Line Traps

Light Weight, Flexible Mounting

Line traps are used in transmission and distribution networks around the world. Line traps are a key component in PLC (Power Line Carrier) systems used for remote control signals, voice communication, remote metering and control between substations in the electrical T&D network.

ITR Overview

ITR Services

Asset Management

Brochures

Manuals

ITR Overview

ITR Services

Asset Management

Brochures

Manuals

Line Traps

Light Weight, Flexible Mounting

Characteristics

Up to 800 kV
Up to 5,000 A
30-500 kHz frequency range
High short-circuit withstand capability
Mounting flexibility: vertical, horizontal or suspension
Extremely reliable tuning devices
Self-resonnance frequency greater than 500 kH
Fixed or adjustable tuning devices
Excellent cooling capabilities
Maintenance free
Air core, dry type
Outdoor use
Complaint with IEC and IEEE or equivalent standard

Specifications

I (A)	Standard	Isc (kA) / 1s	Isc (kApeak)	L (mH)
400	IEC I	10	25.5	0.1	0.2	0.32	0.5	1.0	2.0
	IEC II	16	41	0.1	0.2	0.32	0.5	1.0	2.0
630	IEC I	16	41	0.1	0.2	0.32	0.5	1.0	2.0
	IEC II	20	51	0.1	0.2	0.32	0.5	1.0	2.0
800	IEC I	20	51	0.1	0.2	0.32	0.5	1.0	2.0
	IEC II	25	64	0.1	0.2	0.32	0.5	1.0	2.0
1250	IEC I	31.5	80.5	0.1	0.2	0.32	0.5	1.0	2.0
	IEC II	40	102	0.1	0.2	0.32	0.5	1.0	2.0
1600	IEC I	40	102	0.1	0.2	0.32	0.5	1.0	2.0
	IEC II	50	127.5	0.1	0.2	0.32	0.5	1.0	2.0
2000	IEC I	40	102	0.1	0.2	0.32	0.5	1.0	2.0
	IEC II	50	127.5	0.1	0.2	0.32	0.5	1.0	2.0
2500	IEC I	40	102	0.1	0.2	0.32	0.5	1.0	2.0
	IEC II	50	127.5	0.1	0.2	0.32	0.5	1.0	2.0
3150	IEC I	40	102	0.1	0.2	0.32	0.5	1.0	2.0
	IEC II	50	127.5	0.1	0.2	0.32	0.5	1.0	2.0
4000	IEC I	63	161	0.1	0.2	0.32	0.5	1.0	2.0
	IEC II	80	204	0.1	0.2	0.32	0.5	1.0	2.0
* Shaded rating not available with OSD

Line traps according to ANSI standard

I(A)	Standard	Isc (kA) / 2s	Isc (kA peak)	L (mH)
400	ANSI	15	38.5	0.265
800	ANSI	20	51	0.265
1200	ANSI	36	91.8	0.265
1600	ANSI	44	112	0.265
2000	ANSI	63	161	0.265
3000	ANSI	63	161	0.265
4000	ANSI	80	204	0.265
5000	ANSI	80	204	0.265
Other rating can be designed upon request.

Frequency Tuning

High Voltage Instrument Transformers

Instrument Transformers are an essential link for the safe and efficient operation of transmission networks. They provide accurate and reliable current and voltage measurements for secondary equipment such as meters, protections relays, bay computers and other devices.

GE Vernova has manufactured tens of thousands high voltage instrument transformers. Our customers recognize our top-of-the-line products for their long term robustness, safety and reliability.

ITR Overview

ITR Services

Asset Management

ITR Overview

ITR Services

Asset Management

High Voltage Instrument Transformers

GE Vernova has manufactured tens of thousands high voltage instrument transformers. Our customers recognize our top-of-the-line products for their long term robustness, safety and reliability.

OSKF Oil-Insulated Current Transformers up to 800 kV

GE Vernova’s OSKF have been designed for a 30-year lifetime and, thanks to the profound technical concepts, many well out-live this service life. The oil is hermetically sealed from the air by a stainless-steel diaphragm assembly and all external parts are of corrosion-resistant material.

