Home> Products > Inductive Voltage Regulator > Heavy Duty IVR, Air-forced Cooling Type > Heavy Duty IVR, Air-forced Cooling Type
Heavy Duty IVR, Air-forced Cooling Type

Model:

HPI-D Series

Type:

Air-forced Cooling Type

Capacity:

10~2,500KVA

Made in:

Taiwan, ROC

Banks Head & Branch Offices Metal Stamping Plants
IT-Data & Telecom Head Offices FM Radio Stations Facilities
Medium & Large Sized Hotels IC Finished Plant
Medium to Large Offices Facilities Industrial & Manufacturing Plants
Government Ministries Airports Facilities & Terminals
Internet Café’s Medium & Large Cold Storage Facilities
Gasoline Stations Manufacturing and Testing

  

Brush-less, Wear-free, Super IVR!
 
ROBUST DESIGN, WEAR-FREE
 

Brush-less. No Sliding Contacts. No Moving Parts to wear out. No Sparks.

Capable of sustaining spikes & Non-linear Load Impulses

AT LEAST 20 YEARS LONG LIFE SPAN
 

In addition to its inherently contactless design, by use of high quality materials like Nippon

Steel # H14 silicon steel sheets, “PEWC” enamelled wires, DuPont Nomex insulation

papers, single phase induction motor and other industrial grade components, and strict

quality controlled inspection, at least 20 years life span is warranty under normal operation.

PRECISE AND LINEAR VOLTAGE REGULATION
 

Adopt electromagnetic induction working theory to do linear voltage regulation. No contact

movement. No tap from the transformer, there is no coupling noise, no boost or sag, to

ensure the output voltage accuracy of IVR can be stabilized within a safety working range.

HIGH RELIABILITY & ENDURABLE, TOLERATE SEVERE ENVIRONMENTS
 

•  Wide Input Voltage Range: ±15% (Option: ±20% ~ 50%)

• >/= 98% VA Efficiency (from 0 to 100% load)

• 0.95 ~1 Input Power Factor

• Low Steel Loss; Low Copper Loss,

• ±1% ~±2% Precise Voltage Regulation Rate

ADVANTAGES:

   a. Improve Plant Performance & Efficiency

   b. Increase Facility’s Profitability

   c. Increase Equipment Life Span

   d. Reduce Production Costs

   e. Reduce Maintenance Costs

SUPER LOAD-CARRYING CAPACITY
 

•  110% - 1hour; 120% - 30mins;

•  150% - 15mins; 200% - 2mins;

•  300% - 12secs; 500% - 6 secs.

•  Designed to withstand HEAVY loads Currents

•  Designed to withstand HIGH motor Startup / Inrush currents

FULL ALARMING CAPABILITIES (VISUAL AND AUDIO)
 

“FAULT” Red indicator will light up and buzzer alarm when IVR is abnormal.

•  Current Limit & Circuit Protection

•  Loss Phase & Phase Reversed Protection

•  Over Voltage & Low Voltage Protection

•  Over Temperature Protection

DIGITAL DISPLAY INPUT VOLTAGE, OUTPUT VOLTAGE, OUTPUT AMPERE
 

By means of 3-Phase AS / VS Change Over Switch,easily  to see Input Voltage,

Output Voltage, Output  Ampere per  each phase

(Option: Meter with Wide Angle Hanging Wire type)

SELF DIAGNOSTIC WITH REAL STATUS INDICATORS
 

When the internal voltage regulating circuit doesn’t work, the IVR will have self-testing, and

display the real status with different color indications. It is easy to find fault and troubleshoot

the problem.

MANUAL VOLTAGE ADJUSTMENTS
 

In case automatic voltage regulation function were failed, change Automatic function to

“MANUAL” function, press 『UP』 button when under voltage; press『DOWN』 button

when over voltage, in order to have voltage adjustment.

OPERATION SYSTEM: AUTOMATIC, ELECTRIC AND MANUAL
 

To ensure the IVR can regulate voltage 24/7/365.

