提高電力轉換效率 - kd17.com.t · 與hioki ct6700 結合時，也可測量1 ma...

電力分析儀電力測量儀

PW6001

提高電力轉換效率業界領先测量精度，最大可測量達 12ch*

日置電力分析儀，引導次世代電力效率測試標準

∗ 2 台 6ch 的機型，透過光纜連接同步使用同步功能

2

由金屬切割所製成的精緻堅固護套，以及用於維持從輸入端子足夠爬電距離的光絕緣裝置，顯著地提高抗干擾性能，提供最佳的穩定性，實現 80 dB/100 kHz 的 CMRR 性能。

另外，溫度特性提高到 ±0.01%/℃，讓您可以使用最高穩定性的電力分析儀。

* 僅裝置精度

PW6001 ±0.01%/℃或以下 3193 ( 舊有機型 ) ±0.03%/℃或以下

0-0.6

-0.4

-0.2

0

0.2

0.4

0.6

標準

精度

偏差

[%]

10 20 30 40 [℃ ]

基本功率精度 ±0.02%實現真正的功率分析

高精度、寬頻帶、高穩定性。PW6001 結合功率測量中三大重要因素，以先進技術為後盾的基本性能，

以實現卓越的功率分析。

固體護罩光絕緣裝置相較於傳統機型溫度特性提高三倍

*

加強抗干擾性及防溫度變化能力，追求絕對的測量穩定性。

3

對測量效率的十分重要的 DC 精度測量即使使用電流感測器，亦可得到±0.07% rdg 的組合精度

例如像測量 DC/AC 轉換器的效率時，不僅是 AC 精度，DC精度也同樣重要。PW6001 的 DC 測量精度為 ±0.02%rdg.±0.05% f.s.* 可正確且穩定的測量效率。

PW6001 的基本精度 ±0.02 ％ rdg.，加入了電流感測器的±0.05 %rdg. 精度，達到最高 ±0.07％的精度。從 10mA 的微小電流到 1000A 的大負載，多樣化的感測器陣容全面覆蓋。

即使變化較大的負載，也能高精度測量 TrueHD 18bit*

內建的 18bit A/D 轉換器提供寬廣的動態範圍。即使是變化較大的負載，也可在不切換量程的情況下正確測量出極小的功率。此外，通過數字 LPF，可去除不必要的高頻噪聲，達到準確的功率分析。

功率分析引擎 II 實現快速同步計算功能

週期檢測 / 寬頻帶功率分析 / 諧波分析 / 波形分析等所有測量皆是獨立的數位處理，不會產生相互干擾。在保持最高精度的同時，還實現了 10ms 的數據更新速度。

通過數字 LPF 進一步提高 S/N 比

在不切換量程的情況下，模式測量時的轉換效率

速度

測量電流

於單量程內測量高電流和微小電流

0

f.s.

-f.s.

* True HD(True High Definition)：真正的高分辨率

DC AC

電池變頻器

效率的精度由 AC 精度和 DC 精度決定

* 僅主機精度 * 有效測量範圍

高精度 AC / DC 電流感測器

1000 A500 A

200 A50 A

馬達

AAF: 反重疊濾波器用於防止在諧波計算的頻疊失真的濾波器

準確的週期檢測

寬頻帶功率分析

諧波分析

波形分析

零交叉濾波器

在 PW6001 內部完全同步數位處理

輸入波形數位 AAF

A/D 轉換

TrueHD 18bit 分辨率保證精度@10 毫秒數據更新快速同步處理零交叉濾波器

±0.02% rdg.DC 精度

高精度電流感測器

4

為了正確進行 PWM 波形的功率分析，需要根據取樣定理。PW6001 搭載以 5MS/s 輸入信號的直接取樣，實現 2MHz 的測量頻寬

使分析不會產生混淆錯誤。

頻寬 DC,0.1Hz 至 2MHz寬廣，平穩的頻率特性

通過如碳化矽等為首的高速切換裝置支援，追求較寬的功率測量。與以往機型 3390 相比

PW6001 是一台頻寬與採樣率都提高了 10 倍的高性能機型。

擁有電壓和電流用的 1Mword×6ch 的數據

實現波形記錄和功率分析的獨立取樣。在保持 5MS/s 的功率分析同時，還可自由設定用於波形記錄的取樣。

大容量波形儲存

雙重採樣

實現真正的頻率分析，高速採樣 5MS/s

5

使用 Δ-Y 轉換功能可計算相電壓和中性點無法被存取的 3 相馬達的相功率。此外，Y-Δ 轉換功能可讓您計算三相四線的線間電壓。

相電壓和線間電壓可自由轉換支援的頻寬電流測試探棒與 HIOKI CT6700 結合時，也可測量 1 mA 的微小電流。最適合用於觀察變頻器內的洩漏電流波形。

內置電流感測器的相位補償功能數位 LPF，用於顯示要查看的波形為了能準確地進行功率測量，振幅精度和相位精度指標相當重要。使用相位補償功能，可改善高頻和低功率因數信號的測量精度。分別輸入電流感測器校正用數值，以優化精度。

選擇一個測定對象的截止頻率。數位 LPF 大幅降低噪音以顯示您要查看的波形。

* 校正，檢查成績表需另行購買。

CT6700A, DC 至 50 MHz

PWM 控制電壓

負載電流

洩漏電流簡單連接

接線簡單，附內置電源

顯示基本頻率的波形

諧波分析高達 1.5MHz寬頻帶諧波分析具有最大 100 次，可用於 0.1 Hz 至 300 k Hz的基本頻率以及 1.5 MHz 的分析頻帶的標準功能。可進行馬達的基波分析，以及用於無線電源的傳輸波形的失真率測量。

無需示波器的波形分析除了電壓和電流波形，也可同時顯示轉矩感測器和編碼器的信號。PW6001 也內建觸發器、預觸發器、其它觸發器，方便用於如 PWM 波形的馬達分析，以及編碼器脈衝觸發器。

10050/60

1 k 10 k 100 k 1 M

頻率 [Hz]

馬達

系統電源

基波的頻率範圍諧波分析的頻率範圍

無線電源供應

U3

U1

U2

u1

u2u3

Neutral pointDelta to star

Star to delta

輸入檢查成績表 * 的校正值

校正感測器 *

相位特性的橫相補償

Phas

e [d

eg]

頻率 [Hz]

-3010 1 k 10 k 100 k 1 M100

-20

10

-10

20

0

30

20 μs/div

波形分析功能

寬頻帶模式諧波分析

寬頻帶電流感測器

Δ-Y 轉換 Y-Δ 轉換

數位 LPF電流感測器相位補償功能

6

特為電流感測器設計，實現高精度的測量

雙旋鈕垂直 / 水平波形操作

配線確認功能，可避免配線錯誤

無縫式操作性能

使用直線連接法電流感測器法的優點

減少操作時間，能將重點集中於分析。

與直線連接法相比，更接近功率轉換器操作環境條件下的測量。

測量對象的配線路由引導連接至電流輸入端子。然而，這將使配線電阻和電容耦合的影響增加，及分路電阻導致的儀錶顯示損耗，最終導致精度的大幅度下降。

電流感測器連接至測量對象上的配線時，可減少配線和測量儀錶損耗的影響，能在最接近實際工作環境的配線條件下進行測量高效率系統。

高度直觀的用户界面

9 英吋觸屏軟鍵盤在螢幕上手寫輸入備忘錄，或使用螢幕鍵盤

電源供應

電源供應

電源轉換器

電源轉換器

電流感測器

馬達馬達

使用分路法的電力計 PW6001

測量電流測量電流

因長路由導致的配線電阻損耗

短配線

信號轉換至電壓插入損耗小

接線影響小分流電阻熱量引起的損耗

因電容耦合導致的漏電流損耗

使用直線連接法的測量例電流感測器測量方式的示意圖

高精度電流感測器

螢幕鍵盤雙旋鈕連接確認螢幕手寫備忘錄

7

多種馬達分析功能D/A 輸出支持波形輸出輸入轉矩計和轉速計的信號，可測量馬達功率。除

了如馬達功率和電角度等的馬達參數，還可測量日射計和風速計的輸出信號。

高達 10 ms 的更新速率輸出類比測量數據。結合數據記錄器一起記錄長期波動，並使用內置的波形輸出功能，以 1 MS/s* 輸出電壓和電流。

兼具馬達分析與 D/A 輸出功能的機型

相距最大 500 公尺的兩裝置，即時連接同步功能

類比輸出類比輸出 x 20 ch

波形輸出波形輸出 x 最大 12 ch

& 類比輸出 x 8 ch

使用「數字同步」，等同於 12 ch 的電力計

使用「波形同步」簡易傳輸波形

多點測量時，使用數字同步功能從從屬裝置即時傳輸功率參數到主機的集合體，基本上可建立一個 12ch 的電力分析系統

5 MS / s，18 位元取樣數據的即時 * 傳輸。從屬儀器上的測量波形能即時顯示於主裝置，為電力分析儀的新應用（如兩個分離的裝置間的電壓相位差測量等）開闢新的道路。

* 僅在有 3 個或 3 個以上 ch 時，主儀器和從屬儀器才能運行波形同步。最多 ±5 抽樣誤差

*波形輸出期間，可準確再現1 MS / s 的輸出和高達 50 kHz 的正弦波。

從屬裝置

最多傳輸 3 個 ch 的波形數據

最多顯示主裝置和從屬裝置波形的 6 個 ch

主裝置

- 主儀器螢幕即時顯示從屬儀器的波形 - 主儀器和從屬儀器的諧波分析和基波分析 - 使用從機觸發時，同步測量主裝置上的波形

光學連接電纜最長500 公尺

光學連接電纜最長500 公尺

從屬裝置

除了波形和諧波數據以外，傳輸功率等參數

顯示用於主裝置和從屬裝置的電力參數

主裝置

- 主儀器螢幕畫面中能即時顯示從屬儀器測量數據- 主 / 從裝置之間的即時計算效率- 儲存 2 裝置數據於主儀器內的記錄媒體

功率

電壓波形輸出

類比輸出

電流

電壓

電流

* 根據安裝在 PW6001 的 ch 數量而異。

10 毫秒數據更新

通過平均化處理，可再現輸出反應與輸入波形，類似舊有機型 3193。

Input waveform

Averaged analog output

ch A 轉矩轉矩電壓 / 脈波

ch B 編碼器Ａ相位信號轉矩電壓 / 脈波

ch C 編碼器Ｂ相位信號 RPM 脈波

ch D 編碼器Ｚ相位信號 RPM 脈波

測量對象馬達 x 1 馬達 x 2輻射強度計 /

風速計和其他輸出信號

測量參數

電角度轉動方向馬達功率

RPM 轉矩滑差

馬達功率 x 2 RPM x 2轉矩 × 2滑差 x 2滑差 x 2

電壓 × 2& 脈波 × 2

或脈波 × 4

(PW6001-11/-12/-13/-14/-15/-16)