More Info

OTEF Oil-Insulated Voltage Transformers up to 420 kV

GE Vernova manufactures a complete range of high voltage oil-filled voltage transformers (VTs). The OTEF is a tank-type potential transformer with post insulator. Thousands voltage transformers are in service worldwide, in all types of climates and under the most severe conditions.

More Info

KOTEF Oil-Insulated Combined CT/VT up to 420 kV

KOTEF utilizes the same components as the individual CTs and VTs. Both transformers are combined in a single metering unit and are available in porcelain or composite. The KOTEF combines the advantages and design features of the OSKF and OTEF lines.

More Info

OTCF Coupling Capacitor Voltage Transformers up to 800 kV

In high and extra high voltage transmission systems, capacitor voltage transformers (CVTs) are used to provide potential outputs to metering instruments and protective relays. In addition, when equipped with carrier accessories, CVTs can be used for power line carrier (PLC) coupling.

More Info

CCV Capacitor Voltage Transformers and CC Coupling Capacitors up to 800 kV

More Info

Circuit Breaker Retrofit

For Gas-Insulated Substation

GE Vernova’s GIS retrofit solutions are designed to replace aging or obsolete circuit breakers manufactured by GE Vernova or a 3rd party with a new GE Vernova circuit breaker that includes the pure spring mechanism.

The GIS retrofit solution is a cost effective and reliable method to modernize and extend the lifetime of the substation by gaining all the advantages of implementing new reliable technology.

The solution is suitable to replace vertical or horizontal GIS circuit breakers.

The turnkey service solution includes:

Gas-Insulated Substations

Non-intrusive Inspection

Services for GIS

Brochures

Gas-Insulated Substations

Non-intrusive Inspection

Services for GIS

Brochures

Circuit Breaker Retrofit

For Gas-Insulated Substation

The GIS retrofit solution is a cost effective and reliable method to modernize and extend the lifetime of the substation by gaining all the advantages of implementing new reliable technology.

The solution is suitable to replace vertical or horizontal GIS circuit breakers.

The turnkey service solution includes:

Main Characteristics

GE Vernova’s solution is designed for 72.5-145 kV and 300 kV-420 kV gas-insulated substations, regardless of the manufacturer or the application. To match the existing configuration and dimensions, phase-distance can be adapted with the interface and the 420 kV circuit breaker can be installed in U or Z configuration.

Vertical Circuit Breaker with Pure Spring Mechanism

The vertical circuit breakers proposed to retrofit the gas-insulated substation are equipped with the pure spring mechanism used in all GE Vernova HV circuit breakers. This proven technology enables minimized maintenance and improved reliability. Key features include:

Single-phase enclosure ensures safe operation with all moving parts fully encapsulated
Gas compartment is up to 50% smaller compared to the previous generation
Low closing and tripping force is required reducing the need for energy to trigger the switching
Low static and dynamic forces reduce the mechanical constraints and stress during operation, resulting in increased asset reliability
Single chamber design lowers the number of moving parts and the energy required
All models are type tested
A RPH3 point of wave controller can be added to the solution to synchronize the phases for switching

GE Vernova Advantage

Versatile Solution

Suitable for all brands of GIS
Different configurations available to fit with existing architecture
Compact footprint with vertical arrangement

Reliable Technology

Up to 42% reduction in unplanned outage risk, due to pure spring operating mechanism
Up to 22% reduction in outage duration due to “plug and play” solution

Safe and Eco-friendly

50% reduction in SF₆ mass
Reduced risk of leakage by 10 times
25% reduction in required material including copper, aluminum and gasket

Cost Effective Solution

Up to 60% reduction in maintenance costs due to pure spring mechanism compared to pneumatic or hydraulic technology
Reduced investment cost and outage time compared to a GIS replacement

Vertical Circuit Breaker Specifications

Breaker Type	145 kV Vertical	420 kV Vertical
Reference electro-technical standards	IEC/IEEE
Rated voltage	145 kV	420 kV
Rated frequency	50/ 60 Hz
Enclosure	Single-phase
Short-duration power-frequency, phase-to-earth/across isolation distance	275 kV /315kV	520/610 kV
Lightning impulse phase-to-earth/across isolation distance	650 kVp / 750 kVp	1425/1425 (+240) kVp
Rated current	up to 3150 A	up to 5000 A
Rated peak withstand current	100 kAp / 108 kAp	170 kAp
Rated short-time current	40/3 kA/s	63/3 kA/s
Rated short circuit breaking current	40 kA	63 kA
First-pole-to-clear factor	1.5	1.3-1.5
SF₆ weight / pole	5.4 kg	50 / 60 kg
Operating sequence	O – 0.3s – CO – 3 min – CO CO – 15s - CO
Min. gas operating pressure at 20°C (50Hz)	5.5 bar	5.5 bar
Circuit breaker approx. weight	1500 kg	4230 kg