FREE CONTACTS POINTS FOR ABNORMAL SIGNAL
 

The front panel of IVR supplies all kinds of abnormal signal (DC5V) for external control.

CUSTOMIZATION WELCOME
 

Please contact us, we will welcome the opportunity to review your problems and provide

you with necessary solutions.

MODEL

HPI-D

33100

HPI-D

33150 

HPI-D

33200

HPI-D

33250

HPI-D

33300

HPI-D

33350

HPI-D

33400

HPI-D

33500

HPI-D

33600

HPI-D

33750

HPI-D

331000

>1100Kva or others, pls ask

CAPACITY KVA 100 150 200 250 300 350 400 500 600 750 1000
   INPUT
Nominal Voltage 110V, 220V, 380V, 400V, 415V, 440V, 3.3KV, 4.16KV, 11KV, 22KV
Voltage Range ±15% (Option: ±20%, ±25%, ±30% or others)
Frequency 47Hz ~ 63Hz
Power Factor 0.95 ~ 1
  OUTPUT
Nominal Voltage Same as Input Nominal Voltage
Voltage Regulation Rate ±1% ~ ±2% Adjustable
Response Time < 1.5ms
Total Harmonic Distortion < 1%
Efficiency > 98% at full load typical
Overload 10% - 1 hour; 120% - 30 minutes; 150% - 15 minutes; 200% - 2 minutes; 300% - 12 seconds; 500% - 6 seconds (linear load)
Adjusting Methods 1) Auto-adjustment, Electro-adjustment, Manual-adjustment;
2) Voltage-UP Time Adjustment (0.1~5 Seconds Adjustable)
3) Voltage-DOWN Time Adjustment (0.1~5 Seconds Adjustable)
Protection
(Visual & Audio)
1) Loss Phase, Phase Reversed (By Voltage Stability Circuit Cut-off)
2)  High Voltage 2 Steps Protection: (VR Adjustable): 1St Step: Auto Cut-off Voltage
UP Signal to Avoid Voltage Increase ; 2nd Step: Abnormal Indicator
3) Low Voltage 2 Steps Protection: (VR Adjustable): 1St Step: Auto Cut-off Voltage
DOWN Signal to Avoid Voltage Decrease ; 2nd Step: Abnormal Indicator
4) Overload Protection (10%~150% Adjustable, 0.1~5 Seconds Adjustable)
5) Over Temperature
Indicators

Input Voltmeter, Output Voltmeter, Output Ampere Meter (Option: Meter with Wide Angle

Hanging Wire type or LED Digital Display Type), 3-Phase AS/VS Change Over Switch

Coolant Air-forced Cooling Type 
Audible Noise <60dBA at 1Meter
Working Temp. -20℃ to +45℃
Relative Humidity 0-95% (Non-condensing)
Altitude <4,000 above sea level
Options 1) Input Over Current Protection (Fused TPN) 100 Amps – 1200 Amps
2) Multi-Function Power Monitoring Unit (Amps / Volts / KVA / KW/ KVAR / Pf)
Rise Temperature <55℃
Capacity 100 150 200 250 300  350 400  500 600  750  1000

>1100Kva or others, pls ask

Physical Dimension
(WxDxH / mm)
710
1020
1400
710
1020
1400
820
1220
1700
820
1220
1700
820
1220
1700
900
1270
1850
900
1270
1850
1020
1620
2000
1020
1620
2000
1810
1810
2050
1900
1900
2050
N. W. (kgs)  680 850 950 1,000  1,100  1,180 1,800  2,000  2,100 2,300   2,600

  -  All specifications are subject to change without notice.

  - Custom-made specifications are welcome.

  - Cubicle size and weight varies with input voltage range.

ISOLATION TRANSFORMER
 

Galvanic isolated is used to protect against electric shock, to suppress electrical noise

  in sensitive devices
MAINTENANCE MANUAL BYPASS
 

The switch is for periodically maintenance and service. Not affect machinery running in any ways.

