滿足當前,備戰未來
確保基本精度為 *0.03%
10MS/s, 1MHz 功率帶寬, 由Yokogawa isoPRO™光纖隔離技術支持的18位A/D分辨率
一臺儀器可同時分析7相功率,實時產生超過1000個功率參數
創新的對稱同軸分流設計確保精確的電流測量
*基本功率精度
精準、靈活、自信,不斷創新
具有7個插槽,用戶可更換功率單元
多臺同步可實現大型多相系統測量
可同時測量4臺電機的轉速和扭矩**
通過可配置的高級濾波隔離和測量諧波損耗,同時進行寬帶和諧波功率分析
**可配置為輔助輸入
輕松實現精準測量
10.1英寸靜電電容式觸摸屏
菜單設計直觀、簡易
模塊化互連設計將安全放在
的精確度
WT5000作為世界上精度的精度功率分析儀,確保基本精度為±0.03%,且在選定電壓和電流量程的1%~130%范圍都能夠保證精度。 WT5000最小化了低功率因數的影響(視在功率的0.02%),也能精確測量較大的相移與頻率。
交流功率精度:讀數的0.01%+量程的0.02%
直流功率精度:讀數的0.02%+量程的0.05%
10 MS/s 18 bit ADC
多通道測量
測量支持多達7個不同的功率相,采樣速率達到10MS/s(18bit)。 10.1英寸的WXGA顯示器具有高分辨率,允許多達7組的分屏波形顯示,能顯示多至12頁測量參數,是效率測試的理想之選,適用于變頻器驅動的電機、可再生能源技術以及諸如泵、風扇和電動車輛之類的牽引測量。測量數據還會即時以矢量格式或趨勢圖顯示。
Current sensor module with DC power supply
Use of the internal DC power supply for AC/DC current sensors simplifies the preparations before measurement and the measurement setup only requires the current sensor and a connecting cable. Using an external DC power supply and additional wiring is no longer required. There are three sensor connection cable lengths available; i.e., 3 m, 5 m, and 10 m.
*Firmware version 3.01 or later is required.
760903 Current Sensor Element
Example of connection to CT1000A
直觀的操作
WT5000支持獨立的觸屏和硬件按鍵操作,流暢直觀的體驗讓連接、配置和測量比以往更簡單。 10.1英寸的WXGA觸屏即使在電機和變頻器等高噪音環境中依然保持優秀的抗干擾能力。
Additional Touch Operations
The operability of the touch panel has been improved. "Time / div" can be set by pinch / out. Also, you can flick the waveform display contents.
高級濾波
除了低通頻率濾波器和線路濾波器, WT5000還具備高級濾波功能,提供的控制來精確分析最復雜的波形。
同步源濾波器:與過零點同步方式不同,用戶可以選擇同步源信號的任意點。
增強的頻率濾波器:允許用戶同時測量基波和開關頻率,而不會影響其他參數。
數字并行濾波器:一個高頻抗混疊濾波器和兩個獨立的線路濾波器協力確保正常測量和諧波測量的精確度,并且不會導致寬帶和諧波測量混疊。用戶能夠限制諧波次數,消除低帶寬測量的衰減。
的諧波分析
評估和對比變頻器、電機或功率調節器高達500次的輸入輸出諧波。 WT5000讓用戶不僅能同時測量諧波和功率,還能對比來自兩個不同輸入源的諧波。
由于采用了具備數字并行通路技術的抗混疊功能和線路濾波器,可以同時對寬頻成分和窄頻成分進行功率分析,所以地降低了噪音和混疊的影響。
Harmonics Regulation Test
Combined with the /G7 option and IEC Harmonic /Flicker measurement software, the WT5000 measured harmonic data can be saved into a PC and tested according to IEC regulations. To support large equipment over 16 A/phase (IEC61000-3-12) the CT200 current sensor model can be used.
Harmonics: EN61000-3-2, IEC61000-3-2, EN61000-3-12, IEC61000-3-12 and JIS C 61000-3-2
Numeric and Waveform Synchronized Data
The waveform data is streamed without any gaps up to 2 MS/s and is synchronized with the numerical data. Abnormal findings in numerical data can be directly linked and be evaluated in the waveform data. For example, one can find numeric parameter variations caused by the influence of imposed high-frequency noise.
用戶自定義的觸發和運算
根據應用需求定義和使用事件觸發及自定義運算。事件觸發功能允許用戶設置限值,捕獲特定功率、電流或其他參數限值內或限值外的讀數。用戶還可以定義和使用多達20條不同的表達式,進行自定義運算。滿足觸發條件的數據可被存儲、打印或另存到USB存儲設備。
用戶自定義功能
Follows frequency fluctuations in input signals by auto update mode
This feature can follow fluctuating input frequencies without gaps by changing the data update rate automatically when measuring devices like motors whose input signal frequency fluctuates with changes in rotation speed. It can cover from frequencies as low as 0.1Hz. In addition to constant-interval update mode of 10ms-20s, /u201CAuto update mode/u201D, which updates data in sync with the cycle of input signal, is now available. This new feature is useful for continuous measurement, such as automated testing.
Easy setup menu
Current range, various filters, data update rate, and measurement period can be automatically switched according to the measurement scene.
The measurement scene can be selected from among "50/60Hz," "DC," "PWM," "High Frequency," and "General.
After the automatic setting, the switched items can be checked at a glance and the settings can be easily adjusted.
Wiring with delta conversion useful for motor parameter measurement
When three-phase delta wiring is used, the results of converting to phase voltage using delta-star conversion can be used to measure harmonics, display waveforms on screen, and output data. (When using star connections, it is possible to measure harmonics using the result converted to line voltage using star-delta conversion.)
It can calculate the fundamental wave components of phase voltages required for measuring motor parameters (Ld, Lq), and can be used to evaluate synchronous motors.
