Sanko RF
BNA1000 SERIES
MODULAR VECTOR NETWORK ANALYZER
- The BNA1000 Series Vector Network Analyzer greatly assists engineers in their work by providing advanced RF testing capabilities.
- The wide frequency range, high dynamic range, low trace noise and fast measurement speed provide accurate results for tasks such as research and development.
- The VNA’s effective versatility and compact size make it suitable for on-site measurements.
- The open interface encourages innovation by allowing engineers to customize the device for specific projects.
- Support for the VISA protocol enables easy integration into existing systems, saving time in workflow.
- Offering professional-grade performance at a cost-effective price, the BN900 is a valuable tool for engineers in a variety of fields, helping them to efficiently obtain accurate measurements, contributing to overall productivity.
- Modular Vector Network Analyzer
*The product model was formerly known as BN900.
Product Features
Options
Documents
Applications
Product Features
Frequency Range : 300KHz – 6.5GHz/8.5GHz
Output Power Range : -50dBm to +10dBm
Measurement parameters: S11 to S44
Measurement point per sweep : 2 to 20001
Dynamic range : >125dB @ IFBW=10Hz,typ. 130dB
Low Trace Noise : 2mdB rms @ IFBW=3 kHz
Measurement Speed : 42µs/point @ IFBW=500kHz
Support :Standard VISA Protocol
Options
Frequency Options
300KHz – 6.5GHz
300KHz – 8.5GHz
Documents
Applications
Telecommunications
- Testing and optimizing the performance of antennas, filters and amplifiers in communication networks. Ensuring the efficiency of cellular base station antennas to improve signal coverage and quality.
Energy
- Analysis and optimization of RF components in wireless power transmission systems and smart grids. Ensuring the efficiency of wireless charging systems for electric vehicles.
Aviation and Defense
- Verifying the functionality of radar systems, antennas and communication devices in military and aerospace applications. Testing the radar cross-section of an aircraft using a VNA to optimize stealth capabilities.
Research and Academia
- Conducting experiments and research in RF and microwave engineering, investigating the properties of new RF materials for use in communication systems. Education Software Solutions
Medical Devices
- Analyzing and designing RF components in medical devices such as MRI machines and wireless medical sensors. Ensuring the accuracy and reliability of RF components in a medical imaging device.
Production Quality Control
- Ensuring the quality and performance of RF components throughout the manufacturing process. Verify the specifications of RF filters produced in a manufacturing facility.
Automotive
- Testing and optimizing the performance of RF components in automotive communication systems and sensors. Analyzing the signal integrity of radar sensors for collision avoidance systems.
Internet of Things (IoT)
- Analyze and optimize the RF performance of devices in IoT networks. Test the communication range and reliability of sensors in a smart home system.
- Consumer Electronics
- Verify the performance of RF components in devices such as smartphones, Wi-Fi routers and Bluetooth devices. Optimize the antenna design on a smartphone to ensure reliable wireless connectivity.