SURGE ABSORBER
  Additional surge protector can be fitted to suppress surge and spike from mains power.
TVSS
  Transient Voltage Surge & Spike Suppression Protection against damaging voltage spikes and transients.
LIGHTING SURGE PROTECTION
  Protection against extremely high voltage surges and transients as typical caused by Lightning strikes
  on the supply line.
COMPREHENSIVE DIGITAL POWER METERING & MONITORING
  Microprocessor based digital output power meter  -- monitoring V, A, W, VAR, PF, W, Hrs & VAR Hrs
  and offering additional RS-485 output.
MAINTENANCE BYPASS SWITCHBOARD
  Maintenance Bypass Switchboard with inbuilt bypass facility for use with the Stabilizer.
OUTDOOR APPLICATION
  Enclosure: IP-54 or others as per request.


OUR STRENGTHS : 

>/= 85% Semi-finished Products at Stock. Capable to supply the unit in a short time
Over 30 Years Working Experiences in Magnetic Induction Voltage Regulator.
Complete Testing Facilities
 
 

INTRODUCTION :

HPI-D series Inductive Voltage Regulator / Magnetic Induction Automatic Voltage Stabilizer

(Brushless / No Sliding Contacts Design) is available from 100 to 5,000KVA as standard,

in Single or Three-phase Output configurations.

The HPI-D series Inductive Voltage Regulator pay for themselves.

No matter what the application, variations in voltage can cause considerable loss of time and money.

By reducing unnecessary downtime and costs, the HPI-D series IVR can actually pay for themselves.

What’s more, alternative methods for solving poor voltage problems are usually more expensive than

IVRs. Contact your local Satech Power Sales Engineer. He or she will welcome the opportunity to

review your problem and help you solve it.

 

 
PRINCIPLE :
Inductive Voltage Regulator mainly composes of two structures:

1. Mainframe: Inductive Voltage Regulator, initial as IVR.

    The Industrial grade Inductive Voltage Regulator is a variable ratio Auto Transformer consisting

    laminated steel Rotor (called as “R”, the shunt winding) and Stator (called as “S”,

    series winding). 

    Functions by the electromagnetic reaction of shaft core with Rotor, to result in relative rotation of

    both counterparts, thus achieving alteration in the phase of the induced electromotive potential,

    as seen in a stabilized output.

    Transmission is controlled by electric power, whereby Driving Motor is used to drive gear, and alter

    output voltage which is to be registered in IC chips, once a voltage fluctuation occurs -- going up or

    down, a command will release to the Driving Motor for adjustment of its phase  angle, and that to

    result in a corresponding change in Output voltage, so that free going voltage regulation is attained

    without any shifts. 

    The winding inside Rotor is called Primary Winding (Input), which connects in parallel with input

    power wire; the Stator is a Secondary Winding (Output) which connects with the same load

    in series.  Secondary Voltage varies with intersecting angle “θ” of both winding. (shown as below

    figure). 

    - E1 (between 3 and 4) = Input Voltage (Primary Voltage)

      (The voltage inducted by the Secondary  winding shall

      vary to the angle between the two coils)

    - E2 = E1 cos.θ, vary continuously

    - Output Voltage = E1+E2 = E1 (1+ cos.θ)

    - When R & S is in parallel, E2 is Increasing

      (clockwise),

      Output Voltage = E1+ (+E2)

      Output Voltage = E1 + 0 = E1

   - When R & S is in –90deg., E2 is Reducing

      (anti clockwise), Output Voltage = E1 + (-E2) 

     Because of opposite position between Primary and Secondary Winding, output voltage can be

     adjusted continuously depends on alternation of primary Flux Density even connected with load.
 

 2. Voltage Regulation Structure: By use of Logic circuits to detect output voltage variation.

      When output voltage rate is within +/-1% setting value (1% ~ 3% Adjustable), it will command

      No Contact Point Relay (SSR) to conduit for no contact point, step-less automatic regulation.

      Industrial grade Inductive Voltage Regulator has advantages of a) No Output Distortion;

      b) Pure Sine Wave Output; c) No Sliding Contacts or Brushes inside; d) Strong Overload 

      Capability.  It is the only type to be able to fabricate thousands KVA, Powerful Overload Capacity

      with Minimum Failure Rate.