COSI & CMO - Legacy

Digital Instrument Transformers

Manufacturing for this product has been discontinued. As an alternative, please refer to conventional CT/VT digitized by MU320E merging unit.

Support

COSI & CMO - Legacy

Digital Instrument Transformers

Manufacturing for this product has been discontinued. As an alternative, please refer to conventional CT/VT digitized by MU320E merging unit.

Circuit Breaker Digital Solutions

For electrical networks up to 800 kV

GE Vernova’s Digital Solutions for Circuit Breakers provide operators with the actionable intelligence and controls needed to ensure asset performance while reducing maintenance and operational costs. Through non-invasive sensors, these solutions provide active monitoring and control of key operational parameters and functions.

Circuit Breakers

Switchgear Monitoring

HV/MV Equipment Services

Brochures

Circuit Breakers

Switchgear Monitoring

HV/MV Equipment Services

Brochures

Circuit Breaker Digital Solutions

For electrical networks up to 800 kV

CBWatch Circuit Breaker Monitoring

Compact and modular online monitoring solution for high voltage circuit breakers
Improves operational availability with health and condition-based monitoring of key performance parameters
Able to detect even small SF₆ leaks to optimize gas refill operations

More Info

CSD100 Point-on-Wave Controller

Mitigate switching transients
Enables reliable connection of intermittent power generation sources to the grid
Provides advanced switching of reactive power compensation and long overhead lines

More Info

Professional Services

Industry Leading Experience

GE Vernova’s Industrial Communications Professional Services offers a range of services and project management capabilities that can be tailored to provide a fully engineered, deployed, and supported system to meet application specific needs.

Professional Services

Training

Repair / Return (RMA)

Brochures

White Papers/Case Studies

Professional Services

Training

Repair / Return (RMA)

Brochures

White Papers/Case Studies

Professional Services

Industry Leading Experience

MDS Wireless Services

GE Vernova’s Industrial Communications professional services team has a long history and extensive experience in supporting organizations of all sizes in implementing reliable and scalable communication networks. GE Vernova’s team will tailor their services and project management solutions to meet a broad range of customer requirements and communication networking applications that can easily scale where required

GE Vernova provides a broad range of services to support projects in a variety of industrial environments including:

Application Networking Services

GE Vernova can provide the following as part of their application networking services:

New or modified network design, including IP addressing / subnetting and router configuration.
Seamlessly integrate GE Vernova and non-GE Vernova equipment into a communications network.
Manage and install security certificates or an entire security infrastructure
Set up and install cell-enabled radios to comply with existing contract requirements. Will arrive on-site ready to activate to a customer’s cellular network and servers.

Propagation Analysis

For any network design, whether a thousand remotes that need to be monitored or a single point- to-point link, there must be a guarantee that stations can communicate within the service level requirements customers expect.

Based on site details including the latitude, longitude, antenna mounting height, a software modeling tool is utilized to predict the wireless coverage for the equipment needed to meet your application requirements. GE Vernova has extensive proven field experience in modeling the predicted coverage and propagation analysis reporting.

Traffic Modeling

GE Vernova analysts work closely with customers to understand their unique application characteristics and traffic patterns. The information is utilized to tailor a model to predict the data traffic flow in the system and provide an optimal network design which utilizes every possible bps available.

Based on site details including the latitude, longitude, antenna mounting height, a software modeling tool is utilized to predict the wireless coverage for the equipment needed to meet your application requirements. GE Vernova has extensive proven field experience in modeling the predicted coverage and propagation analysis reporting.

Requisition Engineering

Detailed bills of materials, drawings and instructions will be provided for customers during a project implementation resulting in decreased implementation time and enabling ease of system deployment.

