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Use cases of E5061B

Category: Blog

Category: FAQ

Release time: 2025-05-14

E5061B Network Analyzer's Excellent Performance

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Wide Frequency Range Coverage

The E5061B boasts a remarkable frequency range, extending from as low as 5Hz all the way up to 3GHz. This broad frequency span enables it to cover various application scenarios, from low frequency to high frequency. Compared to many similar products, it not only effectively supports common RF applications such as filter and amplifier measurements, but also delves into the low-frequency domain to perform tasks like DC-to-DC converter loop gain measurements. This means that researchers and engineers in the lab can test various circuits and components within the near-DC to 3GHz frequency range with just one E5061B instrument, eliminating the need to purchase additional dedicated low-frequency measurement instruments that only operate in the MHz range, greatly enhancing the instrument's versatility and efficiency. Throughout the entire measurement frequency range, the E5061B also features a wide dynamic range, ensuring precise measurements can be performed at every required test frequency point, providing reliable data support for experiments and production.

Diverse and Precise Measurement Functions

It offers a rich variety of professional and precise measurement functions. It can serve as a transmission/reflection test set or an S-parameter test set, capable of meeting stringent demands for relevant parameter measurements in various scenarios. Its special measurement options are also highly noteworthy, such as the built-in 1MΩ input for gain-phase measurements, which plays a crucial role in both low-frequency and high-frequency applications. In numerous measurement application scenarios, from low-frequency to high-frequency, such as DC-DC converters, power distribution networks (PDN), filters, amplifiers, MRI coils (magnetic resonance), BTS filters, antennas, cable measurements, impedance analysis, and RFID components, the E5061B can excel with its diverse measurement capabilities, fully demonstrating its comprehensiveness and professionalism, providing solid and reliable technical assurance for various complex measurement tasks.

High Precision and Stability

In terms of precision, the E5061B exhibits outstanding performance. During the measurement process, the instrument's drift and frequency can be maintained with extreme accuracy, minimizing errors caused by internal factors. More importantly, users can selectively and significantly improve measurement accuracy through specific operations or configurations, according to the actual measurement requirements and precision standards. Whether for demanding scientific research projects or in industrial production testing with strict accuracy standards, the E5061B can ensure the reliability and trustworthiness of measurement results with this high-precision feature, becoming a powerful assistant in research and production processes.

Function Integration and Flexible Configuration

A significant highlight of this product is its ability to cleverly integrate two crucial functions—network analysis and impedance analysis—into a single instrument. For users, this integration greatly enhances the instrument's flexibility and practicality. They can conveniently customize the instrument's settings according to their different application needs, allowing it to better adapt to various complex and changeable real-world scenarios. For example, in the development of electronic devices, there is often a need for both in-depth analysis of network characteristics and precise measurement of impedance parameters. Previously, this required using multiple different instruments for separate operations, which was not only time-consuming and laborious but also potentially led to issues with the correlation and accuracy of data measured by different instruments. With the E5061B, all these tasks can be easily completed with just one instrument, not only saving a significant amount of time and valuable space but, more importantly, ensuring that measurement data is acquired under the same environment and instrument conditions, effectively improving data quality and reliability, and providing strong data support and assurance for the smooth progress of the entire R&D project.

Rich Options to Meet Diverse Needs

Keysight provides a rich variety of test set options for the E5061B, allowing users to flexibly choose the most suitable configuration based on their actual testing needs. For example, options with frequency ranges from 100kHz to 1.5GHz/3GHz are available, featuring 2 ports, and system impedance of 50 or 75Ω, usable as transmission/reflection or S-parameter test sets. If users are primarily engaged in conventional RF application testing, such as filter or amplifier measurements, these options, with their suitable frequency range and parameter configuration, can accurately obtain relevant test data to meet daily testing requirements. For test scenarios involving low-frequency applications, such as DC-to-DC converter loop gain measurements, the E5061B can also handle them through specific options, providing reliable support for low-frequency testing, avoiding the need for additional dedicated low-frequency measurement instruments that only operate in the MHz range, thereby significantly saving costs and space, and improving the instrument's cost-effectiveness and ease of use.

Wide Application Scenarios of E5061B Network Analyzer

Wireless Communication Field

In the wireless communication industry, the E5061B plays an indispensable role. It can be used to test and optimize the performance of core equipment such as base stations, routers, and switches. Taking base stations as an example, the performance of key components like filters and antennas directly affects the communication network's coverage, signal strength, and stability. The E5061B can accurately measure these components; by analyzing their network characteristics and impedance parameters, engineers can gain a deep understanding of their performance status, and then perform targeted optimization and adjustment of base station equipment, ensuring the communication network operates stably and efficiently. In the construction of 5G communication networks, the performance requirements for base station equipment are even more stringent. With its wide frequency range and high-precision measurement capabilities, the E5061B can perform comprehensive tests on new types of filters, high-gain antennas, and other components in 5G base stations, providing strong technical assurance for the large-scale deployment and stable operation of 5G networks.

