冷连接和可选线性化,获得精确测量结果
QuantumX MX1609KB 和 QuantumX MX1609TB: 用于高动态温度测量,每个通道最高 600 Hz
QuantumX MX1609KB 和 MX1609TB 热偶模块 精度高达± 0.5 K,极短的响应时间,是研究和开发应用中动态测量任务的理想选择。带有16个电隔离、自由扩展的通道,可获得作业设置的多维图像,例如用于复杂的气候模型。
这些设备可通过以太网和火线轻松地连接到现有系统,完美地集成到 QuantumX中。MX1609KB 适用于K型热偶,用于测量-100和+1300°C之间的温度。MX1609TB适用于 T型热偶,尤其在-50到+200°C 之间具有优异的线性,提供更精确的测量结果,极具性价比。对于在电气环境中更具挑战性的测量任务,我们推荐使用 QuantumX MX809B 电隔离热偶模块。
- 精度等级: 高达 ± 0.5 K
- 采样率: 高达 600 Hz 每通道
- 测量输入: 迷你热偶 K型 (绿) 或 T 型(褐)
高精度
- 极高精度, 精度高达 ± 0.5 K
- 信号调理优化,每个插头直接带有冷连接
- 电隔离通道,抗干扰
- 低噪声和有源低通滤波(贝塞尔,巴特沃斯)
- ISO 10012 工作标准校准证书存储在模块中
- 根据需求,可提供 DAkkS证书(ISO 17025)
用于复杂测量任务
- 高动态温度测量,快速响应
- 16个单独通道,获取多维测量结果
- 每通道采样率 600 Hz,获取详细结果
16 个可独立配置通道,获取多维测量结果
容易集成
- 通过 catman软件,完美集成到 QuantumX 系列中
- 通过以太网或火线连接
- 可通过 CAN FD、EtherCAT 或 PROFINET 协议实时集成
连接和集成方便,易于使用
采用热电偶进行智能精确测温
集成RFID芯片或 “无线TEDS”的微型热偶插头。
技术资料
主题/描述 | 语言 | 产品 | 语言 | 内容类型 |
---|---|---|---|---|
技术参数表 | ||||
QuantumX MX1609KB - 数据表 | Chinese | |||
QuantumX MX1609KB - Data Sheet | English | |||
QuantumX MX1609KB - Datenblatt | German | |||
QuantumX MX1609KB - データシート | Japanese | |||
QuantumX MX1609TB - 数据表 | Chinese | |||
QuantumX MX1609TB - Data Sheet | English | |||
QuantumX MX1609TB - Datenblatt | German | |||
QuantumX MX1609TB - データシート | Japanese | |||
选型手册 | ||||
QuantumX - 小冊 | Chinese | |||
QuantumX - Brochure | English | |||
QuantumX - Brochure (US-Version) | English (US) | |||
QuantumX - Broschüre | German | |||
QuantumX - Folheto | Portuguese | |||
QuantumX - ブローシャー | Japanese | |||
操作手册 | ||||
HBM Common API - User Manual | English | |||
HBM LabVIEW Driver - User Manual | English | |||
QuantumX - 操作說明 | Chinese | |||
QuantumX - 設置マニュアル | Japanese | |||
QuantumX - Bedienungsanleitung | German | |||
QuantumX - Operating Manual | English | |||
QuantumX CANape Driver - Operating Manual | English, German | |||
QuantumX CANbus - Operating Manual | English, German | |||
附件 | ||||
QuantumX / SomatXR - Uninterruptible Power Supply - Data Sheet | English | |||
QuantumX / SomatXR - Unterbrechungsfreie Stromversorgung - Datenblatt | German | |||
QuantumX BPX001/BPX002/BPX003 Backplane - Information | English, German | |||
QuantumX BPX002-SIDE Desktop-Kit – Information | English, German | |||
QuantumX case clips (CASECLIP) - Istruzioni di montaggio | Italian | |||
QuantumX case clips (CASECLIP) - Mounting Instructions | English | |||
QuantumX Portamoduli BPX001 - Informativa | Italian | |||
Declaration of Conformity | ||||
1-KAB, K-KAB (cable)- 符合性聲明 | 多语言 | |||
QuantumX - EU Declaration of Conformity | 多语言 | |||
QuantumX - Product Type Pattern Approval Russia 2012 | Russian | |||
QuantumX - Product-Type Pattern Approval Russia 2017 | Russian | |||
Tech Notes | ||||
TECH NOTE - Highly Accurate and Dynamic Temperature Measurement With Thermocouples
This TECH NOTE describes typical requirements and its solution for highly accurate and dynamic temperature measurement using thermocouples in research and development and state off the art measurement technology from HBM achieving absolute temperature accuracy of +/- 0,5 K with data rates up to 500 Hz per channel. | English | |||
TECH NOTE - Analog to Digital Data Path in QuantumX Modules
This TECH NOTE describes in general the digitalization path in QuantumX data acquisition modules, explaining anti-aliasing filter, analog to digital conversion, digital filtering, scaling, datarate and distribution of data within the data acquisition system or to a data sink whether this is a storage medium or gateway. | 多语言 | |||
TECH NOTE - IEEE1588:2008 Precision Time Protocol in Data Acquisition and Testing
This TECH NOTE explains the highly accurate time sync mechanism Precision Time Protocol or short PTP, its advantages and its use in Test & Measurement applications. | 多语言 | |||
TECH NOTE - IEEE1588:2008 PTPv2-Switches and Grandmaster Clocks
This TECH NOTE shows available and tested PTP components together with HBM equipment and can be used as reference source giving you some recommendations. | 多语言 | |||
TECH NOTE: Using WLAN in large scale measurement and telemetry applications
This Tech Note describes why WLAN is one of the most suitable wireless network technologies for large scale measurement and telemetry applications. It will show its potential, advantages and challenges, as well as how it’s already used in real life applications. | English | |||