Customized Packaged Models

GE Vernova’s services team has extensive experience designing, building, installing and commissioning customized packaged models. Model components can include GE Vernova and/or 3rd party radios, power supplies, batteries, RTUs and sensors. Customized enclosures are available on request.

Onsite System Optimization

GE Vernova’s team of expert analysts can conduct studies on existing system sites, examine current setups, and make recommendations for improving network performance. These studies include, but are not limited to, examining the following components: antenna and feedline systems, signal levels and interference, radio configurations, and firmware versions.

Wireless Projects

GE Vernova’s Industrial Communications Professional Services Process are based on years of experience and several deployments across multiple applications and industries, GE Vernova has developed a Professional Services Process (PSP) that allows us to partner with our customers for successful project implementations. GE Vernova’s PSP was developed over several years based on extensive experience in various industrial environments. It is a comprehensive process designed to be very application specific and is enhanced after every project

Regardless of the size or scope of a project, GE Vernova assigns a project manager to oversee all of the activities and associated details to ensure a successful project implementation. The details below outline a typical project management process:

Phase 1: Defining Scope of Work

The first phase of a network communications project is to gather information about the customer’s requirements. The following activities will take place during the definition phase of a project:

Capture the strategic objectives of the project.
Meet with key stakeholders to collect system requirements which can range from latency and throughput, protocols, coverage areas, security, and so on.
Provide customers with a requirements document and initial system concept design.
Set up and install cell-enabled radios to comply with existing contract requirements. Will arrive on-site ready to activate to a customer’s cellular network and servers.

Phase 2: Analyzing the Environment

The analysis phase of the communications project allows engineers o validate the initial concept design and verify that it meets the customer’s expectations by providing the following:

Traffic modeling analysis to support the network throughput and latency needs.
Network and security analysis to identify the most appropriate network topology and possible security risks coupled with preventative solutions.
Predictive reports, such as propagation coverage, spectrum interference and mitigation plans for potential system failures.

Phase 3: Developing the Final Network Design

During the design phase, the network design is finalized and ready to be implemented to meet the customer’s scope of work and requirements. GE Vernova can provide the following during this stage:

On-site audits to validate design assumptions and RF site surveys to verify coverage models.
Channel planning to meet spectrum requirements and the creation of a bill of materials and drafting plans to document subsystem components.
Detailed system, network management and application design plans based on survey results to create the desired network topology.

Phase 4: Project Implementation

During project implementation, the following activities take place:

File regulatory agency required spectrum documentation and procure all necessary equipment.
Assemble the network communications devices, conduct factory assessment testing, oversee commissioning of the equipment, and complete network audits to ensure system performance.
Prepare knowledge transfer and training materials on system operations and maintenance.
Provide on-site training for a smooth transition of the project.

Phase 5: Supporting our Customers

GE Vernova can continue support of the implemented system and provide the following services:

Access to an authorized local partner close to your facility for troubleshooting and replacement.
A call center with access to technical services for assistance in troubleshooting system issues or general product questions or on-site support if required.
A hosted or on-site network operations center for systems monitoring and diagnosis.

Lentronics Hardened Optical Network Services

Engineering

GE Vernova’s team of telecommunications engineers can provide support from budgetary quotes to full scale, turnkey projects, including:

Final system design and configuration of equipment
Engineering drawings including:
- Wiring and block diagrams
- Traffic plans and system layouts
- Equipment profiles and node assignment drawings
Custom installation instructions
Custom field test specifications
Customer witness tests (CWT)

Field Service

Project Management

A wide variety of field services are offered to customers including:

Installation, testing and commissioning of systems
Startup services
On site assistance
Hands-on training
System upgrades
Customized services as required
Firm price quotation or Time & Expense (T&E)

The Lentronics Multiplexers team ensures on time and on budget completion of projects by:

Developing and maintaining project schedules
Monitoring deliverables and project milestones
Expediting when necessary
Coordinating GE Vernova, customer and contractor resources
Conducting project meetings

Racks & Custom Enclosures

Our equipment integration designs are developed with detailed attention to equipment placement and accessibility. Offerings include both standard and custom packages for wireless device integration and networking accessories. Standards-based procedures for equipment integration and testing ensure that wireless systems are robust and future-proof.