最多可數字同步 12ch

單一模式馬達分析

馬達分析獨立輸入

D/A 波形輸出

波形同步

雙重模式馬達分析

D/A 類比輸出

8

切換為低時，以極低功率水平測量

詳細分析 PWM 波形觀察相電壓波形使用 Δ-Y 轉換功能，可顯示以馬達線間電壓的波形水平下的相電壓的計算，讓您能夠分析相電壓波形的諧波。

本機內置 HIOKI 3390 未搭載的光標讀出功能 *、變焦功能 *，以及觸發 / 預觸發功能。您可以使用觸屏和雙旋鈕，不受波形的分析限制。

* 即將推出。

使用 Δ-Y 計算的相電壓波形線間電壓波形和 3 相馬達的線電流波形

內置碳化矽變頻器的轉換效率測量

馬達3- 相位

電源供應

波形分析功能 Δ-Y 轉換

輸入輸出

同步每個基波

變頻器

在輸入 / 輸出同時同步諧波分析實現高分辨率的碳化矽測量

頻寬模式諧波分析

抗干擾穩定性

電流感測器相位補償功能

CMRR80 dB/100 kHz

高速採樣率 5 MS/s

TrueHD18bit 分辨率

主要特點

對附低導電阻的碳化矽半導體的 PWM 波形進行高精度測量時，必須有高分辨率。TrueHD 18 位元達到了前從未見的精密度。

16 位元分辨率Hioki 3390

18bit 分辨率PW6001

輸入波形

應用案例一

TureHD 18bit 分辨率

最多 6 個系統同步諧波分析

分析被同步到逆變器輸入和輸出基本波形的諧波數據。可同步分析最多 6 個系統。

9

一鍵式設定讓您隨時都可測量

內置簡單的設定功能，讓您只需選擇要測量的線的類型，即可馬上啟動自動最佳設定開始進行測量。

電源供應

設定簡單

只需輕輕一按即可保存數據使用 [ 儲存 ] 鍵儲存數字數據，使用 [ 複製 ] 鍵複製畫面。您還可以在儲存的數據上輸入備註。

無線電源傳輸效率

低功率因數功率的精確測量

輸入每個頻率的相位校正值，以校準高頻相位特性。

使用無線電源時，功率因數會因能量發送 / 接收元素的電感元件而下降。利用 PW6001 的相位補償功能，可讓您準確地測量高頻

傳輸頻率的諧波分析測量如電動車輛等的無線供電裝置效率。使用高達 300kHz 基波的寬頻帶諧波分析功能，可分析波形失真率及用於無線功率傳輸的 100 kHz 左右的諧波。

寬頻帶模式諧波分析

寬頻帶電流感測器

頻寬模式諧波分析

電流感測器相移功能

高速採樣率 5 MS/s

頻寬測試探棒支援高頻寬的測量

電池

應用案例二

主要特點

10

10 毫秒間隔數據更新

即使頻率波動，也能從低到高頻率自動追蹤基波

功率計算的檢測週期

EV/HEV 馬達分析

瞬態功率的快速 10 毫秒計算

支援機架式

同步測量 2 馬達功率

測試平台和生產線檢查用的最佳全

機架尺寸

扭矩、轉速、馬達功率、滑差率

向量螢幕

以 10 毫秒更新速率測量瞬態功率，包括如啟動和加速等的馬達運作。從最低 0.1 Hz 自動測量並與功率波動頻率保持同一速度。

PW6001 搭載內置電氣角測量功能 , 該功能可透過 DQ 座標系統控制，測量高效率同步馬達的馬達參數及向量控制。根據編碼器脈波，進行電壓和電流基波元件的即時相位測量。此外，感應電壓發生時的相位角零調節，讓相位測量處於感應電壓標準。最後，PW6001可以檢測到從 A 相和 B 相脈波的前進 / 反向，達到轉矩和轉速的四象限分析。

PW6001 搭載業界首款內置雙馬達模式分析功能，可提供 2 台馬達的同步分析。現已實現同步測量 HEV 驅動和發電的馬達功率。

先進的電氣角測量功能

2 馬達測量示例

變頻器馬達

脈波編碼器

負載

Displays torque signal and pulse encoder waveforms

轉矩感測器

電池

單馬達分析

全機架尺寸

馬達電氣角測量

精度保證 @10 毫秒數據更新

靈活的高效率計算

主要特點

精度保證 @10 毫秒數據更新


應用案例三

雙馬達分析

11

使用內置的 IEC 標準模式，根據 IEC61000-4-7 可輕易地完成評估。您也可以限制 THD 所要求的標準計算次數。

功率調節器測試評估效率和損耗，一目了然

諧波分析 , 連接系統的主要保障測量環境感測器的輸出

功率調節器所需的參數，如基波無功功率 Qfnd、DC 脈動率和3 相不平衡率，可以同步測量並顯示。所需的測量數據一目瞭然，提高了工作效率。

除了測量由太陽能電池產生的功率、調節器的效率值、損耗，也可同時在電力系統被連接時，測量來自外購電力的功率。

在最多 2 個 ch 的條件下，使用馬達分析功能的獨立輸入模式，可以測量來自環境試驗設備 ( 日射計、溫度計、風速計、照度計 )的類比電壓信號。信號與功率可同時被記

測量 PV 功率調節器的效率

太陽能電池板

轉換器變頻器功率系統

負載

功率調節器

DC 測量

AC 測量

類比信號脈波信號

照度計溫度計

日射計風速計

諧波條件長條圖一目瞭然

DC 電源（控制面板輸出）

3 相電源（功率調節器輸出）轉換效率

轉換效率

脈動率

頻率

電壓總諧波失真率

不平衡率

基波無功功率

馬達分析的獨立輸入

IEC 模式諧波分析

買電賣電的分别累積各種測量參數靈活的高效率

計算

獨立輸入馬達分析用

IEC 模式諧波分析

買電賣電的分别累積

各種測量參數


主要特點

應用案例四

12

D/A 波形輸出

同步分析系統端和發電端測量功率調節器的效率

測量 2 個分離點之間的相位差相距 500 公尺處擷取的 D / A 輸出波形

透過使用數字同步功能，可以進行 2 系統功率調節器的完全同步測量。所有功率參數可以匯集在主儀器，並可計算和顯示單項功率或總效率。

使用波形同步功能，可測量距離相隔最遠 500 公尺的 2 點間的相位關係。由於採用光學連接纜線絕緣，即使 2 點之間的接地電位不同，也可以安全地進行測量。

即使接地電位不同，也可以安全地進行測量。最多類比 32ch+ 邏輯 32ch

儲存式記錄器 MR8827

* 根據距離，輸出的波形有 7 微秒至 12 微秒的延遲。

傳輸從屬儀器從 500 公尺遠處拍攝的電壓 / 電流波形，並輸出來自主裝置的信號。與日置儲存式記錄器結合時，可進行定時測試和 3 相電源多 ch 的同步分析。

測試和評估變電所、電廠和鐵路

風力發電功率轉換

功率系統

主裝置從屬裝置

風力發電機

功率調節器

使用雙向量顯示圖，可以輕鬆查看系統和發電的三相平衡狀態。

光學連接纜線最長 500 公尺

光學連接纜線L6000

數據匯總

2- 系統向量顯示

2 裝置間的效率計算最多可數字同步 12ch

2- 系統向量顯示

靈活高效率計算

最多可數字同步 12ch

主要特點

波形同步波形同步

應用案例六

應用案例五

13

- 儲存波形數據 / 測量數據 (csv) 和螢幕擷取 (bmp)- 最大速度 10 毫秒的時間間隔，即時儲存數據 (csv)

- 保存時間間隔數據，用於之後傳輸至 USB 閃存驅動器

USB 閃存驅動器介面

內部記憶體

- 在免費的專用應用程式中查看數據- 指令控制 *

RS-232C

- 在免費的專用應用程式中查看數據- 指令控制 *

GP-IB

- 開始 / 停止 / 數據重設控制- RS-232C 端子共享，可支援 ±5 V/ 200 mA 電源

外接 I/O

- 切換 20ch 的類比輸出，或最多12ch 的波形 +8ch 類比輸出( 僅 PW6001-11 至 16)

* 從 HIOKI 網站下載通訊指令說明書

D/A output

- 光學連接纜線連接器，雙重 LC（雙核）同步控制

介面

PC 通訊軟體 – PW 通訊器

LabV IEW 驅動程式

PW 通訊器是一個專用於進行 PW6001 電力計和 PC 之間通訊的應用程式軟體。可從日置網站免費下載。該應用程式具有各種方便的功能，包括設定 PW6001、監控測量值、透過通訊採集數據、計算效率等。

