"vibration control system"
イーサネット接続振動コントローラー FFT PSD 時間域 JQTV-9002
JQTV-9002 Vibration Controller Maintenance and Operation Guide Technical Specifications Attribute Value Signal Analysis Features FFT, PSD, Time Domain Signal Type Vibration Signal Sampling Rate 100kHz Signal Processing Type Digital Vibration Signal Source Software Signal Recording Features Continuous, Triggered, Pre-trigger Signal Output Format CSV, Excel, Matlab Signal Output Type Analog Signal Processing Features Filtering, Averaging, Peak Detection Signal Amplitude Range 0
100kHz振動制御器 シヌステスト ランダムテスト クラシックショック RSTD
Vibration Controller for Vibration Test System Professional-grade vibration controller supporting sine test, random test, classical shock, and RSTD (Resonance Search and Tracked Dwell) applications. Key Features 1-2 analog input channels with 24-bit resolution 1 drive channel with 24-bit DAC 450MHz DSP processing for real-time control 100 Mbps Ethernet connectivity Wide operating temperature range (-30°C to 70°C) Fanless design for reduced background noise 160 dB/Octave anti
JQTV-9002 0-20kHz 振動コントローラーソフトウェア 振動制御システム
JQTV-9002 Vibration Controller Application Notes Technical Specifications Attribute Value Signal Analysis Features FFT, PSD, Time Domain Signal Type Vibration Signal Sampling Rate 100kHz Signal Processing Type Digital Vibration Signal Source Software Signal Recording Features Continuous, Triggered, Pre-trigger Signal Output Format CSV, Excel, Matlab Signal Output Type Analog Signal Processing Features Filtering, Averaging, Peak Detection Signal Amplitude Range 0-10V Signal
RSTD デジタル振動コントローラー 正弦波試験 ランダム試験 クラシック衝撃
Sine Test Random Test Classic Shock RSTD Vibration Controller The JQVT-9008 series of digital vibration controllers are cost-effective controllers that provide efficient solutions for 2-channel to multi-channel data acquisition and signal analysis. The series of controllers use international advanced DSP framework and algorithm, 32-bit floating point 450 MHz DSP processor, high performance 24-bit ADC, up to 135dB dynamic range, ensuring data acquisition accuracy. The
マルチチャンネルデータ収集と信号解析用DSP振動コントローラ100kHz
The JQVT-9000 series of digital vibration controllers are cost-effective controllers that provide efficient solutions for 2-channel to multi-channel data acquisition and signal analysis. The series of controllers use international advanced DSP framework and algorithm, 32-bit floating point 450 MHz DSP processor, high performance 24-bit ADC, up to 135dB dynamic range, ensuring data acquisition accuracy. The controller and the host computer are connected via a high-speed
広帯域周波数応答振動制御およびシミュレーション用空冷式振動試験台
Application Electrodynamic Vibration Test Table: composed of Vibration Table Body, Power Amplifier, Horizontal Slide Table, Head Expander Table, Vibration Controller, Accelerometer, etc., It can be divided into air-cooled type and water-cooled type Vibration Test Table . It is a necessary tool for design, development, production, quality control and quality assurance of modern products. It is different from ordinary vibration table. The electromagnetic vibration table is
デジタル振動試験テーブル 精度振動周波数調整と振幅制御
Vibration Table Performance Testing Precision vibration frequency adjustment and amplitude control guarantee consistent test results every time. Product Specifications Attribute Value Signal Analysis Features FFT, PSD, Time Domain Signal Type Vibration Signal Sampling Rate 100kHz Signal Processing Type Digital Vibration Signal Source Software Signal Recording Features Continuous, Triggered, Pre-trigger Signal Output Format CSV, Excel, Matlab Signal Output Type Analog Signal
広帯域周波数特性を備えたラボ振動試験台用パワーアンプ
Power Amplifier for Vibration Test Table A power amplifier is a crucial component in a vibration test system, responsible for amplifying the control signal from the vibration controller to drive the vibration shaker. It converts a low-power electrical signal into a higher-power signal needed to move the shaker and generate the desired vibration. Role of the Power Amplifier The vibration controller generates a small analog signal that specifies the frequency and amplitude of
100kHz振動幅と周波数をテストするためのカスタマイズ可能な振動表
Customizable Vibration Tables Tailor vibration amplitude and frequency to suit testing environments with precision control. Product Specifications Attribute Value Signal Analysis Features FFT, PSD, Time Domain Signal Type Vibration Signal Sampling Rate 100kHz Signal Processing Type Digital Vibration Signal Source Software Signal Recording Features Continuous, Triggered, Pre-trigger Signal Output Format CSV, Excel, Matlab Signal Output Type Analog Signal Processing Features
モジュラー振動試験アンプ 高性能 シェーカー制御用
Power Amplifier for Vibration Test Table In vibration testing systems, the power amplifier supplies the power to drive the electrodynamic shaker. The vibration controller outputs a simple analog signal that describes the amplitude and frequency of the vibration profile in terms of a rapidly varying voltage. This voltage signal cannot drive the shaker, so the power amplifier converts it to a high-level actuator current that can. Without this device, the control loop would
Vibration Test Table for Real-World Vibration Environment Simulation and Product Reliability Verification for Multible Application
Vibration Testing Equipment The Vibration Test System is to simulate real-world vibration environments, verifying the reliability and durability of products. Its structure is modular, functions are scenario-specific, and advantages lie in high simulation accuracy and risk prevention. 1. System Structure (4 Core Modules) The system is composed of hardware and software, with clear division of labor and close coordination. Vibration Excitation Module: The "power source" of
500 kg 負荷容量振動試験テーブル,空気冷却と 2 4 8 16 チャネル,正確な振動分析
Product Description: The Vibration Test Table is a state-of-the-art High Frequency Vibration Test Machine designed to deliver exceptional performance and reliability for a wide range of industrial and scientific applications. Engineered with precision and durability in mind, this Precision Vibration Testing Table offers unmatched capabilities that meet the rigorous demands of modern testing environments. It is ideal for testing the durability and resilience of components,
