• Static Voltage Regulator

    Datadigital-SVR is with no moving parts in the static voltage regulator. Voltage regulation is performed entirely by microcontroller-controlled digital technology for milliseconds. There are no parts that are worn out and old in time.

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  • AC Motor Driver

    AC motor drives are the modern, speed control machines which work with the IPM-SPWM technique that adjust the speed of 3 Phase The alternating current from zero to the desired value with high starting torque.

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  • Uninterruptible Power supply

    Uninterrupted power supplies are a solution to systems that are connected to the outputs, called critical loads, which are not intended to be affected by power interruptions, and which must be supplied with very regular voltage and frequency.

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Ideal for Precision Applications.

Static Voltage Stabilizers

DATADIGITAL-SVR Series,
Static Voltage Regulators

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AC Motor Drivers

DATADRIVE Series,
AC Motor Speed Control

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Uninterruptible Power supply

DATAUPS Series,
Uninterruptible Power supply

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DATADIGITAL-SVR SERIES STATIC VOLTAGE STABILIZERS?

The demands for power is frequently outstripping supply, giving rise to large voltage swings, surges and brown-outs. Failure to address these power irregularities can cause mainline powered equipment to behave erratically and malfunction.

DATATURK Datadigital-SVR our AC Voltage Stabilizers continuously monitor the incoming mains supply and if the mains voltage rises or drops, they will automatically control the output voltage. This ensures the voltage reaching the load equipment always remains constant at the required requisite voltage. Types of AC Voltage regulators available for home and industrial use.

Inbuilt protection also ensures that the load is continuously protected against harmful mains born high energy surges, spikes and transients.

Long Term Use...
Datadigital-SVR Series static voltage stabilizer are the automatic voltage regulating machines which does not include moving part inside it. Static Voltage Stabilizers regulate voltage value in milliseconds with microprocessor controlled digital technology. There are no moving parts inside the device that will worn and require maintenance in time. However, in classic servo motor voltage regulators, there are moving and mechanical friction parts such as motor collectors, variable transformer brushes and brush bearings. These moving parts wear over time and the accumulation of dust in between the parts can cause fault in a short time. In addition, when the machine work continuously under load, transformer surface may become heat and wear and even voltage interruptions occur. In other words, the static stabilizers provide a long term use since the regulation is done electronically.

High Reliability...
Datadigital-SVR, Static Voltage Regulators are fully microprocessor, thyristor controlled and works with digital technology. When there are abnormal conditions like over voltage, low voltage, overcurrent, over-heat and output short-circuit, stabilizer protects itself and its load. RFI and EMI filters are available as standard.

Very High Speed Correction...
Datadigital-SVR, Static Voltage Regulators instantly feel the change in the mains voltage and set the output voltage in the range of 220V + 2% within 20 milliseconds.In classic servo motor voltage regulators; Correction of the mains voltage is achieved by the brushes driven by a motor adjusting the output voltage of the variable transformer.This means that it causes wear and slow response to rapid mains voltage changes. Since the output voltage correction speed is done in seconds in classic servo type regulators, It is considered to be very slow for modern electronic devices.

High Inrush Current ...
Datadigital-SVR, Static Voltage Regulators instantly feel the change in the mains voltage and set the output voltage in the range of 220V + 2% within 20 milliseconds.In classic servo motor voltage regulators; Correction of the mains voltage is achieved by the brushes driven by a motor adjusting the output voltage of the variable transformer.This means that it causes wear and slow response to rapid mains voltage changes. Since the output voltage correction speed is done in seconds in classic servo type regulators, It is considered to be very slow for modern electronic devices..

No Distortions ...
Datadigital-SVR, Static Voltage regulators perform voltage regulation with static elements (thyristor) in the ZERO TRANSFER logic with STEP_UP / DOWN method. Current transfer is zero-pass. Therefore, it does not contain harmonics.

 

In case of voltage variation, the voltage stabilizer is the solution that guarantees for the best cost/benefit ratio. The continuous availability of stable voltage supply independently from input fluctuation is very often a key feature to ensure efficiency and reliability for the User..

The solution
The voltage stabilizer has proven to be an effective solution able to prevent potentially dangerous situations created by input voltage instability.

Usage areas

  • Industrial sector: oil & gas, laser cutting, water shearing, tobacco industry, textile industry, galvanic processes, machinery in general.
  • Food & Beverage: industry, food processing, packaging, bottling.
  • Tertiary & servicing: banks, hotels & tourist resorts, data centre, laboratories, small businesses, private users.
  • Telecommunications: TV/Radio stations, telecom networks.
  • Public sector: hospitals, public offices & institutions.
  • Renewable sources: solar and wind farms.
  • In all these applications, voltage fluctuation, even though within the tolerance admitted by the Standards, can generate operating issues. In that case, devices particularly sensitive can show errors or malfunctions beyond the acceptable limit. Typical situations where voltage can be subject to fluctuation beyond the admitted tolerance are;
    • Loads supplied by weak or undersized distributing lines (rural areas or locations supplied by long distributing lines such as breeding farms, tourist resorts, hotels, etc).
    • Users located near distributing station and therefore subject to voltage increase.
    • Private premises with high power installations (swimming pool pumps, big chillers, special lighting systems, lifts) and/or particularly voltage sensitive loads (high power consumer electronics, etc.).
    • Loads located near large industrial plants where individual high power devices (MV motors) can induce voltage reduction at startup.
    • In comparison to other types of equipment, the voltage stabilser offers a number of advantages that very often make it the optimum solution
    • Protection Function
      Over-Low voltage protection ;It helps to limit the highest and lowest voltage values for the loads connected to the device. The user can control these values and cut-off time of the voltage that goes to the loads by using the front panel in case of exceeding the values

    • Overcurrent - Output short-circuit protection ;

      If the nominal currents to be drawn by the power of the device are above the setted current tolerance values and the current and time graphs are exceeded the protection is activated. protection is provided by questioning the difference of the rate of rise of the current in the table values.
    • SAG-SURGE Protection

      It is an 'effective protection circuit' which protects the receivers against sudden collapse, rise and thousands of volts spikes in microseconds. “Effective protection circuit” generally operates in the form of both symmetrical and asymmetric voltage branches. Effective protection circuit; The three-stage protection circuit consisting of fast-response suppressor diodes is supported by coarse protection with the varistors in the middle protection stage and the strong gas overvoltage conductors. Protection stages separated from each other by ohmic resistors. This allows the power to be optimally distributed in the protection circuit when the overvoltages are suppressed and the pulse currents need to be deflected.

      Compact Switch (MCCB) Protection

      The regulator is able to switch on / off from the panel. In cases such as over current, over voltage, low voltage and output short circuit, the device is electronically protected and the output is cut off.

      '' Booster Transformer '' Application

      It is applied for 500kVA and in all powers above 500kVA. In addition to the harmonic elimination feature, 20% of the load current is passed over the semiconductor and the cost is reduced and the reliability of the system is increased.

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