OMICRON-Lab
OMICRON Lab Bode 100 Vector Network Analyser (VNA)
OMICRON Lab Bode 100 Vector Network Analyser (VNA)
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Key Features
- Ideal for testing and developing SMPS
- Suitable for component characterisation.
- VNA & FRA in one device
- Easy data processing and data sharing
- Lightweight and portable hardware design without active cooling (silent lab)
- Automation Interface (API) for automated measurements
- Unbeatable price-performance ratio
Overview
Revolutionise Your Measurements
Discover an instrument that redefines versatility in the realm of test and measurement. Introducing the Bode-100, the essential tool you never knew you needed until now. Offering unparalleled performance in a compact form factor, this instrument promises to elevate the quality, precision, and efficiency of your work.
Unmatched Versatility
- Vector Network Analyser (VNA)
- Frequency Response Analyser
- Gain/Phase Meter
- Impedance Analyser
Deep Dive Into Features
The Omicron-Lab Bode-100 doesn't just stop at multifunctionality. Dive deeper into the extensive features it brings to the table:
- Sinusoidal Signal Generation: Precisely measures the response of your device under test (DUT) by generating sinusoidal signals across varied frequencies.
- Diverse Measurement Modes: From transmission/reflection, gain, and impedance measurements, choose the mode that best fits your needs.
- Complex Analysis: Measure active and passive circuits' complex gain, impedance, and admittance.
- S-Parameter Sweep: Analyse the swept S-parameters of electronic circuits and filters easily.
- Group Delay Characteristics: Understanding signal delay in your circuits is made simpler.
Ready to Elevate Your Testing Game?
Make sure to integrate the future of test and measurement instruments into your lab. Order your Bode-100 today!
Packages:
Standard
- Bode 100 instrument with calibration certificate
- Bode Analyzer Suite - Software for Windows PC - on DVD
- Printed Quick-Start Guide
- Wide-range AC power adapter (18 W)
- USB-A to USB-B cable
- BNC straight adapter (f-f)
- BNC T connection (f-f-f)
- BNC 50 Ω load (m)
- BNC short (m)
- 4x 0.5m BNC cable (m-m)
- Test objects on PCB (Quartz-filter and IF-filter)
Basic
- Bode 100 instrument with calibration certificate
- Bode Analyzer Suite - Software for Windows PC - on DVD
- Printed Quick-Start Guide
- Wide-range AC power adapter (18 W)
Educational
1x Bode 100 - Vector Network Analyzer
1x B-WIT 100 - Wideband Injection Transformer
1x B-WIC - Impedance Test Fixture
2x PML 111O High Impedance Passive Probe 10:1
1x Carry Case for Bode 100 / 500
*For educational customers only
The Bode 100 is the professional solution to perform accurate and fast frequency sweep measurements from 1 Hz to 50 MHz, essential for power supply design and stable loop operation.
The dedicated hardware offers fast sweep performance together with unsurpassed noise rejection allowing high-dynamic range measurements not only on passive components and linear regulators but also on switching converters.
Together with the Bode Analyzer Suite the Bode 100 is the perfect choice to equip your design lab.
It enables you to analyze systems, control loops, electronic components and much more at a great price-performance ratio. The Bode 100 does not only offer frequency response analysis (FRA) but also vector network analysis (VNA) & impedance analyzer capabilities. Equip yourself and become a happy Bode-User!
Power Electronics Design & Analysis
Measuring a transfer function via frequency response analysis is a powerful method for the design of electronic systems such as compensators for switching converters or voltage regulators. The Bode 100 hardware and software are optimized for loop and impedance measurements, stability analysis and much more. Have a look at the following main applications in power electronics to find out how the Bode 100 can support you in your design process:
Loop Gain (Phase Margin & Gain Margin)
One of the most important steps when characterising or designing the control loop for a power converter. The Bode 100 offers high side-band rejection and a high dynamic range at an unbeatable measurement speed. Perform loop-response measurements within seconds to fully characterise your control loop at various operating points and conditions. Check out how quick and simple stability measurements can be and have a look at our Application Note.
Companion Power Supply Design Software for Bode 100
Working in perfect harmony with Biricha's WDS automated power supply design software, Bode 100 helps to greatly reduce the development time and cost of your power supplies. Use WDS to design stable analog and digitally controlled power supplies in minutes!
The WDS power supply design software from Biricha simplifies power supply design and includes automatic pole-zero placement for optimum compensation. Besides the included topologies such as Buck, Boost, Buck-Boost, Flyback, SEPIC, Full bridge, Half bridge and forward converters, WDS now features the possibility to import a measured plant transfer function from the Bode 100 to design a stable compensator. Check out this webinar from Dr. Ali Shirsavar to learn more about this simple and innovative solution.
Output Impedance (Non-Invasive Stability Measurement)
The output impedance plot contains information about the stability of the feedback loop as well as information about the decoupling network. Use the NISM (Non-Invasive Stability Measurement) method to derive the phase margin from a single output impedance measurement. Check out this Application Note to learn how to perform this simple and fast measurement. Check out the Picotest accessories for simplified power integrity measurements.
Input Impedance & Filter Stability
The negative input resistance of a DC/DC converter can lead to oscillations when using an undamped input filter. The Bode 100 provides the possibility to check the input impedance of the converter as well as the impedance spectrum of the filter that could lead to instability problems at resonance. Check out the Application Note on input filter stability to find out more.
Component Impedance Plot
The impedance plot of electronic components provide a deep insight into the AC properties such as capacitor ESR, transformer leakage, AC resistance of windings, self-resonance frequency of inductors and transformers, inductance of shunt-resistors, winding capacitance of transformers etc. Use the Bode 100 to perform fast and accurate impedance measurements from 1 Hz to 50 MHz. Check out our webinar to learn more about the power of the Bode 100 when used as an impedance analyzer.
Power Supply Rejection Ratio (PSRR)
The power supply rejection ratio, also known as power supply ripple rejection, provides information on how well line-disturbances are rejected at the output. This information is especially useful for low-noise supplies and linear regulators. Check out this Application Note to learn how to perform a PSRR measurement.