與 PW6001 兼容的 Lab VIEW 驅動程式可讓你取得數據並建立測量系統。(Lab VIEW 是美國國家儀器股份有限公司的註冊商標。)

儲存數據為 CSV 檔案以固定的時間間隔記錄 180 或更多的測量數據至 CSV 檔案。最短的記錄時間間隔為 200 毫秒。

數值監測在電腦螢幕上顯示 PW6001 的測量值。可自由選擇多達 64個數值，如電壓、電流、功率和諧波等。

( 即將推出 )

( 即將推出 )

波形監測在電腦螢幕的右側監測由儀表所測量的電壓、電流和波形。

儀表設定從 PC 螢幕配置連接的 PW6001。

同步測量使用 PW6001 的多個裝置時，計算功率轉換器的輸入 / 輸出效率和類似運作。除了 PW6001，還可批次控制其他日置電力計，如PW3335、PW3336 和 PW3337。

PW 通訊規格提供方式可從日置網站免費下載操作環境 PC/ AT- 兼容OS Windows 8, Windows 7 (32/64-bit)記憶體建議為２GB 以上介面 LAN, RS-232C, GP-IB

- 支援快速 Gbit LAN，指令控制 *- 在免費的專用應用程式中查看數據

LAN

提提提提

14

Zero-adjustment Zero-adjustment of input offsets that are less than ±10% f.s. for voltage and ±10% f.s. ±4 mV for current

Accuracy Sine wave input with a power factor of 1 or DC input, terminal-to-ground voltage of 0 V, after zero-adjustmentWithin the effective measurement range

- Unit for f above: kHz- Voltage and current DC values are defined for Udc and Idc, while frequencies other than DC are defined for Urms and Irms.

- When U or I is selected as the synchronization source, accuracy is defined for source input of at least 5% f.s.

- The phase difference is defined for a power factor of zero during f.s. input.- Add the current sensor accuracy to the above accuracy figures for current, active power, and phase difference.

- For the 6 V range, add ±0.05% f.s. for voltage and active power.- Add ±20 μV to the DC accuracy for current and active power when using Probe 1 (however, 2 V f.s.).

- Add ±0.05% rdg. ±0.2% f.s. for current and active power when using Probe 2, and add ±0.2° to the phase at or above 10 kHz.

- The accuracy figures for voltage, current, active power, and phase difference for 0.1 Hz to 10 Hz are reference values.

- The accuracy figures for voltage, active power, and phase difference in excess of 220 V from 10 Hz to 16 Hz are reference values.

- The accuracy figures for voltage, active power, and phase difference in excess of 750 V for values of f such that 30 kHz < f ≤ 100 kHz are reference values.

- The accuracy figures for voltage, active power, and phase difference in excess of (22000/f [kHz]) V for values of f such that 100 kHz < f ≤ 1 MHz are reference values.

- Add ±0.02% rdg. for voltage and active power at or above 1000 V (however, figures are reference values).

Even for input voltages that are less than 1000 V, the effect will persist until the input resistance temperature falls.- For voltages in excess of 600 V, add the following to the phase difference accuracy: - 500 Hz < f ≤ 5 kHz: ±0.3° - 5 kHz < f ≤ 20 kHz: ±0.5° - 20 Hz < f ≤ 200 kHz: ±1°

Effects of temperature and humidity

Add the following to the voltage, current, and active power accuracy within the range of 0°C to 20°C or 26°C to 40°C: ±0.01% rdg./°C (add 0.01% f.s./°C for DC measured values)For current and active power when using Probe 2, ±0.02% rdg./°C (add 0.05% f.s./°C for DC measured values)Under conditions of 60% RH or greater:Add ±0.0006 × humidity [%RH] × f [kHz]% rdg. to the voltage and active power accuracy.Add ±0.0006 × humidity [%RH] × f [kHz]° for the phase difference.

Effects of common-mode voltage

50 Hz/60 Hz 100 dB or greater (when applied between the voltage input terminals and the enclosure)100 kHz 80 dB or greater (reference value)Defined for CMRR when the maximum input voltage is applied for all measurement ranges.

Effects of external magnetic fields

±1% f.s. or less (in a magnetic field of 400 A/m, DC or 50 Hz/60 Hz)

Effects of power factor

φ of other than ±90°: ± cos (φ + phase difference accuracy)

cos(φ)1-

×100% rdg.

φ of ±90°: ±cos (φ + phase difference accuracy) × 100% f.s.

基本規格功率測量

測量線路單相 2 線 (1P2W)、單相 3 線 (1P3W)三相 3 線 (3P3W2M、3V3A、3P3W3M)三相 4 線 (3P4W)

2ch 組合时，從 1P3W / 3P3W2M 選擇其一3ch 組合时，從 3P3W3M / 3V3A / 3P4W 選擇其一.

根據安裝通道數可選擇的接線方式[a] 可選擇 , [‒] 無法選擇

輸入通道數 Max. 6 channels; each input unit provides 1 channel for simultaneous voltage and current input

Input terminal profile Voltage Plug-in terminals (safety terminals)Probe 1 Dedicated connector (ME15W)Probe 2 BNC (metal) + power supply terminal

Probe 2 power supply +12 V ±0.5 V, -12 V ±0.5 V, max. 600 mA, up to a max. of 700 mA for up to 3 channels

Input method Voltage measurement unit

Photoisolated input, resistance voltage divider

Current measurement unit Isolated input from current sensor (voltage output)

Voltage range 6 V / 15 V / 30 V / 60 V / 150 V / 300 V / 600 V / 1500 V

Current range(Probe 1)

400 mA / 800 mA / 2 A / 4 A / 8 A / 20 A (with 20 A sensor)

4 A / 8 A / 20 A / 40 A / 80 A / 200 A (with 200 A sensor)



20 A / 40 A / 100 A / 200 A / 400 A / 1 kA (with CT6865)

(Probe 2) 1 kA / 2 kA / 5 kA / 10 kA / 20 kA / 50 kA (with 0.1 mV/A sensor)

100 A / 200 A / 500 A / 1 kA / 2 kA / 5 kA (with 1 mV/A sensor)

10 A / 20 A / 50 A / 100 A / 200 A / 500 A (with 10 mV/A sensor; with 3274 or 3275)

1 A / 2 A / 5 A / 10 A / 20 A / 50 A (with 100 mV/A sensor; with 3273 or 3276)

100 mA / 200 mA / 500 mA / 1 A / 2 A / 5 A (with 1 V/A sensor; with CT6700 or CT6701)(0.1 V / 0.2 V / 0.5 V / 1.0 V / 2.0 V / 5.0 V range)

Power range 2.40000 W to 4.50000 MW (depending on voltage and current combinations)

Crest factor 3 (relative to voltage/current range rating); however, 1.33 for 1500 V range, 1.5 for 5 V Probe 2 range300 (relative to minimum valid voltage and current input); however, 133 for 1500 V range, 150 for 5 V Probe 2 range

Input resistance (50 Hz / 60 Hz)

Voltage inputs 4 MΩ ±40 kΩProbe 1 inputs 1 MΩ ±50 kΩ Probe 2 inputs 1 MΩ ±50 kΩ

Maximum input voltage Voltage inputs 1000 V, ±2000 Vpeak (10 ms or less)Input voltage frequency of 250 kHz to 1 MHz, (1250 - f) VInput voltage frequency of 1 MHz to 5 MHz, 50 VUnit for f above: kHz

Probe 1 inputs 5 V, ±12 Vpeak (10 ms or less)

Probe 2 inputs 8 V, ±15 Vpeak (10 ms or less)

Maximum rated voltage to earth

Voltage input terminal (50 Hz/60 Hz)CATIII 600V; anticipated transient overvoltage: 6000VCATII 1000V; anticipated transient overvoltage: 6000V

Measurement method Voltage/current simultaneous digital sampling with zero-cross synchronized calculation

Sampling 5 MHz / 18 bits

Frequency band DC, 0.1 Hz to 2 MHz

Synchronization frequency range

0.1 Hz to 2 MHz

Synchronization source U1 to U6, I1 to I6, DC (fixed at data update rate),Ext1 to Ext2The zero-cross point of the waveform after passing through the zero-cross filter is used as the standard for U or I selection.

Data update rate 10 ms / 50 ms / 200 msWhen using simple averaging, the data update rate varies based on the number of aver-aging iterations.

LPF 500 Hz / 1 kHz / 5 kHz / 10 kHz / 50 kHz / 100 kHz / 500 kHz / OFFApprox. 500 kHz analog LPF + digital IIR filter (Butterworth characteristics equivalent)Except when off, add ±0.1% rdg. to the accuracy.Defined for frequencies that are less than or equal to 1/10 of the set frequency.

Polarity detection voltage Current zero-cross timing comparison

Measurement parameters Voltage (U), current (I), active power (P), apparent power (S), reactive power (Q), power factor (λ), phase angle (φ), frequency (f), efficiency (η), loss (Loss), voltage ripple factor (Urf), cur-rent ripple factor (Irf), current integration (Ih), power integration (WP), voltage peak (Upk), current peak (Ipk)

Effective measurement range

Voltage, current, power: 1% to 110% of range

Zero-suppression range Select from OFF / 0.1% f.s. / 0.5% f.s.When set to OFF, a value may be displayed even when receiving zero input.

