感應電子式穩壓器 (乾式風冷式) (TL-IVR)
Induction Voltage Regulators (Air-forced Cooling Type) (TL-IVR)

感應式電壓調整器(IVR)通常搭配自動穩壓功能,故稱感應電子式穩壓器感應式自動穩壓器、誘導式自動穩壓器(AVR)(AIVR)。功能與電源電壓調整器SLIDAC相同,乃採定子、轉子感應方式,調整相位角度,於負載中無接點無段調整。使用線性比較邏輯電路,檢出輸出電壓自動穩定電壓、平衡電壓,故名為感應電子式穩壓器。
Induction Voltage Regulator (IVR) is usually equipped with an automatic voltage stabilization function, hence it is also called an Induction Electronic Voltage Stabilizer or Automatic Induction Voltage Regulator (AVR)(AIVR). The function of IVR is the same as the variable transformer(SLIDAC), which is the stator and rotor induction method. The phase angle is adjusted, and the load has no contact and stepless adjustment. The linear comparison logic circuit is used to detect the output voltage to automatically stabilize the voltage and balance the voltage, so it is called an IVR.


規格總表& 外型設計
Specification& Exterior

( 特殊規格皆可訂製 Special specifications can be customized )

 

相數
PHASE(Φ)

單相SINGLE PHASE、三相THREE PHASE

頻率
FREQUENCY(Hz)

47~63Hz

輸入電壓
I/P(V)

110~6600V

穩定輸入電壓範圍
THE RANGE OF STABLIZING I/P VOLTAGE

+/-15~50%

輸出電壓可調範圍
THE ADGUSTED RANGE OF O/P VOLTAGE

+/-2%

輸出精度
O/P ACCURACY

+/-0.8~3%

總諧波失真率
Waveform Distortion

0

容量
LOAD(KVA)

10~500KVA

反應時間 Response time

0.5~2s (depend on the range of voltage)

效率
EFFICIENCY

>97%

調整方式
ADJUSTMENT METHODS

(1) 手動型: 可使用手輪旋轉以調整所需之電壓
Manual Type: Voltage adjustment is performed by rotating a handwheel.

(2) 電動型: 使用工業用遙控器操控以調整所需之電壓
Motorized Type: Voltage adjustment is controlled via an industrial remote controller.

(3) 自動型: 監測偏離值以達成自動調整電壓
Automatic Type: Voltage is automatically adjusted by monitoring deviation values.

欠相保護
UNDER PHASE

LED Display (Buzzer warning)

超載保護
OVER LOAD

LED Display (Buzzer warning)

油量不足警示
OIL EMPTY

LED Display (Buzzer warning)

過熱保護
OVER TEMPERATURE

LED Display (Buzzer warning)

噪音規範
NOISE LEVEL

<40dB

溫度規範
TEMPERATURE

-20~+40°C

濕度規範
HUMIDITY

0- 90% non-condensing

 
特殊規格皆可訂製 Special specifications can be customized
實際外型式樣須根據客戶規格、使用場所、安全考量、其他特殊需求等進行規劃、設計,以達到設備最佳效率以及符合使用效益。
The actual design and appearance must be planned and developed based on customer specifications, the usage environment, safety considerations, and other special requirements to achieve optimal equipment efficiency and meet operational needs.