Custom Enclosures & Integration Services

Standardized offerings or custom designs
Integration of radios, multiplexers, switches and routers with power supplies, antennas and cables
Offering open frame racks, NEMA enclosures, or custom enclosures
Ability to pursue industry safety certifications
Complete documentation provided
- System level documentation
- Rack level documentation
- Site level documentation

Industrial Communications Classroom, Virtual & e-Learning Course

GE Vernova’s Industrial Communications training is offered in a wide variety of platforms and topics to provide flexibility in time, location and skill level. From attendance in on-site classroom courses to virtual course attendance, self-paced e-learning videos and customized courses, GE Vernova’s training provides customers with high-quality knowledge to be safe, efficient and successful in industrial wireless communications.

This training is ideal for End Users, Application Engineers, System Engineers or anyone who is responsible for the design and maintenance of a wireless data network. Additionally, any management personnel who supervise and delegate the design and maintenance assignments for a wireless network will benefit from these courses.

Agenda Classroom Schedule Register Now

E-Learning Videos Contact Training Sign up for training emails

Fundamentals of RF Communications

Instructors will remove the mysteries of RF communications by showing students the fundamentals of RF wireless theory, design, and installation. We will also discuss best practices for industry standard applications including Point-to-Point and Point-to-Multipoint radio systems. Students will also learn about the various types of radio interfaces including protocols and network fundamentals.

Lentronics Hardened Optical Networks

Lentronics Hardened Optical Networks product specialists offer a variety of training courses for both SONET and SDH telecommunications standards. Customers can choose from holding training courses at their own physical location, or having their personnel take training at the GE Vernova main office located in Burnaby, just outside of Vancouver, Canada. Courses range from 2 to 5 days in length depending on customer requirements and the depth of training desired. Customized courses can also be provided.

Regional Training

Regularly scheduled Regional Training courses are offered at selected locations around North America. Contact your factory representative to discuss course offerings. Click here to request more information on regional training courses.

Training for JungleMUX & TN1U/TN1Ue

Factory Training Courses

Scheduled training classes are offered at regular intervals throughout the year at the GE Vernova MDS Technical Training facility located in Rochester New York, U.S.A. The Technical Training Center contains equipment for hands-on interaction with wireless communications products, test tools, and computers. Training class sizes are kept small so instructors can interact with each student. Students receive comprehensive course manuals, with course notes that include lab exercises.

Customer Site Training Courses

To increase the number of employees who can benefit from our training, GE Vernova MDS Technical Training offers the option of conducting training courses in person at customer facilities. These on-site courses can be customized to a specific range of topics.

MDS PulseNET

Network Management Software

Monitoring and managing the health of your network is a critical consideration when designing, purchasing, and deploying equipment for your communications system. Equally important is ensuring that you maximize your network’s return on investment by increasing system throughput and uptime, improving the utilization of networked devices, and finally, supporting the deployment of maintenance resources when problems surface.

Brochures

Software & Manuals

Software Archive

Support Documents

Product & Cyber Security Advisories

Brochures

Software & Manuals

Software Archive

Support Documents

Product & Cyber Security Advisories

MDS PulseNET

Network Management Software

Purpose Built for Industrial Communications

With over two million devices installed around the world and 30+ years of experience, GE Vernova is aware of the challenges our customers face when it comes to effectively managing their communication networks. MDS PulseNET software provides the insight and detailed system performance allowing you to intelligently and proactively manage your radio communications network.

Optimized for MDS Communication Products

MDS PulseNET is designed specifically for MDS devices and can also support a host of other devices.

Out-of-the-box functionally for MDS devices
Pre-loaded device performance rules and thresholds eliminate customer guesswork
Application redundancy and Geo-redundancy through HA (high availability) configuration support

High Availability

MDS pulseNET Enterprise allows for high availability configuration which can reduce downtime to provide 24X7X365 access. The software may be installed in multiple hardware configurations that provide flexibility and redundancy.