CH1 CH2 CH3 CH4 CH5 CH6

Pattern 1 1P2W 1P2W 1P2W 1P2W 1P2W 1P2W

Pattern 2 1P3W / 3P3W2M 1P2W 1P2W 1P2W 1P2W

Pattern 3 1P3W / 3P3W2M 1P2W 1P3W / 3P3W2M 1P2W

Pattern 4 1P3W / 3P3W2M 1P3W / 3P3W2M 1P3W / 3P3W2M

Pattern 5 3P3W3M / 3V3A / 3P4W 1P2W 1P2W 1P2W

Pattern 6 3P3W3M / 3V3A / 3P4W 1P3W / 3P3W2M 1P2W

Pattern 7 3P3W3M / 3V3A / 3P4W 3P3W3M / 3V3A / 3P4W

通道數 1 2 3 4 5 6

Pattern 1 a a a a a a

Pattern 2 - a a a a a

Pattern 3 - - - - - a

Pattern 4 - - - a - a

Pattern 5 - - a a a a

Pattern 6 - - - - a a

Pattern 7 - - - - - a

Voltage (U) Current (I)DC ±0.02% rdg. ±0.03% f.s. ±0.02% rdg. ±0.03% f.s.

0.1 Hz ≤ f < 30 Hz ±0.1% rdg. ±0.2% f.s. ±0.1% rdg. ±0.2% f.s.30 Hz ≤ f < 45 Hz ±0.03% rdg. ±0.05% f.s. ±0.03% rdg. ±0.05% f.s.45 Hz ≤ f ≤ 66 Hz ±0.02% rdg. ±0.02% f.s. ±0.02% rdg. ±0.02% f.s.66 Hz < f ≤ 1 kHz ±0.03% rdg. ±0.04% f.s. ±0.03% rdg. ±0.04% f.s.1 kHz < f ≤ 50 kHz ±0.1% rdg. ±0.05% f.s. ±0.1% rdg. ±0.05% f.s.

50 kHz < f ≤ 100 kHz ±0.01×f% rdg. ±0.2% f.s. ±0.01×f% rdg. ±0.2% f.s.100 kHz < f ≤ 500 kHz ±0.008×f% rdg. ±0.5% f.s. ±0.008×f% rdg. ±0.5% f.s.500 kHz < f ≤ 1 MHz ±(0.021×f-7)% rdg. ±1% f.s. ±(0.021×f-7)% rdg. ±1% f.s.

Frequency band 2 MHz (-3 dB, typical) 2 MHz (-3 dB, typical)

Measurement parameters AccuracyApparent power Voltage accuracy + current accuracy ±10 dgt.Reactive power Apparent power accuracy +

( 2.69 × 10-4×f + 1.0022-λ2- 1-λ2 ) × 100% f.s.Power factor φ of other than ±90°:

± cos (φ + phase difference accuracy)

cos(φ)1-

× 100% rdg. ± 50 dgt.

φ of ±90°:±cos (φ + phase difference accuracy) × 100% f.s. ±50 dgt.

Waveform peak Voltage/current RMS accuracy ±1% f.s. (f.s.: apply 300% of range)

f: kHz; φ: Display value for voltage/current phase difference; λ: Display value for power factor

Active power (P) Phase difference

DC ±0.02% rdg. ±0.05% f.s. -0.1 Hz ≤ f < 30 Hz ±0.1% rdg. ±0.2% f.s. ±0.1°30 Hz ≤ f < 45 Hz ±0.03% rdg. ±0.05% f.s. ±0.05°45 Hz ≤ f ≤ 66 Hz ±0.02% rdg. ±0.03% f.s. ±0.05°66 Hz < f ≤ 1 kHz ±0.04% rdg. ±0.05% f.s. ±0.05°1 kHz < f ≤ 10 kHz ±0.15% rdg. ±0.1% f.s. ±0.4°

10 kHz < f ≤ 50 kHz ±0.15% rdg. ±0.1% f.s. ±(0.040×f)°50 kHz < f ≤ 100 kHz ±0.012×f% rdg. ±0.2% f.s. ±(0.050×f)°

100 kHz < f ≤ 500 kHz ±0.009×f% rdg. ±0.5% f.s. ±(0.055×f)°500 kHz < f ≤ 1 MHz ±(0.047×f-19)% rdg. ±2% f.s. ±(0.055×f)°

頻率測量Number of measurement channels

Max. 6 channels (f1 to f6), based on the number of input channels

Measurement source Select from U/I for each connection.Measurement method Reciprocal method + zero-cross sampling value correction

Calculated from the zero-cross point of waveforms after application of the zero-cross filter.Measurement range 0.1 Hz to 2 MHz (Display shows 0.00000 Hz or ----- Hz if measurement is not possible.)Accuracy ±0.05% rdg. ±1 dgt. (with a sine wave that is at least 30% of the measurement source’s

measurement range)Display format 0.10000 Hz to 9.99999 Hz, 9.9000 Hz to 99.9999 Hz,

99.000 Hz to 999.999 Hz, 0.99000 kHz to 9.99999 kHz, 9.9000 kHz to 99.9999 kHz, 99.000 kHz to 999.999 kHz, 0.99000 MHz to 2.00000 MHz

累積測量Measurement modes Select RMS or DC for each connection (DC mode can only be selected when using an AC/

DC sensor with a 1P2W connection).Measurement parameters Current integration (Ih+, Ih-, Ih), active power integration (WP+, WP-, WP)

Ih+ and Ih- are measured only in DC mode. Only Ih is measured in RMS mode.Measurement method Digital calculation based on current and active power values

DC mode Every sampling interval, current values and instantaneous power values are integrated separately for each polarity.

RMS mode The current RMS value and active power value are integrated for each measurement interval. Only active power is integrated separately for each polarity.

Display resolution 999999 (6 digits + decimal point), starting from the resolution at which 1% of each range is f.s.

Measurement range 0 to ±9999.99 TAh/TWhIntegration time 10 sec. to 9999 hr. 59 min. 59 sec.Integration time accuracy ±0.02% rdg. (0℃ to 40℃ )Integration accuracy ±(current or active power accuracy) ±integration time accuracyBackup function None

15

諧波測量Number of measurement channels

Max. 6 channels, based on the number of built-in channels

Synchronization source Based on the synchronization source setting for each connection.Measurement modes Select from IEC standard mode or wideband mode (setting applies to all channels).Measurement parameters Harmonic voltage RMS value, harmonic voltage content percentage, harmonic voltage

phase angle, harmonic current RMS value, harmonic current content percentage, harmonic current phase angle, harmonic active power, harmonic power content percentage, harmonic voltage/current phase difference, total harmonic voltage distortion, total harmonic current distortion, voltage unbalance rate, current unbalance rate(no intermediate harmonic parameters in IEC standard mode)

FFT processing word length

32 bits

Antialiasing Digital filter (automatically configured based on synchronization frequency)Window function RectangularGrouping OFF / Type 1 (harmonic sub-group) / Type 2 (harmonic group)THD calculation method THD_F / THD_R (Setting applies to all connections.) Select calculation order from 2nd

order to 100th order(however, limited to the maximum analysis order for each mode).

(1) IEC 規格模式Measurement method Zero-cross synchronization calculation method (same window for each synchronization

source)Fixed sampling interpolation calculation method with average thinning in windowIEC 61000-4-7:2002 compliant with gap overlap


45 Hz to 66 Hz

Data update rate Fixed at 200 ms. Analysis orders 0th to 50thWindow wave number When less than 56 Hz, 10 waves; when 56 Hz or greater, 12 wavesNumber of FFT points 4096 pointsAccuracy

Power is defined for a power factor of 1.Accuracy specifications are defined for fundamental wave input that is greater than or equal to 50% of the range.Add the current sensor accuracy to the above accuracy figures for current, active power, and phase difference.Add ±0.02% rdg. for voltage and active power at or above 1000 V (however, figures are reference values).Even for input voltages that are less than 1000 V, the effect will persist until the input resistance temperature falls.

(2) 頻寬模式Measurement method Zero-cross synchronization calculation method (same window for each synchronization

source) with gapsFixed sampling interpolation calculation method


0.1 Hz to 300 kHz

Data update rate Fixed at 50 ms.Maximum analysis order and Window wave number

Phase zero-adjustment The instrument provides phase zero-adjustment functionality using keys or communications commands (only available when the synchronization source is set to Ext).

Accuracy Add the following to the accuracy figures for voltage (U), current (I), active power (P), and phase difference. (Unit for f in following table: kHz)

The figures for voltage, current, power, and phase difference for frequencies in excess of 300 kHz are reference values.When the fundamental wave is outside the range of 16 Hz to 850 Hz, the figures for voltage, current, power, and phase difference for frequencies other than the fundamental wave are reference values.When the fundamental wave is within the range of 16 Hz to 850 Hz, the figures for voltage, current, power, and phase difference in excess of 6 kHz are reference values.Accuracy values for phase difference are defined for input for which the voltage and current for the same order are at least 10% f.s.

