Point-on-Wave switching is a technique consisting in operating AC system switchgear / circuit-breaker at optimum time to reduce switching transients.

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Overview

RPH3

Controlled switching device

GE Vernova's RPH3 controlled switching device has been phased-out and replaced by our new CSD100 advanced Point-on-Wave controller.

RPH3

Controlled switching device

GE Vernova's RPH3 controlled switching device has been phased-out and replaced by our new CSD100 advanced Point-on-Wave controller.

Recommended Products & services

Point-on-Wave
Point-on-Wave Controllers

Point-on-Wave switching is a technique consisting in operating AC system switchgear /...

RPH3
RPH3

GE Vernova's RPH3 controlled switching device has been phased-out and replaced by our...

CSD100
CSD100

Point-on-wave switching is a technique consisting in operating AC system switchgear /...

CSD100

Point-on-Wave Controller

Point-on-wave switching is a technique consisting in operating AC system switchgear / circuit-breaker at optimum time to reduce switching transients

GE Vernova’s CSD100 is an advanced Controlled Switching Device for high voltage AC circuit-breakers.  The ability to mitigate switching transients is becoming a  key issue for today’s grids as the generated stresses lead to power quality problems and accelerated aging.

CSD100

Point-on-Wave Controller

Point-on-wave switching is a technique consisting in operating AC system switchgear / circuit-breaker at optimum time to reduce switching transients

GE Vernova’s CSD100 is an advanced Controlled Switching Device for high voltage AC circuit-breakers.  The ability to mitigate switching transients is becoming a  key issue for today’s grids as the generated stresses lead to power quality problems and accelerated aging.

Load compensation CSD100 Operation Cycle

Controlled Switching of Load compensation

CSD100 is an advanced controlled switching device for high voltage AC circuit-breakers for any kind of application.

Challenges

Intermittent power sources generate important daily load variations. Capacitor banks and shunt reactors help stabilize and improve the power factor. Acting as reactive power generators, their switching needs to be controlled precisely to mitigate the related electrical transients. It allows to limit damageable stress on the circuit-breaker and the compensation load.

Reactive Power Compensation in Safe Conditions

CSD100, used with GE Vernova's advanced circuit-breakers, is a  cost-effective solution to reduce stress on reactive power compensation equipment and increase their lifetime.

Benefit :
  • Safe switching in reactive power compensation
  • Drastic reduction of electrical transients
  • Drastic reduction of stress on equipment

CSD100 operation cycle CSD100 Operation Cycle

Controlled Switching of Overhead Lines

CSD100 is an advanced controlled switching device for high voltage AC circuit-breakers for any kind of application.

Challenges

Connecting and disconnecting intermittent power sources -such as wind or solar farms, pumped storage or gas power plants- to the country grid may generate switching transients with damageable consequences for the transformer and the power quality (high inrush currents, voltage dip, protection trip).

Safe Connection of the Transformers to the Grid

CSD100 reduces power transformer inrush current and voltage deep by energizing each phase (winding) at magnetic flux continuity condition, considering the transformer core residual flux.

CSD100 takes into consideration the transformer magnetic flux in order to switch and connect the transformer to the lines when the source flux matches the transformer residual flux. The inrush current and voltage dip are minimized. The power quality is improved, the transformer lifetime is extended.

Benefits:
  • Safe connectivity of intermittent generation
  • Voltage dip reduction
  • Inrush current mitigation
  • Transformer stress limitation

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Overhead Lines CSD100 Operation Cycle

Controlled Switching of Overhead Lines

CSD100 is an advanced controlled switching device for high voltage AC circuit-breakers for any kind of application.

Challenges

Power generation sources are often located far from main consumption areas. As a result, large amounts of energy need to be transmitted over long distances. The random circuit- breaker switching of no-load lines generates a travelling voltage wave which, provokes an over-voltage along the length of the line. Also, auto-reclosing of the line circuit-breaker may cause even larger over-voltages than simple closing due to trapped charge on the line.

Safe Switching of Overhead Lines

CSD100 is a cost-effective solution to limit overvoltage during closing and auto-reclosing of line circuit-breakers.

CSD100 helps to optimize line design and could generate important savings at the conception stage. The value of over-voltages directly determines the insulation and protection levels of the lines, as well as their cost.

Securing Your Primary Equipment
  • With extensive data acquisition and storage capabilities, the CSD100 allows for extensive monitoring and optimized switching in order to protect equipment. Together, with its digital communication abilities, the CSD100 plays a key role in your asset performance management strategy
  • CSD100’s design simplifies substation integration
  • Built-in cybersecurity features, in line with the latest NERC, IEC, and IEEE standards, ensure a high security level
Benefits:
  • Improved overhead lines and cables management
  • Safe closing and auto-reclosing
  • Optimization of insultation levels
  • Optimization of overhead lines designs
  • Reduction of surge arrestor stress

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Controlled switching of multiple loads

CSD100 is an advanced controlled switching device for high voltage AC circuit-breakers for any kind of application.

Challenges

Depending on substation architecture, one single circuit-breaker will operate different loads. Maintain optimal performance in such situation is a real challenge.

One single Controlled Switching Device per Circuit-breaker

GE Vernova has developed for the CSD100 a multiple load switching feature, allowing to use one single device per circuit-breaker.

  • Whatever the substation architecture with tie circuit breaker or meshed arrangements
  • Whatever the operating mode, for example:
    • Power plant black-start from the grid (line or cable)
    • Compensated line or only grid compensation with shunt reactor
    • Variable neutral position (or grounding) for compensation asset

The positions of the substation apparatus (circuit-breakers, disconnector switches) define the load to switch. The CSD100 selects the programmed switching strategy accordingly.

Benefits:
  • Controlled operations of single circuit-breaker siwtiching several loads
  • Useful for any kind of substation architecture/configuration
  • Switching strategy automatically adapts to the real time

Read more

multiple load switching Example of multiple load switching. Circuit breaker may be used to switch line or reactor or a power transformer.

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Point-on-Wave
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RPH3
RPH3

GE Vernova's RPH3 controlled switching device has been phased-out and replaced by our...

CSD100
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Point-on-wave switching is a technique consisting in operating AC system switchgear /...

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