Additional features include:

Management by exception
Pre-built, intuitive workflows
User-configurable navigation
Multiple pre-defined report options
SQL or Oracle “Complimentary”
Database for third party application integrations

Robust Monitoring of Important Performance Parameter

The software is designed to monitor the critical elements of a communications network. The software helps prioritize corrective actions for vast amounts of raw data that is created and stored over time. It can also trigger specific actions based on warning thresholds, such as sending messages to trouble ticketing systems or other management systems. Additionally, these event-triggering thresholds can be easily changed within the software to meet unique customer requirements. Historical performance data is available for several parameters including:

Received Signal Strength Indicator (RSSI)
Signal Noise Ratio (SNR)
Error rate
Data throughput
Round-trip delay time
Transmitter power
Changes in modulation scheme
GPS satellite connectivity and coordinate tracking

MDS PulseNET provides easy to review radio device performance screens showing the critical radio parameters such as: RSSI, SNR BER, Throughput, and Availability.

Easy Installation & Rapid Deployment

MDS PulseNET software requires minimal effort to install and operate, provides pre-built specific device warning thresholds to eliminate the guesswork, and provides visibility into radio communications that have historically been unmanaged.

Intuitive installation and administrative set-up
Automatic device discovery
Out-of-box, pre-defined and manageable number of alerts
Integrated with MDS LaunchNET™ supporting user selection of “one-touch” and “zero-touch” device provisioning
Optimized for Virtual and Cloud based servers

MDS PulseNET software provides multiple, concurrent, role-based logins through a web interface so that each user is able to see exactly what they need to fulfill their individual responsibilities. MDS PulseNET also provides the operator with immediate access to performance trending graphs through the same simple navigation scheme. It normalizes the views for disparate technologies into simplistic and easy-to-use dashboards. The main dashboard provides a high level status of each set of functional components being monitored.

Once your system is properly configured, it can automatically discover your network devices, assign licenses to the devices and begin monitoring the network. When used with MDS LaunchNET provisioning tool, new provisioned devices may be automatically added into PulseNET Enterprise for a complete and seamless network management solution.

The following GE Vernova MDS devices can be monitored by MDS PulseNET (minimum firmware version in parentheses):

Orbit (6.1.2)
MPRL (5.0.7)
SD Series (4.1.5)
SD Master Station (3.2.5)

TransNET 900 (3.2.3)
iNET-900 (6.9.1)
iNET-II (2.9.1)
Intrepid (1.9.00 b1730)

Mercury 1800 (3.0.6)
Mercury 3650 D (3.7.3)
Mercury 3650 E (3.2.6)
Mercury 5800 (3.0.6)

EntraNET (3.0.7)
WiYZ (1.5.5)
x790 (2.2.1)
x710 (3.7.1)

TD220X
TD220MAX

PulsePAK add-on supports a number of third-party devices, allowing you to discover, monitor, and take action on your multi-vendor network.

With PulsePAK installed you can:

Discover, authorize, and monitor 3rd Party devices beyond SNMP MIB-II configuration and performance
Enable or disable rules, notifications, and configure custom thresholds for several severity levels
Auto schedule collection of radio performance and configuration data, and view data trends over time
View, track, and act on any alerts generated

System	Standard	Enterprise
Web-based platform for easy user access l Windows & Linux installations supported	•	•
Single graphical user interface installation program	•	•
Downloadable software and updates	•	•
Automated discovery of IP based devices	•	•
Automated network topology maps	•	•
Purpose-built workflows for mission-critical networks	•	•
Supports SNMP versions 1, 2c and 3	•	•
Integrated database supplied with installation	•	•
Predefined best practices management for MDS devices	•	•
Data Collection - Scalable to thousands of nodes via multiple systems/ distributed polling	Up to 500 devices	•
Monitoring and management of third party devices 1		•
Support for third-party SNMP MIB-11 compliant devices		•
High-availability server installation capable		•
GPS aware mapping - automatic or manually located on GPS aware maps		•
LAN Monitoring - basic fault/performance monitoring of network devices		•
Custom rules, dashboards, and collections capable		•

Fault	Standard	Enterprise
Real-time color coded textual alarms and status icons	•	•
Device availability reports	•	•
Alarm filtering and notification	•	•
Syslog server	•	•
Built-in RF health alerting for industrial wireless networks	•	•
Root cause correlation based on network dependencies	•	•

Fault Management	Standard	Enterprise
Alert integration with third-party network management software		•
Notifications to 3^rd-party manager of managers via SNMP trap forwarding		•
Fully integrated graphical interface for SNMP trap receiving²		•