Frequency Harmonic voltage and current

Harmonic power Phase difference

DC (0th order) ±0.1% rdg. ±0.1% f.s. ±0.1% rdg. ±0.2% f.s. --45 Hz ≤ f ≤ 66 Hz ±0.2% rdg. ±0.04% f.s. ±0.4% rdg. ±0.05% f.s. ±0.08°

66 Hz < f ≤ 440 Hz ±0.5% rdg. ±0.05% f.s. ±1.0% rdg. ±0.05% f.s. ±0.08°440 Hz < f ≤ 1 kHz ±0.8% rdg. ±0.05% f.s. ±1.5% rdg. ±0.05% f.s. ±0.4°1 kHz < f ≤ 2.5 kHz ±2.4% rdg. ±0.05% f.s. ±4% rdg. ±0.05% f.s. ±0.4°2.5 kHz < f ≤ 3.3 kHz ±6% rdg. ±0.05% f.s. ±10% rdg. ±0.05% f.s. ±0.8°

Frequency Window wave number

Maximum analysis order

0.1 Hz ≤ f < 80 Hz 1 100th80 Hz ≤ f < 160 Hz 2 100th160 Hz ≤ f < 320 Hz 4 60th320 Hz ≤ f < 640 Hz 2 60th640 Hz ≤ f < 6 kHz 4 50th6 kHz ≤ f < 12 kHz 2 50th12 kHz ≤ f < 25 kHz 4 50th25 kHz ≤ f < 50 kHz 8 30th50 kHz ≤ f < 101 kHz 16 15th101 kHz ≤ f < 201 kHz 32 7th201 kHz ≤ f < 300 kHz 64 5th

Frequency Harmonic voltage and current Harmonic power Phase differenceDC ±0.1% f.s. ±0.2% f.s. -

0.1 Hz ≤ f < 30 Hz ±0.05% f.s. ±0.05% f.s. ±0.1°30 Hz ≤ f < 45 Hz ±0.1% f.s. ±0.2% f.s. ±0.1°45 Hz ≤ f ≤ 66 Hz ±0.05% f.s. ±0.1% f.s. ±0.1°66 Hz < f ≤ 1 kHz ±0.05% f.s. ±0.1% f.s. ±0.1°1 kHz < f ≤ 10 kHz ±0.05% f.s. ±0.1% f.s. ±0.6°

10 kHz < f ≤ 50 kHz ±0.2% f.s. ±0.4% f.s. ±(0.020×f)° ±0.5°50 kHz < f ≤ 100 kHz ±0.4% f.s. ±0.5% f.s. ±(0.020×f)° ±1°100 kHz < f ≤ 500 kHz ±1% f.s. ±2% f.s. ±(0.030×f)° ±1.5°500 kHz < f ≤ 900 kHz ±4% f.s. ±5% f.s. ±(0.030×f)° ±2°

波形記錄Number of measurement channels

Voltage and current waveforms

Max. 6 channels (based on the number of installed channels)

Motor waveforms * Max. 2 analog DC channels + max. 4 pulse channels

Recording capacity 1 Mword × ((voltage + current) × number of channels + motor waveforms *)Waveform resolution 16 bits (Voltage and current waveforms use the upper 16 bits of the 18-bit A/D.)Sampling speed Voltage and current

waveformsAlways 5 MS/s

Motor waveforms * Always 50 kS/sMotor pulse * Always 5 MS/s

Compression ratio 1/1, 1/2, 1/5, 1/10, 1/20, 1/50, 1/100, 1/200, 1/500(5 MS/s, 2.5 MS/s, 1 MS/s, 500 kS/s, 250 kS/s, 100 kS/s, 50 kS/s, 25 kS/s, 10 kS/s)However, motor waveforms* are only compressed at 50 kS/s or less.

Recording length 1 kWord / 5 kWord / 10 kWord / 50 kWord / 100 kWord / 500 kWord / 1 MwordStorage mode Peak-to-peak compression or simple thinning

馬達分析 ( 僅限 PW6001-11 ~ -16)Number of input channels 4 channels

CH A Analog DC input / Frequency input / Pulse inputCH B Analog DC input / Frequency input / Pulse inputCH C Pulse inputCH D Pulse input

Operating mode Single, dual, or independent input

Input terminal profile Isolated BNC connectors

Input resistance (DC) 1 MΩ ±50 kΩ

Input method Function-isolated input and single-end input

Measurement parameters Voltage, torque, rpm, frequency, slip, motor power

Maximum input voltage ±20 V (analog DC and pulse operation)

Additional conditions for guaranteed accuracy

Input: Terminal-to-ground voltage of 0 V, after zero-adjustment

(1) 模擬 DC 輸入時 (CH A/CH B)Measurement range ±1 V / ±5 V / ±10 V

Effective input range 1% to 110% f.s.

Sampling 50 kHz, 16 bits

Response speed 0.2 ms (when LPF is OFF)

Measurement method Simultaneous digital sampling, zero-cross synchronization calculation method (averaging between zero-crosses)

Measurement accuracy ±0.05% rdg. ±0.05% f.s.

Temperature coefficient

±0.03% f.s./°C

Effects of common-mode voltage

±0.01% f.s. or less with 50 V applied between the input terminals and the enclosure (DC / 50 Hz / 60 Hz)

LPF OFF (20 kHz) / ON (1 kHz)

Display range From the range’s zero-suppression range setting to ±150%

Zero-adjustment Voltage ±10% f.s., zero-correction of input offsets that are less

(2) 頻率輸入時 (CH A/CH B)Detection level Low: 0.5 V or less; high: 2.0 V or more

Measurement frequency band

0.1 Hz to 1 MHz (at 50% duty ratio)

Minimum detection width

0.5 µs or more

Measurement accuracy ±0.05% rdg. ±3 dgt.

Display range 1.000 kHz to 500.000 kHz

(3) Pulse輸入時 (CH A / CH B / CH C / CH D)Detection level Low: 0.5 V or less; high: 2.0 V or more

Measurement frequency band

0.1 Hz to 1 MHz (at 50% duty ratio)

Minimum detection width

0.5 µs or more

Pulse filter OFF / Weak / Strong (When using the weak setting, positive and negative pulses of less than 0.5 µs are ignored. When using the strong setting, positive and negative pulses of 5 µs are ignored.)

Measurement accuracy ±0.05% rdg. ±3 dgt.

Display range 0.1 Hz to 800.000 kHz

Unit Hz / r/min.

Frequency division setting range

1~60000

Rotation direction detection

Can be set in single mode (detected based on lead/lag of CH B and CH C).

Mechanical angle origin detection

Can be set in single mode (CH B frequency division cleared at CH D rising edge).

Trigger mode SINGLE or NORMAL (with forcible trigger setting)Pre-trigger 0% to 100% of the recording length, in 10% stepsTrigger source Voltage and current waveform, waveform after voltage and current zero-cross filter,

manual, motor waveform*, motor pulse*Trigger slope Rising edge, falling edgeTrigger level ±300% of the range for the waveform, in 0.1% steps

*Motor waveform and motor pulse: Motor analysis and D/A-equipped models only

D/A 輸出 ( 僅限 PW6001-11 ~ -16)Number of output channels

20 channels

Output terminal profile D-sub 25-pin connector × 1

Output details - Switchable between waveform output and analog output (select f rom basic measurement parameters).

- Waveform output is fixed to CH1 to CH12.

D/A conversion resolution 16 bits (polarity + 15 bits)

Output refresh rate Analog output 10 ms / 50 ms / 200 ms (based on data update rate for the selected parameter)Waveform output 1 MHz

Output voltage Analog output ±5 V DC f.s. (max. approx. ±12 V DC)Waveform output Switchable between ±2 V f.s. and ±1 V f.s., crest factor of 2.5 or

greaterSetting applies to all channels.

Output resistance 100 Ω ±5 Ω

Output accuracy Analog output Output measurement parameter measurement accuracy ±0.2% f.s. (DC level)

Waveform output Measurement accuracy ±0.5% f.s. (at ±2 V f.s.) or ±1.0% f.s. (at ±1 V f.s.)(RMS value level, up to 50 kHz)

Temperature coefficient ±0.05% f.s./℃

顯示部分Display characters English / Japanese / Chinese (simplified, available soon)

Display 9” WVGA TFT color LCD (800 × 480 dots) with an LED backlight and analog resistive touch panel

Display value resolution 999999 count (including integration values)

Display refresh rate Measured values

Approx. 200 ms (independent of internal data update rate)When using simple averaging, the data update rate varies based on the number of averaging iterations.

Waveforms Based on display settings

16

外部介面(1) USB 閃存驅動器介面

Connector USB Type A connector × 1Electrical specifications USB 2.0 (high-speed)Power supplied Max. 500 mASupported USB flash drives

USB Mass Storage Class compatible

Recorded data - Save/load settings files- Save measured values/automatic recorded data (CSV format)- Copy measured values/recorded data (from internal memory)- Save waveform data, save screenshots (compressed BMP format)

(2) LAN 介面Connector RJ-45 connector × 1Electrical specifications IEEE 802.3 compliantTransmission method 10Base-T / 100Base-TX / 1000Base-T (automatic detection)Protocol TCP/IP (with DHCP function)Functions dedicated port (data transfers, command control)

(3) GP-IB 介面Communication method

IEEE 488.1 1987 compliant developed with reference to IEEE 488.2 1987Interface functions: SH1, AH1, T6, L4, SR1, RL1, PP0, DC1, DT1, C0

Addresses 00 to 30Functions Command control

(4) RS-232C 介面Connector D-sub 9-pin connector × 1, 9-pin power supply compatible, also used for external controlCommunication method

RS-232C, EIA RS-232D, CCITT V.24, and JIS X5101 compliantFull duplex, start stop synchronization, data length of 8, no parity, 1 stop bit

Flow control Hardware flow control ON/OFF

Communications speed 9,600 bps / 19,200 bps / 38,400 bps / 57,600 bps / 115,200 bps / 230,400 bpsFunctions Command control

Used through exclusive switching with external control interface

(5) 外部控制介面Connector D-sub 9-pin connector × 1, 9-pin power supply compatible, also used for RS-232CPower supplied OFF/ON (voltage of +5 V, max. 200 mA)

Electrical specifications 0/5 V (2.5 V to 5 V) logic signals or contact signal with terminal shorted or openFunctions Same operation as the [START/STOP] key or the [DATA RESET] key on the control panel

Used through exclusive switching with RS-232C

(6) 2台裝置同步介面Connector SFP optical transceiver, Duplex-LC (2-wire LC)Optical signal 850 nm VCSEL, 1 GbpsLaser class Class 1

Fiber used 50/125 µm multi-mode fiber equivalent, up to 500 mFunctions Sends data from the connected slave instrument to the master instrument, which

performs calculations and displays the results.

