VT13081-2110F0L TOSHIBA 驱动器

品牌:TOSHIBA

P/ n:VT13081-2110F0L

目录描述:驱动器

原产地:美国

厦门雄霸提供VT13081-2110F0L等DCS/PLC,厦门雄霸珊妮为您报价,并提供一年保修服务。

VT13081-2110F0L质量高价格实惠有多种型号。

TOSHIBA VT13081-2110F0L
TOSHIBA P6522821P1
TOSHIBA TAS311-S

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产品详情

VT13081-2110F0L TOSHIBA 驱动器

购买咨询热线:18059884797 (微信同号)

QQ:3095989363

邮箱:sales@xiongbagk.cn

地 址:福建省漳州开发区南滨大道429号招商局芯云谷3号楼217-01

公司:厦门雄霸电子商务有限公司漳州分公司

VT13081-2110F0L采用有执行电机而没有负载的测试平台
这种测试系统由两部分组成,分别是被测伺服驱动器—电动机系统和上位机。上位机将速度指令信号发送给伺服驱动器,伺服驱动器按照指令开始运行。在运行过程中,上位机和数据采集电路采集伺服系统的运行数据,并对数据进行保存、分析与显示。由于这种测试系统中电机不带负载,所以与前面两种测试系统相比,该系统体积相对减小,而且系统的测量和控制电路也比较简单,但是这也使得该系统不能模拟伺服驱动器的实际运行情况。通常情况下,此类测试系统仅用于被测系统在空载情况下的转速和角位移的测试,而不能对伺服驱动器进行全面而准确的测试。
VT13081-2110F0L采用执行电机拖动固有负载的测试平台
这种测试系统由三部分组成,分别是被测伺服驱动器—电动机系统、系统固有负载及上位机。上位机将速度指令信号发送给伺服驱动器,伺服系统按照指令开始运行。在运行过程中,上位机和数据采集电路采集伺服系统的运行数据,并对数据进行保存、分析与显示。 
对于这种测试系统,负载采用被测系统的固有负载,因此测试过程贴近于伺服驱动器的实际工作情况,测试结果比较准确。但由于有的被测系统的固有负载不方便从装备上移走,因此测试过程只能在装备上进行,不是很方便。
VT13081-2110F0L采用在线测试方法的测试平台
这种测试系统只有数据采集系统和数据处理单元。数字采集系统将伺服驱动器在装备中的实时运行状态信号进行采集和调理,然后送给数据处理单元供其进行处理和分析,最终由数据处理单元做出测试结论。由于采用在线测试方法,因此这种测试系统结构比较简单,而且不用将伺服驱动器从装备中分离出来,使测试更加便利。此类测试系统完全根据伺服驱动器在实际运行中进行测试,因此测试结论更加贴近实际情况。但是由于许多伺服驱动器在制造和装配方面的特点,此类测试系统中的各种传感器及信号测量元件的安装位置很难选择。而且装备中的其它部分如果出现故障,也会给伺服驱动器的工作状态造成不良影响,最终影响其测试结果。

VT13081-2110F0L adopts the test platform with actuator motor and no load.
This test system consists of two parts, namely the servo driver-motor system to be tested and the upper computer. The upper computer sends the speed instruction signal to the servo driver, and the servo driver starts to run according to the instruction. During the running process, the upper computer and the data acquisition circuit collect the running data of the servo system, and store, analyze and display the data. Because the motor in this test system has no load, compared with the previous two test systems, the volume of the system is relatively reduced, and the measurement and control circuit of the system is relatively simple, but this also makes the system unable to simulate the actual operation of the servo driver. Generally, this kind of test system is only used to test the rotational speed and angular displacement of the tested system under no-load condition, but can’t fully and accurately test the servo driver.
VT13081-2110F0L adopts the test platform for carrying out the inherent load of motor dragging.
This test system consists of three parts, namely the servo driver-motor system to be tested, the inherent load of the system and the upper computer. The upper computer sends the speed instruction signal to the servo driver, and the servo system starts to run according to the instruction. During the running process, the upper computer and the data acquisition circuit collect the running data of the servo system, and store, analyze and display the data.
For this test system, the load is the inherent load of the tested system, so the test process is close to the actual working condition of the servo driver, and the test result is more accurate. However, because the inherent load of some tested systems is inconvenient to remove from the equipment, the testing process can only be carried out on the equipment, which is not very convenient.
VT13081-2110F0L Test Platform Using Online Test Method
This test system only has data acquisition system and data processing unit. The digital acquisition system collects and conditions the real-time running state signals of servo drivers in the equipment, and then sends them to the data processing unit for processing and analysis, and finally the data processing unit makes a test conclusion. Because the online test method is adopted, the structure of this test system is relatively simple, and it is not necessary to separate the servo driver from the equipment, which makes the test more convenient. This kind of test system is tested completely according to the servo driver in actual operation, so the test conclusion is closer to the actual situation. However, due to the characteristics of many servo drivers in manufacturing and assembly, it is difficult to choose the installation positions of various sensors and signal measuring elements in this kind of test system. Moreover, if other parts of the equipment fail, it will also adversely affect the working state of the servo driver, and ultimately affect its test results.

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