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Up to 80% of faults on overhead lateral lines are caused by temporary issues, such as vegetation, animals, and storms.

S&C’s TripSaver II recloser replaces fuses and automatically restores power after temporary faults, preventing outages and unnecessary truck rolls.

Avoid disturbances that disrupt your customers and impact your bottom line with S&C’s single-phase recloser. 

Single-Phase Reclosers vs. Fuses

Lateral fusing strategies force trade-offs. Customers either experience a sustained or momentary interruption. Crews must be sent to replace the blown fuse and restore power. See how S&C’s single-phase recloser combines the best of fuse-saving and fuse-blowing strategies in one device to mitigate or isolate outages closer to the fault.

Advantages

Win massive gains by advancing your lateral protection strategy with TripSaver II reclosers.

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Customer Satisfaction

Mitigate momentary and sustained outages despite the weather to improve SAIDI, SAIFI, and MAIFI.

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O&M Cost Savings

Avoid unnecessary truck rolls to allow crews to focus on modernization initiatives and restoration services.

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Eco-Friendly Benefits

Lower your carbon footprint with fewer trips, and replace fuses that can cause sparks and debris.

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Rapid Installation and Results

Easily integrate devices into your system using cutouts and programmable fuse curves.

Savings Calculator

Pick a feeder on your system, and calculate how much you could save by using a TripSaver II recloser.

Calculate

Pounds of CO2 Emissions TripSaver II Reclosers Prevented This Year

*Calculated based on the U.S. Environmental Protection Agency Greenhouse Gas Equivalencies Calculator and utility-reported statistics for S&C’s TripSaver II recloser

Case Studies

Florida

80,000 Reclosers Combat Nation’s Toughest Weather

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Alabama

Data-Driven Approach Eliminates 6,000 Interruptions Annually

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Minas Gerais, Brazil

Improving Reliability by More Than 90%

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Northeastern Oklahoma

Breaking a Costly, Annual Maintenance Cycle

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Parana, Brazil

National Regulatory Requirements Met with Reclosers

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South Island, New Zealand

Reclosers Provide Significant Reduction in O&M Costs

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United Kingdom

Recloser Installation Achieves Speedy Return on Investment

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Federated States of Micronesia

Island Nation Enhances Reliability, Resilience With Reclosers

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Texas

Texas Co-op Modernizes Grid for Growing Community

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Construction & Design

TripSaver II Construction

Features

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TCC Curve Variety

Hundreds of TCC curves available for easy integration and device coordination

Vacuum Interrupter Icon

Vacuum Interrupter

Fault current quietly contained and interrupted inside a vacuum-sealed chamber

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Local Manual Open

Breaks the load without a loadbreaking tool

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Non-Reclose Mode

Disables the programmed automatic reclosing

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Reclosing Operations

Up to three reclosings before dropping open to provide a visible gap

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Restraint Feature

In-rush restraint feature always on; will not nuisance trip on in-rush

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Operational Status

LCD screens display real-time device status with information scrolling

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Ice Breaking

Capability for device to break ¾-inch (20mm) of ice

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Sectionalizing Mode

Can operate as a sectionalizer over a range of fault currents

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Service Center

Service center-configurable; can reconfigure operating sequence

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Microprocessor Control

Line-powered microprocessor control, with no batteries needed

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Sequence Coordination

Improves coordination between upstream and downstream reclosers to prevent nuisance momentary outages

Guidebooks

Wonder if a single-phase recloser like the TripSaver II is right for you? Discover their benefits and get expert tips for a smooth test run and full deployment, based on our experience with utilities like yours.

Expert insights for gauging single-phase recloser suitability for your system

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A roadmap for how to run a successful pilot for optimal results

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Best practices to ensure a smooth and efficient widescale installation

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Need Support?

S&C is here to help you through any stage in your grid-modernization journey, from system studies to installation videos. Explore more below.

Product Details

(On mobile, swipe left for remaining ratings information.)

50/60-Hz Ratings①With Porcelain InsulatorWith Polymer Insulator
kV
Amperes, RMSLeakage Distance to Ground Minimum, Inches (mm)Base Catalog NumberLeakage Distance to Ground Minimum, Inches (mm)Base Catalog Number
System ClassNom.MaxBILCont.Interr., Sym
15 15 15.5 110 40 4 000 8½ (216) 990511 14¾ (375) 990511-P
6 300 8½ (216) 990611 14¾ (375) 990611-P
100 4 000 8½ (216) 990111 14¾ (375) 990111-P
6 300 8½ (216) 990211 14¾ (375) 990211-P
200 4 000 8½ (216) 990311 14¾ (375) 990311-P
6 300 8½ (216) 990411 14¾ (375) 990411-P
25 25 29 125 40 4 000 11 (279) 990522
6 300 11 (279) 990622
150 4 000 17 (432) 990532 26½ (673) 990532-P
6 300 17 (432) 990632 26½ (673) 990632-P
125 100 4 000 11 (279) 990122
6 300 11 (279) 990222
150 100 4 000 17 (432) 990132⬤ 26½ (673) 990132-P⬤
6 300 17 (432) 990232⬤ 26½ (673) 990232-P⬤
125 200 4 000 11 (279) 990322
6 300 11 (279) 990422
150 200 4 000 17 (432) 990332⬤ 26½ (673) 990332-P⬤
6 300 17 (432) 990432⬤ 26½ (673) 990432-P⬤

① For 50-Hz applications, specify Microprocessor Control for Application on 50-Hz systems, catalog number suffic "-F".
② Minimum trip current is 5 amperes for 40 A continuous, 5 amperes for 100 A continuous and 10 amperes for 200 A continuous TripSaver II reclosers.
⬤ Applicable for protection of single-phase-to-neutral circuits only in solidly-grounded-neutral (multi-grounded-neutral) 34.5-kV systems where leakage distance to ground meets user's requirement. Uses 25-kV, 150-kV BIL mounting.

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