功能規格自動量程功能Functions The voltage and current ranges for each connection are automatically changed in response

to the input.Operating mode OFF/ON (selectable for each connection)Auto-range breadth Broad/narrow (applies to all channels)

Broad The range is increased by one if the peak value is exceeded for the connection or if there is an RMS value that is greater than or equal to 110% f.s.The range is lowered by two if all RMS values for the connection are less than or equal to 10% f.s.(However, the range is not lowered if the peak value would be exceeded with the lower range.)

Narrow The range is increased by one if the peak value is exceeded for the connection or if there is an RMS value that is greater than or equal to 105% f.s.The range is lowered by one if all RMS values for the connection are less than or equal to 40% f.s.(However, the range is not lowered if the peak value would be exceeded with the lower range.)When ∆-Y conversion is enabled, the range reduction is determined by

multiplying the range by 31

.

時間控制功能Timer control OFF, 10 sec. to 9999 hr. 59 min. 59 sec. (in 1 sec. steps)Actual time control OFF, start time/stop time (in 1 min. steps)Intervals OFF / 10 ms / 50 ms / 200 ms / 500 ms / 1 sec. / 5 sec. / 10 sec. / 15 sec. / 30 sec.

1 min. / 5 min. / 10 min. / 15 min. / 30 min. / 60 min.

保持功能Hold Stops updating the display with all measured values and holds the value currently being

displayed.Used exclusively with the peak hold function.

Peak hold Updates the measured value display each time a new maximum value is set.Used exclusively with the hold function.

運算功能(1) 整流方式

Functions Selects the voltage and current values used to calculate apparent and reactive power and power factor.

Operating mode RMS/mean (Can be selected for each connection’s voltage and current.)

(2) 規範比VT (PT) ratio OFF/ 0.01 to 9999.99CT ratio OFF/ 0.01 to 9999.99

(3) 平均值 (AVG)Functions All instantaneous measured values, including harmonics, are averaged.Operating mode OFF / Simple averaging / Exponential averagingOperation Simple

averagingAveraging is performed for the number of simple averaging iterations for each data update cycle, and the output data is updated.The data update rate is lengthened by the number of averaging iterations.

Exponential averaging

Data is exponentially averaged using a time constant defined by the data update rate and the exponential averaging response rate.

During averaging operation, averaged data is used for all analog output and save data.Number of simple averaging iterations

Number of averaging iterations

5 10 20 50 100

Data update rate

10 ms 50 ms 100 ms 200 ms 500 ms 1 sec.50 ms 250 ms 500 ms 1 sec. 2.5 sec. 5 sec.200 ms 1 sec. 2 sec. 4 sec. 10 sec. 20 sec.

Exponential averaging response rate

Setting FAST MID SLOW

Data update rate

10 ms 0.1 sec. 0.8 sec. 5 sec.50 ms 0.5 sec. 4 sec. 25 sec.

200 ms 2.0 sec. 16 sec. 100 sec.

These values indicate the time required for the final stabilized value to converge on ±1% when the input changes from 0% f.s. to 90% f.s.

(4) 效率及損耗計算Calculated items Active power value (P), fundamental wave active power (Pfnd), and motor power (Pm)

(Motor analysis and D/A-equipped models only) for each channel and connectionNumber of calculations that can be performed

Four each for efficiency and loss

Formula Calculated items are specified for Pin(n) and Pout(n) in the following format:Pin = Pin1 + Pin2 + Pin3 + Pin4, Pout = Pout1 + Pout2 + Pout3 + Pout4

η = 100 × |Pout|

|Pin|, Loss = |Pin|-|Pout|

(5) 選擇運算公式Functions Selects the reactive power, power factor, and power phase angle formulas.Formula TYPE1 / TYPE2 / TYPE3

TYPE1 Compatible with TYPE1 as used by the Hioki 3193 and 3390.TYPE2 Compatible with TYPE2 as used by the Hioki 3192 and 3193.TYPE3 The sign of the TYPE1 power factor and power phase angle are used as the

active power signs.

(6) Delta 轉換Functions Δ-Y When using a 3P3W3M or 3V3A connection, converts the line voltage

waveform to a phase voltage waveform using a virtual neutral point.Y-Δ When using a 3P4W connection, converts the phase voltage waveform to

a line voltage waveform.

Voltage RMS values and all voltage parameters, including harmonics, are calculated using the post-conversion voltage.

(7) 電流感測器相位補償運算Functions Corrects the current sensor’s harmonic phase characteristics using calculations.Correction value settings

Correction points are set using the frequency and phase difference.

Frequency 0.1 kHz to 999.9 kHz (in 0.1 kHz steps)Phase difference 0.0 deg. to ±90.0 deg. (in 0.1 deg. steps)

However, the time difference calculated from the frequency’s phase difference is subject to a maximum value of 50 µs.

顯示功能(1) 接線確認畫面

Functions Displays a connection diagram and voltage and current vectors based on the selected measurement lines.The ranges for a correct connection are displayed on the vector display so that the connection can be checked.

Mode at startup User can select to display the connection confirmation screen at startup (startup screen setting).

Simple settings Commercial power supply / Commercial power supply high-resolution HD / DC / DC high-resolution HD / PWM / High-frequency / Other

(2) 向量顯示畫面Functions Displays a connection-specific vector graph along with associated level values and phase

angles.

(3) 數值顯示畫面Functions Displays power measured values and motor measured values for up to six instrument

channels.Display patterns Basic by

connectionDisplays measured values for the measurement lines and motors combined in the connection.There are four measurement line patterns: U, I, P, and Integ.

Selection display

Creates a numerical display for the measurement parameters that the user has selected from all basic measurement parameters in the location selected by the user.There are 4-, 8-, 16-, and 32-display patterns.

(4) 諧波顯示畫面Functions Displays harmonic measured values on the instrument’s screen.Display patterns Display bar graph: Displays harmonic measurement parameters for user-specified

channels as a bar graph.Display list: Displays numerical values for user-specified parameters and user-specified channels.

(5) 波形顯示畫面Functions Displays the voltage and current waveforms and motor waveform.Display patterns All-waveform display, waveform + numerical display

自動儲存功能Functions Saves the specified measured values in effect for each interval.Save destination OFF / Internal memory / USB flash driveSaved parameters User-selected from all measured values, including harmonic measured valuesMaximum amount of saved data

Internal memory 64 MB (data for approx. 1800 measurements)USB flash drive Approx. 100 MB per file (automatically segmented) × 20 files

Data format CSV file format

17

兩台裝置同步功能功能 Sends data from the connected slave instrument to the master instrument, which

performs calculations and displays the results.In numerical synchronization mode, the master instrument operates as a power meter with up to 12 channels.In waveform synchronization mode, the master instrument operates while synchronizing up to three channels from the slave instrument at the waveform level.

操作模式 OFF / Numerical synchronization / Waveform synchronizationNumerical synchronization cannot be selected when the data update rate is 10 ms.For both master instruments and slave instruments, waveform synchronization operates only when there are 3 or more channels.

同步項目 Numerical synchronization mode Data update timing, start/stop/data resetWaveform synchronization mode Voltage/current sampling timing

同步延遲 Numerical synchronization mode Max. 20 µsWaveform synchronization mode Up to 5 samples

傳輸項目 Numerical synchronization mode Basic measurement parameters for up to six channels (including motor data)

Waveform synchronization mode Voltage/current sampling waveforms for up to three channels (not including motor data). However, the maximum number of channels is limited to a total of six , including the master instrument’s channels.

其他功能時鐘功能 Auto-calendar, automatic leap year detection, 24-hour clock

實際時間精度 When the instrument is on, ±100 ppm; when the instrument is off, within ±3 sec./day (25℃ )

感測器識別 Current sensors connected to Probe1 are automatically detected.

調零功能 After the AC/DC current sensor’s DEMAG signal is sent, zero-correction of the voltage and current input offsets is performed.

觸控螢幕校正 Position calibration is performed for the touch screen.

鍵鎖 While the key lock is engaged, the key lock icon is displayed on the screen.

一般規格操作環境 Indoors at an elevation of up to 2000 m in a Pollution Level 2 environment

儲存溫濕度範圍 -10°C to 50°C, 80% RH or less (no condensation)

操作溫濕度範圍 0°C to 40°C, 80% RH or less (no condensation)

耐壓 50 Hz/60 Hz5.4 kVrms AC for 1 min. (sensed current of 1 mA)Between voltage input terminals and instrument enclosure, and between current sensor input terminals and interfaces1 kVrms AC for 1 min. (sensed current of 3 mA)Between motor input terminals (Ch. A, Ch. B, Ch. C, and Ch. D) and the instrument enclosure

適用標準 Safety EN61010EMC EN61326 Class A, EN61000-3-2, EN61000-3-3

額定電源電壓 100 V AC to 240 V AC, 50 Hz/ 60 Hz

最大額定功率 200 VA

外部尺寸 Approx. 430 (W) × 177 (H) × 450 (D) mm (excluding protruding parts)

重量 Approx. 14 kg ±0.5 kg (PW6001-16)

備份電源使用壽命 Approx. 10 years (reference value at 23°C) (lithium battery that stores time and setting conditions)

產品保固期限 1 year

保證精度時間 6 months (1-year accuracy = 6-month accuracy × 1.5)

精度保證條件 Accuracy guarantee temperature and humidity range: 23°C ±3°C, 80% RH or lessWarm-up time: 30 min. or more

附件 Instruction manual x 1, power cord x 1D-sub 25-pin connector × 1 (PW6001-1x only)

手動儲存功能(1) 測量數據

功能 The [SAVE] key saves specified measured values at the time it is pressed.Comment text can be entered for each saved data point, up to a maximum of 20 alphanumeric characters.*The manual save function for measurement data cannot be used while automatic save is in progress.