Aerospace and Defense Field

In the aerospace and defense fields, the application of E5061B is crucial. In various aerospace equipment, the performance of electronic components directly relates to the equipment's reliability and safety. The E5061B can be used to rigorously test these electronic components, ensuring they function normally even in complex flight environments and extreme conditions. In terms of military communications and radar systems, the E5061B can assist in signal analysis and equipment performance evaluation. By analyzing the accuracy and performance of radar signal processing algorithms, engineers can further enhance radar detection capabilities and anti-interference abilities, providing solid technical support for national defense security. In the research and development and testing of satellite communication equipment, the E5061B can precisely measure components such as satellite communication antennas and RF circuits, ensuring stable and reliable communication between satellites and ground stations.

Computer Industry

In the computer industry, the E5061B also has a wide range of applications. Whether it is the performance testing of various electronic components on computer motherboards or the quality inspection of related network communication modules, the E5061B can play a key role with its high precision and wide frequency range. In the production process of computer motherboards, various chips, resistors, capacitors, and other components on the motherboard need to be rigorously tested to ensure that they meet the design requirements. The E5061B can accurately measure parameters such as the impedance and transmission characteristics of these components, promptly identify potential quality problems, and ensure the stability and reliability of the motherboard. For computer network communication modules, such as wireless network cards and Ethernet controllers, the E5061B can test key indicators such as signal transmission performance and anti-interference capabilities, providing strong support for improving computer network communication quality.

Medical Field

In the medical field, the E5061B provides important safeguards for the research and development and quality control of medical equipment. Taking MRI equipment as an example, the MRI coil is one of its core components, and its performance directly affects the quality and accuracy of imaging. The E5061B can accurately measure the MRI coil, analyze its network characteristics and impedance parameters, optimize the design and performance of the coil, improve the imaging resolution and clarity of the MRI equipment, and provide doctors with more accurate diagnostic basis. For other medical electronic equipment, such as electrocardiographs and ultrasound diagnostic instruments, the E5061B can test the internal electronic circuits and radio frequency components to ensure the safety and reliability of the equipment and protect the lives and health of patients.

Automotive Industry

With the development of automotive intelligence and electrification, the status of automotive electronic systems in automobiles is becoming increasingly important. The E5061B can be used in the design and testing of automotive electronic systems, covering multiple aspects such as car audio, navigation systems, radar systems, and battery management systems for electric vehicles. In the research and development of car audio systems, the E5061B can measure the frequency response and impedance curves of audio devices such as speakers and microphones, optimize the sound quality of the audio system, and provide drivers and passengers with a better auditory experience. For automotive radar systems, the E5061B can test the performance of radar sensors to ensure that they can accurately detect obstacles in different environments, improving vehicle driving safety. In the battery management system of electric vehicles, the E5061B can analyze the impedance characteristics of the battery to provide important data support for battery charging and discharging control and life prediction.

Education and Research

In educational institutions, the E5061B can be used as high-quality teaching equipment for majors such as electronic engineering and communication engineering, helping students better master basic electronic measurement techniques. Through hands-on operation of the E5061B, students can intuitively understand the principles and methods of network analysis, improving their practical hands-on ability and ability to solve practical problems. In research institutions, the E5061B is even more of a powerful assistant for various scientific experiments and research projects. In electromagnetic compatibility testing, it can analyze the performance of electronic equipment in complex electromagnetic environments, providing data support for improving the electromagnetic compatibility of equipment. In the development process of wireless communication protocols, the E5061B can test and verify the performance of communication equipment, promoting continuous innovation and development of wireless communication technology.

Power Electronics

In the field of power electronics, the E5061B plays a key role in power integrity (PI) and signal integrity (SI) analysis. Taking the power distribution network (PDN) as an example, the impedance characteristics of the PDN are crucial to the stability of the power supply and the normal operation of the system. The E5061B, using its low-frequency measurement capabilities (1Hz - 100MHz), can thoroughly analyze the resonance characteristics of the PCB power plane, helping engineers optimize the design of the PDN, reduce power noise, and improve system stability. In the design and testing of DC-DC converters, the E5061B can measure the feedback loop characteristics such as loop gain, phase margin, and gain margin to ensure that the converter can operate efficiently and stably. For high-frequency power electronic devices such as power amplifiers and filters, the E5061B can also accurately measure performance indicators such as S parameters and impedance, providing strong data support for the optimized design of power electronic systems.

Radio Frequency Component Manufacturing

In the radio frequency component manufacturing industry, the E5061B is an important testing device in the production process. For filter production, whether it is a small filter used for mobile phone communication or a large filter used for base stations, the E5061B can accurately verify key performance indicators such as insertion loss and return loss of the filter in the frequency range of 1GHz - 3GHz or even wider, ensuring that the filter performance meets the design requirements and improving product yield. In the manufacturing process of amplifiers, the E5061B, with its wide frequency range and high-precision measurement capabilities, can comprehensively test parameters such as gain, linearity, and noise figure of the amplifier, helping manufacturers optimize production processes and improve product quality. For antennas, inductors, capacitors, and other radio frequency components, the E5061B can also provide accurate parameter measurements, providing reliable technical support for the manufacturing and quality control of radio frequency components.
 

Key word: Use cases of E5061B

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