Configuration	Standard	Enterprise
Configuration Push to multiple devices immediately & scheduled (Orbit, SD, other non-GE Vernova via PulsePAKs)		•
Scheduled configuration collections separate from performance polling- Extremely important in low bandwidth remotes	•	•
Provisioning of selected configuration parameters (on demand & scheduled)		•
Firmware push (Orbit, SD, Mercury, iNET·I/II, other non-GE Vernova via PulsePAKs)¹		•
Radio configuration change diary		•

Performance	Standard	Enterprise
Performance dashboard with purpose-built prescriptive diagnostic workflows	•	•
Inherited performance collections based on vendor/model/configuration	•	•
Performance collections for diagnostics (I.e. RSSI, SNR, bandwidth, etc.)	•	•
Retains collections for comparison year-over-year	45-day limit	•
Performance dashboards for third parties¹		•
Self-monitoring of PulseNET Enterprise system (memory, CPU, etc)		•

System	Standard	Enterprise
Tracking of configuration and firmware for MDS device	•	•
User forced out when inactive for extended periods	•	•
Remote access shortcuts to devices for Telnet, SSH and HTTP(s)	•	•
Centralized to streamline security and control	•	•
User level accounting	•	•
Role based security (admin vs. operator)	•	•
Limit operator device groups based on admin assignment		•
LDAP and Radius support		•

1. Out-of-the-box capability for monitoring third-party devices is enhanced in each release. Please contact a GE Vernova MDS Sales Representative to determine if a specific third-party devices is supported by the current version of PulseNET Enterprise.
2. Feature planned for a future release of PulseNET and PulseNET Enterprise.

Power transformers - Oil sampling and analysis (C4233)

Duration
1 day

Who should attend?
Operation and maintenance technicians, technicians who collect oil samples, graduate engineers, asset managers, apprentices

Request a Quotation

Power transformers - Oil sampling and analysis (C4233)

Duration
1 day

Who should attend?
Operation and maintenance technicians, technicians who collect oil samples, graduate engineers, asset managers, apprentices

Line Traps

Light Weight, Flexible Mounting

Related Links

Resources

Related Links

Resources

Line Traps

Light Weight, Flexible Mounting

Characteristics

Characteristics

Specifications

Specifications

Line traps according to ANSI standard

Frequency Tuning

Frequency Tuning

Recommended Products & services

Line Traps

High Voltage Instrument Transformers

Related Links

Related Links

High Voltage Instrument Transformers

Current Transformers

OSKF Oil-Insulated Current Transformers up to 800 kV

Voltage Transformers

OTEF Oil-Insulated Voltage Transformers up to 420 kV

Combined Metering Unit

KOTEF Oil-Insulated Combined CT/VT up to 420 kV

Capacitor Voltage Transformers

OTCF Coupling Capacitor Voltage Transformers up to 800 kV

CCV Capacitor Voltage Transformers and CC Coupling Capacitors up to 800 kV

Recommended Products & services

High Voltage Instrument Transformers

Circuit Breaker Retrofit

For Gas-Insulated Substation

Related Links

Resources

Related Links

Resources

Circuit Breaker Retrofit

For Gas-Insulated Substation

Characteristics

Main Characteristics

Vertical Circuit Breaker with Pure Spring Mechanism

GE Vernova Advantage

GE Vernova Advantage

Versatile Solution

Reliable Technology

Safe and Eco-friendly

Cost Effective Solution

Specifications

Vertical Circuit Breaker Specifications

Recommended Products & services

Circuit Breaker Retrofit

COSI & CMO - Legacy

Digital Instrument Transformers

Resources

Resources

COSI & CMO - Legacy

Digital Instrument Transformers

Recommended Products & services

High Voltage Instrument Transformers

Circuit Breaker Digital Solutions

For electrical networks up to 800 kV

Related Links

Resources

Related Links

Resources

Circuit Breaker Digital Solutions

For electrical networks up to 800 kV

Products

CBWatch Circuit Breaker Monitoring

CSD100 Point-on-Wave Controller

Professional Services

Industry Leading Experience

Related Links

Resources

Related Links

Resources

Professional Services

Industry Leading Experience