儲存位置 USB flash drive

儲存參數 User-selected from all measured values, including harmonic measured values

數據形式 CSV file format

(2) 波形數據功能 A button on the touch screen saves waveform data at the time it is pressed.

Comment text can be entered for each saved data point, up to a maximum of 40 alphanumeric characters.*The manual save function for measurement data cannot be used while automatic saving is in progress.


數據形式 CSV file format

(3) 畫面擷取功能 The [COPY] key saves a screenshot to the save destination.

*This function can be used at an interval of 1 sec or more while automatic saving is in progress.


備註輸入 OFF / Text / Handwritten When set to [Text], up to 40 alphanumeric charactersWhen set to [Handwritten], hand-drawn images are pasted to the screen.

數據形式 Compressed BMP

(4) 設定數據功能 Saves settings information to the save destination as a settings file via functionality

provided on the File screen.In addition, previously saved settings files can be loaded and their settings restored on the File screen.However, language and communications settings are not saved.


公式基本運算公式

接線1P2W 1P3W 3P3W2M 3V3A 3P3W3M 3P4W

參數

電壓、電流有效值

( 真有效值 )

Xrms(i)=

1M (X(i)s)2

M-1

S = 0

Xrms(i)(i+1) =12 ( Xrms(i) + Xrms(i+1) )

Xrms123 = 13 (Xrms1+ Xrms2+Xrms3)

Xrms456 = 13 (Xrms4+ Xrms5+ Xrms6)

電壓、電流平均值相當於有效

值

Xmn(i) =

1M2 2 X(i)s

M-1

S = 0

Xmn(i)(i+1) =12 (Xmn(i)+Xmn(i+1))

Xmn123 =13 (Xmn1+ Xmn2+ Xmn3)

Xmn456 =13 (Xmn4+ Xmn5+ Xmn6)

電壓，電流AC 成分 Xac(i) = (Xrms(i) ) 2 - (Xdc(i) ) 2

電壓，電流平均值

Xdc(i) = 1M X(i)s

M-1

S = 0

電壓，電流基波成分 X1(i) for harmonic voltage and current in the harmonic formula

電壓，電流峰值Xpk+(i) = X(i)s Max. value for M itemsXpk-(i) = X(i)s Min. value for M items

有效功率

P(i) =1M (U(i)s × I(i)s )

M-1

S = 0

P(i)(i+1) = P(i)+P(i+1)P123=P1+P2

P456=P4+P5

P123 = P1+P2+P3

P456 = P4+P5+P6

- When connecting 3P3W3M and 3P4W, use phase voltage for voltage waveform u(i)s. 3P3W3M: u1s = (U1s - U3s)/3, u2s = (U2s - U1s)/3, u3s = (U3s

U2s)/3- When connecting 3V3A, use line-to-line voltage for voltage U(i). (The same formula is used for 3P3W2M and 3V3A.)- The polarity sign for active power P indicates the direction of current during power consumption (+P) and power regeneration (-P).

視在功率

S(i) =U(i)×I(i)S(i)(i+1)

=S(i)+S(i+1)

S(i)(i+1)=

(S(i)+S(i+1))32

S123= 33 (S1+S2+S3)

S456= 33 (S4+S5+S6)

S123 = S1+S2+S3

S456 = S4+S5+S6

Select rms / mn for U(i) and I(i).When connecting 3P3W3M and 3P4W, use phase voltage for voltage U(i).When connecting 3V3A, use line-to-line voltage for voltage U(i).

無效功率

When selecting formula type 1 and type 3

Q(i) =

si(i) S(i) 2-P(i) 2Q(i)(i+1) = Q(i)+Q(i+1)

Q123=Q1+Q2

Q456=Q4+Q5

Q123=Q1+Q2+Q3

Q456=Q4+Q5+Q6

When selecting formula type 2

Q(i) =

S(i) 2-P(i) 2

Q(i)(i+1) =

S(i)(i+1) 2- P(i)(i+1) 2

Q123= S123 2- P123 2 ,

Q456= S456 2- P456 2

- The polarity sign si for reactive power Q for formula type 1 and type 3 indicates leading and lagging polarity, [None] indicates lagging polarity (LAG), and [-] indicates leading polarity (LEAD).

- For polarity sign si(i), lead and lag for voltage waveform U(i)s and current waveform I(i)s are acquired for each measurement channel (i).- When connecting 3P3W3M and 3P4W, use phase voltage for voltage waveform U(i)s. 3P3W3M: u1s = (U1s - U3s)/3, u2s = (U2s - U1s)/3, u3s = (U3s

- U2s)/3- There is no polarity sign when formula type 2 is selected.

功率因數


P(i)S(i)

(i) =si(i) P(i)(i+1)S(i)(i+1)

(i)(i+1) =si(i)(i+1) P123S123

123 =si123 ,

P456S456

456 =si456


P(i)S(i)

(i) = P(i)(i+1)S(i)(i+1)

(i)(i+1) = P123S123

123 = , P456S456

456 =


P(i)S(i)

(i) = P(i)(i+1)S(i)(i+1)

(i)(i+1) =P123S123

123 = , P456S456

456 =- The polarity sign si for power factor λ for formula type 1 indicates leading and lagging polarity, [None] indicates lagging polarity (LAG), and [-] indicates leading polarity (LEAD).

- For polarity sign si(i), lead and lag for voltage waveform U(i)s and current waveform I(i)s are acquired for each measurement channel (i). si12, si34, and si123

are acquired from the signs for Q12, Q34, and Q123.- For formula type 3, the polarity sign for active power P is used.

功率相位角


(i)=si(i)cos-1 (i) (i)(i+1) =si(i)(i+1)cos-1 (i)(i+1) 123 =si123 cos-1 123 , 456 =si456 cos-1456


(i) =cos-1 (i) (i)(i+1) =cos-1 (i)(i+1) 123 = cos-1 123, 456 = cos-1 456


(i) =cos-1(i) (i)(i+1) =cos-1

(i)(i+1) 123 = cos-1123 , 456 = cos-1 456

- For formula type 1, the polarity sign si indicates leading and lagging polarity, [None] indicates lagging polarity (LAG), and [-] indicates leading polarity (LEAD).

- For polarity sign si(i), lead and lag for voltage waveform U(i)s and current waveform I(i)s are acquired for each measurement channel (i). si12, si34, and si123

are acquired from the signs for Q12, Q34, and Q123.- For formula type 3, the polarity sign for active power P is used.- When calculating formula type 1 and type2, cos-1|λ(i)| is used when P ≥ 0; |180-cos-1|λ|| is used when P < 0.

電壓，電流脈動率(Xpk+(i) - Xpk-(i))

2× Xdc(i) ×100

X : 電壓 U or 電流 I ,(i) : 測量通道 , M: 同步時間內的採樣數 , s : 採樣點編號

馬達分析運算公式測量參數 Setting Formula

電壓 Analog DC1M As

M-1

S = 0

M: Number of samples during synchronized timing period; s: Sample point number

脈動頻率 Pulse Pulse frequency

扭矩

Analog DC1M As ×

M-1

S = 0 scaling setting


Frequency(Measurement frequency - fc setting) × rated torque value

fd setting

RPM

Analog DC1M As ×

M-1

S = 0scaling setting


Pulse

60 × pulse frequencyPulse count setting

siThe polarity sign si is acquired based on the A-phase pulse rising/falling edge and the B-phase pulse logic level (high/low) when direction of rotation detection is enabled in single mode.

馬達功率2× ×RPM

60Torque × × unit coefficient

The unit coefficient is 1 if the torque unit is N·m, 1/1000 if mN·m, and 1000 if kN·m.

滑差2 × 60 × input frequency - RPM × pole number setting

2 × 60 × input frequency100×

The input frequency is selected from f1 to f6.

18

型號 AC/DC 電流感測器 CT6862-05

AC/DC 電流感測器 CT6863-05

AC/DC 電流感測器 9709-05

AC/DC 電流感測器 CT6865-05

外觀

一次額定電流 50A AC/DC 200A AC/DC 500A AC/DC 1000A AC/DC

可測量導體直徑 Max.φ 24mm (0.94") Max.φ 24mm (0.94") Max.φ 36mm (1.42") Max.φ 36mm (1.42")

基本精度 ±0.05 %rdg.±0.01 % f.s. , ±0.2° (DC and 16Hz to 400Hz)

±0.05 %rdg.±0.01 % f.s. , ±0.2° (DC and 45Hz to 66Hz)

±0.05 %rdg.±0.01 % f.s. , ±0.2° (DC and 16Hz to 66Hz)

頻率特性( 振幅，代表值 )

DC to 16 Hz : ±0.1%rdg.±0.02%f.s. 50kHz to 100kHz :±2.0%rdg.±0.05%f.s. 700kHz to 1MHz: ±30%rdg.±0.05%f.s.

DC to 16 Hz : ±0.1%rdg.±0.02%f.s. 50kHz to 100kHz : ±5%rdg.±0.02%f.s. 300kHz to 500k Hz: ±30%rdg.±0.05%f.s.

DC to 45Hz : ±0.2%rdg.±0.02%f.s. 5kHz to 10kHz : ±2%rdg.±0.1%f.s. 20kHz to 100kHz : ±30%rdg.±0.1%f.s.

DC to 16Hz: ±0.1%rdg.±0.02%f.s. 500Hz to 5kHz: ±5%rdg.±0.05%f.s. 10kHz to 20kHz: ±30%rdg.±0.1%f.s.

