyquist Charts
Results can be displayed in various formats such as Magnitude, Magnitude (dB), Phase (rad), Phase (°), Real, Imaginary, etc... Besides normal x-y diagrams, Bode Analyzer Suite also offers Polar, Nyquist and Smith diagrams. All diagrams support full cursor and zooming functionality.
Fixed Frequency Measurements
Besides frequency sweep measurements Bode Analyzer Suite also offers fixed-frequency measurements. The result can be displayed in either cartesian or polar form. Series and parallel equivalent circuit parameters are calculated during measurement and updated immediately.
Use the one-click memory curves to display the change of your DUT in one single graph! Memory curves can be renamed and re-styled according to your needs. Cursors can be attached to a memory curve to read the values of the memory traces.
Use the startup screen to quickly set-up the Bode 100 according to your needs. All supported measurements are listed in the startup screen. To learn more about the measurements that can be performed with Bode 100, check out the next tab on this page...
Pre-defined measurement modes make measurements simpler and ensure correct device setup and connection setup. The Bode Analyzer Suite offers a high variety of measurement modes to perform Transmission/Reflection, Gain and Impedance measurements using the Bode 100.
Measure S-Parameters S11 and S21 in the 50 O domain or Gain with 1 MO impedance.
Measure Gain/Phase respectively voltage transfer function using two input ports. Input port impedance is software-selectable (1 MO or 50 O).
|External Coupler Measurement
Measure reflection/impedance using an external amplifier in conjunction with an external coupler.
|One-Port Impedance Measurement
Measure reflection/impedance of a one-port DUT connected to the output port of Bode 100.
|Impedance Adapter Measurement
Measure impedance of passive THT or SMD components using the impedance test fixtures B-WIC or B-SMC.
A measurement configuration very sensitive for low impedance values and therefore suitable to analyze low-impedance devices such as ESR of ceramic capacitors.
A measurement configuration very sensitive to high-impedance. Suitable for high-impedance measurements such as piezo-element characterization.
Voltage/Current equals Impedance. This setup is very flexible and especially suitable to measure input impedance and output impedance of active circuits such as DC/DC converters.
Configure Bode 100 according to your needs! The hardware setup helps you to configure the device hardware and connection setup correctly. You can switch the input impedance from 50 O to 1 MO and enter external probe factors or adjust the receiver attenuation/range.
|Reporting and Documentation
With the Bode Analyzer Suite it is easy for you to create a one-click pdf report on your measurement, including all relevant device settings and measurement curves. You can also copy and paste the diagrams directly into a word processor like Microsoft Office Word. Furthermore all measurement values can be exported to a .csv file or .xslx file for further processing in any spreadsheet application or math program. In addition Bode Analyzer Suite 3.0 or newer support direct Touchstone file export.
Note: You can save every measurement to a .bode3 file. It contains all measurement data, calibration and device settings for archiving and/or sharing measurements. Bode-files can be analyzed with the Bode Analyzer Suite even if no Bode 100 hardware is connected.
|Interactive User Interface
Bode Analyzer Suite features an interactive user interface with cursors and cursor grid that show cursor values and special calculation results. Use the cursors to find minima and maxima in the curves or any specific values.
All diagrams can be zoomed and optimized to automatically adjust the axis scaling to the measurement results.
|Gain and Impedance Calibration
You want to compensate the cables or the measurement setup? The Bode Analyzer Suite offers THRU calibration for the Gain/Phase measurements and OPEN SHORT LOAD calibration for impedance/reflection measurements. You can apply all necessary settings in the calibration window, the calibration state is shown graphically.
|Some measurements have to be repeated over and over again ...
... therefore we added an Automation Interface to the Bode 100 right from the beginning. Today many customers are already using this Application Programming Interface (API) to build automated measurement setups involving the Bode 100.
Bode 100 can be controlled from any COM (OLE controller) compliant programming language such as:
In addition there is a LabVIEW® instrument driver available for download from www.ni.com.
Bode Analyzer Suite 3.0 or newer features the latest Automation Interface version 3.X that comes with several new features and advantages.
The Automation Interface is included in the Bode Analyzer Suite installer. Check out the Bode 100 download area.
This page lists the evolution of the Bode Analyzer Suite from 2005 until today:
BAS 3.11 further improves BAS 3.00 and brings new features:
BAS v3.0 is a completely new Bode Analyzer Suite that brings the following improvements and new features:
V2.43 SR1 (2014-11-27)
V2.41 SR1 (2013-03)
V2.33 SR5 (2012-07)
V2.30 SR1 (2010-10)
All downloads for the Omicron-Lab Bode 100 are now available in our support section under the Bode 100 tab.
Copyright © 2018 Picotest. All rights reserved.