操作溫度範圍 -30°C to 85°C (-22°F to 185°F) -30°C to 85°C (-22°F to 185°F) 0°C to 50°C (-32°F to 122°F) -30°C to 85°C (-22°F to 185°F)

導體位置的影響 Within ±0.01%rdg. (DC to 100Hz) Within ±0.01%rdg. (DC to 100Hz) Within ±0.05%rdg. (DC 100A) Within ±0.05%rdg. (AC1000A,50/60Hz)

外部磁場的影響 10mA equivalent or lower(400A/m, 60Hz and DC)

50mA equivalent or lower(400A/m, 60Hz and DC)



最大額定對地電壓 CAT III 1000Vrms CAT III 1000Vrms CAT III 1000Vrms CAT III 1000Vrms

尺寸 70W(2.76")×100H(3.94")×53D(2.09")mm 160W(6.30")×112H(4.41")×50D(1.97")mm

重量 Approx. 340g (12.0 oz.) Approx. 350g (12.3oz.) Approx. 850g (30.0oz.) Approx. 980g (35.3oz)

衰减特性

型號 AC/DC CURRENT PROBECT6841-05

AC/DC CURRENT PROBECT6843-05

外觀

一次額定電流 20A AC/DC 200A AC/DC

可測量導體直徑 Max.φ 20mm (0.79") Max.φ 20mm (0.79")

基本精度 ±0.3% rdg.±0.01% f.s., ±0.1° (DC < f ≤ 100Hz)±0.3% rdg.±0.05% f.s., (DC)

±0.3% rdg.±0.01% f.s., ±0.1° (DC < f ≤ 100Hz)±0.3% rdg.±0.02% f.s., (DC)


100Hz to 1kHz : ±0.5%rdg.±0.02%f.s.1kHz to 10kHz : ±1.5%rdg.±0.02%f.s.10kHz to 100kHz : ±5.0%rdg.±0.05%f.s.100kHz to 300kHz : ±10%rdg.±0.05%f.s.300kHz to 1MHz : ±30%rdg.±0.05%f.s.

100Hz to 1kHz : ±0.5%rdg.±0.02%f.s.1kHz to 10kHz : ±1.5%rdg.±0.02%f.s.10kHz to 50kHz : ±5.0%rdg.±0.02%f.s.50kHz to 300kHz : ±15%rdg.±0.05%f.s.300kHz to 500kHz : ±30%rdg.±0.05%f.s.

操作溫度範圍 -40°C to 85°C (-40°F to 185°F)

導體位置的影響 Within ±0.1%rdg. (DC to 100Hz)

外部磁場的影響 0.05A equivalent or lower(400A/m, 60Hz and DC)

尺寸 153W(6.02”) × 67H(2.64”) × 25D(0.98”) mm

重量 Approx. 350 g (12.3oz) Approx. 370 g (13.1oz)

衰减特性

高精度感測器（連接至輸入端子測試探棒 1）

關於轉換線連接下列電流感測器至高精度感測器端子時 , 需要轉換纜線CT9900

轉換纜線CT9900

+

與 CT6862、CT6863、9709、 CT6865、CT6841、CT6843 一起使用使用機型名稱內無“-05”的感測器時，必須使用轉換纜線 CT9900進行連接。

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-40°C ≤ Ambient temperature ≤ 40°C

40°C < Ambient temperature ≤ 60°C


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型號勾式電流轉換器3273-50

勾式電流轉換器3274



外觀

一次額定電流 DC to 50 MHz (-3dB) DC to 10 MHz (-3dB) DC to 2 MHz (-3dB) DC to 100 MHz (-3dB)

可測量導體直徑 30A AC/DC 150A AC/DC 500A AC/DC 30A AC/DC

基本精度 5 mm dia. or less(insulated conductors)

20 mm dia. or less (insulated conductors)

20 mm dia. or less (insulated conductors)

5 mm dia. or less(insulated conductors)


0 to 30 A rms ±1.0% rdg. ±1 mV 30 A rms to 50 A peak ±2.0% rdg.

(At 45 to 66 Hz, DC)







操作溫度範圍 0℃ to 40℃ (32°F to 104°F)80% rh or less (no condensation)

0℃ to 40℃ (32°F to 104°F)80% rh or less (no condensation)



外部磁場的影響 Max. 20 mA or equivalent(400A/m, 60Hz and DC)

Max. 150 mA or equivalent(400A/m, 60Hz and DC)



尺寸175W (6.89”) × 18H(0.71”) × 40D (1.57”) mm

Cable length: 1.5 m176W (6.93”) × 69H (2.72”) × 27D(1.06”) mm

Cable length: 2 m176W (6.93”) × 69H (2.72”) × 27D(1.06”) mm

Cable length: 2 m175W (6.89”) × 18H(0.71”) × 40D (1.57”) mm

Cable length: 1.5 m

重量 Approx. 230 g (8.1oz) Approx. 500 g (17.6oz) Approx. 520 g (18.3oz) Approx. 240 g (8.5oz)

衰减特性

寬帶測試針頭（連接至輸入端子測試針頭 2）

感測器切換方法

高精度感測器端子：滑動蓋子到左邊。

寬頻帶測試針頭端子 : 滑動蓋子到右邊。

連 CT6862-05, CT6863-05, 9709-05, CT6865-05, CT6841-05 或 CT6843-05 時

連 3273-50, 3274, 3275, 3276, CT6700 或 CT6701 時

勾式電流轉換器CT6700

勾式電流轉換器CT6701

外觀

頻寬 DC to 50 MHz (-3dB) DC to 120 MHz (-3dB)

一次額定電流 5Arms AC/DC 5Arms AC/DC

可測量導體直徑 5 mm dia. or less( 絕緣導體 )

5 mm dia. or less( 絕緣導體 )

基本精度typical ±1.0% rdg. ±1 mV

±3.0% rdg. ±1 mV (At 45 to 66 Hz, DC)

typical ±1.0% rdg. ±1 mV ±3.0% rdg. ±1 mV


使用溫濕度範圍 0℃ to 40℃ (32°F to 104°F)80% rh or less ( 無凝結 )

0℃ to 40℃ (32°F to 104°F)80% rh or less ( 無凝結 )

外部磁場的影響 Max. 20 mA or equivalent(400A/m, 60Hz and DC)


尺寸 155W (6.10”) × 18H(0.71”) × 26D (1.02”) mmCable length: 1.5 m

155W (6.10”) × 18H(0.71”) × 26D (1.02”) mmCable length: 1.5 m

重量 Approx. 250 g (8.8oz) Approx. 250 g (8.8oz)

衰减特性

1 G

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HEADQUARTERS 81 Koizumi, Ueda, Nagano, 386-1192, Japan TEL +81-268-28-0562 FAX +81-268-28-0568 http://www.hioki.com / E-mail: [email protected]

2015 年 2 月 27 日止所有資料均正確。所有規格若有更改，恕不另行通知。 PW6001T1-55B Printed in Japan

發行

註 : 本目錄中所記載的公司名稱和產品名稱為各公司的商標或註冊商標。

型號內建通道數馬達分析 & D/A 輸出PW6001-01 1ch —

PW6001-02 2ch —

PW6001-03 3ch —

PW6001-04 4ch —

PW6001-05 5ch —

PW6001-06 6ch —

PW6001-11 1ch a

PW6001-12 2ch a

PW6001-13 3ch a

PW6001-14 4ch a

PW6001-15 5ch a

PW6001-16 6ch a

配件: 說明書×1，電源線×1，D-sub 25針連接器（僅 PW6001-11 至 16）×1

配置

型號一次額定電流 AC/DC 電流感測器 CT6862-05 50A

AC/DC 電流感測器 CT6863-05 200A

AC/DC 電流感測器 9709-05 500A

AC/DC 電流感測器 CT6865-05 1000A

AC/DC 電流探棒 CT6841-05 20A

AC/DC 電流探棒 CT6843-05 200A

勾式電流轉換器 3273-50 30A

勾式電流轉換器 3274 150A



電流探棒 CT6700 5A

電流探棒 CT6701 5A

電流測量選配品

紅，黑：各11000 V 規格測試線長度 :3 m (9.84 ft)

CAT Ⅳ 600VCAT Ⅲ 1000V

CAT Ⅳ 600VCAT Ⅲ 1000V

紅，黃，藍，灰：各1，黑色 :4 1000 V 規格測試線長度 :3 m (9.84 ft)

紅，黑：各1，更改尖端電壓線以使用

電壓測量選配品

連接選配品

其他

GP-IB 連接纜線 9151-02 連接纜線9444

光學連接纜線L6000

轉換纜線 CT9900

- 光學連接纜線最長 500 公尺

- 機架安裝配件（EIA，JIS）

- 攜帶盒（硬盒，附腳輪）

也可提供下列訂製品。欲了解更多資訊，請聯繫日置經銷商或子公司。

長度 :10m (32.8ft)同步控制用

PW6001-16（附 6ch 和馬達分析＆ D / A 輸出）

- 可選配的電壓線和電流感測器都需要進行測量。- 根據訂單，工廠安裝所指定的內置 ch 數量，包含馬達分析和 D/A 輸出。這些選配品日後無法更改或追加。

與 CT6862、CT6863、9709、 CT6865、CT6841、CT6843 一起使用。使用機型名稱內無“-05”的感測器時，必須使用轉換纜線 CT9900進行連接。

攜帶盒

電壓線 L1000電壓線 L9438-50

CAT III 1000V

鉤夾組 9243

長度 :1.7m (5.58ft)馬達信號輸入用

連接線L9217

長度 :5m (16.41ft)與直交叉轉換纜線一起提供

LAN 纜線 9642 RS-232C 纜線 9637

長度 :1.8m (5.91ft)9 針至 9 針

長度 :2m (6.56ft) 長度 :1.5m (4.92ft)外部控制界面（直）9 針至針用

提高電力轉換效率 - kd17.com.t · 與hioki ct6700 結合時，也可測量1 ma...

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