Considerations for Implementing a Zone-Selective ... · Zone-Selective Interlocking - Timing 0.001...

Considerations for Implementing a Zone-Selective Interlocking

Scheme on Medium and Low Voltage Systems

Matt Proctor– GE Grid Automation

Marcelo Valdes – GE Industrial Solutions

2017 MIPSYCON

Zone-Selective InterlockingUsed when time-overcurrent delay is unacceptable. “Chronometric coordination”

Zone-Selective Interlocking

Some form of Inter-IED signaling is required. Chronometric coordination + location logic.B1

Zone-Selective Interlocking - Hardwiring

Mechanical relay contacts can take approximately 4 msto 10 ms to operate.

Solid-state contacts can take approximately 0.1 ms to operate but have leakage current. Beware false-positives!

Fails into fast, non-selective (protective) mode.LV trip units always fail this way!

Fails into slow but selective mode.

Implemented in relays, failure mode is selectable

Additional logic can become cumbersome with hardwiring.

M1TRIP

M152 a

TD Time Delay Relay

50 – F1 F1TOC

50 – F2 F2TOC

(disconnected position shown)

Zone-Selective Interlocking - Comms

• Communications can be used to simplify wiring.

• Count on 4ms delay for priority GOOSE messages.

• Tripping device has a finite # of devices to which it can subscribe.

Downstream IED’s publish block & TOC status via GOOSE.

Upstream IED subscribes to block statuses via GOOSE.

Default states are chosen to choose failure mode.ON = Slow/SelectiveOFF = Fast/Non-Selective

Logic is applied to fast-tripping element.

IED logic is created.

Zone-Selective Interlocking - PickupsUpstream pickup must not be more sensitive than any downstream pickup. “Tolerance”

Upstream pickup must not pick up for charging current, inrush, etc.

Downstream pickup must not have any delay!

Beware excessively high pickup settings – DSP clamping

Zone-Selective Interlocking - Timing

Mech. Output contact time + tolerance

Time to over-threshold determination

Input scan time, window to receive restraint signal

SSR Output contact time + tolerance

3 cycle CB clearing

Left TCC shows plot for the relay’s IOC algorithm, 2 mS scan time, SSR output contacts plus tolerance. Right TCC shows mechanical output contacts in lieu of SSR contacts

Tripping can be set with an intentional delay to allow time for restraint signal to be active, OR a relay’s inherent inverse time/current characteristic can be used to time-coordinate.

Precise timing requires detailed info from manufacturer.

Even “instantaneous” has an inverse time/current characteristic.

Zone-Selective Interlocking - TimingTripping delay can be set more generally based on readily available manufacturer info.

Always weigh the benefits and risks when setting the delay. When reduction of clearing time is of utmost importance, attention to timing detail is extremely important.

This implementation will only expedite tripping for F1. This scheme will not help F2.

Beware inrush!

ZSI Challenge #1: Transformer In-zone

MV IED can be blocked for a period of time immediately after energization, but this solution is deficient in two ways:1) Faults during energization would be slow to clear.2) Doesn’t account for transient recovery inrush.

This solution seems sort of silly to me. Why are we discussing this at all?

2nd Harmonic detection can be used to address inrush.

This solution seems sort of silly to me. Why are we discussing this at all?

This implementation can expedite tripping for F1.

It is important for the LV IED CT’s to be removed from the F1 protected area.

Stress of 1 fault can cause a simultaneous fault.

Under very specific circumstances, the blocking relay would prevent the tripping relay from operating fast.

Normally, fault current would be re-directed into upstream fault so block would be removed.

ZSI Challenge #2: Simultaneous Faults

MAINBreaker

Feeder 1Breaker

Load 1

Phase A -ground fault(significant Z)

I1 = I2 + I3

Phase A -ground fault(significant Z)

Can we drop this discussion? Or do you think it is very important?

Conclusions

• ZSI is a longstanding technology that can be used to expedite otherwise slow time-overcurrent protection.

•The scheme can be implemented in many different ways. Consider the failure mode of the scheme.

•Transformer inrush and simultaneous faults offer challenges to ZSI implementation.

•Choose your ZSI timing carefully.

Thank You

Questions?

Considerations for Implementing a Zone-Selective ... · Zone-Selective Interlocking - Timing 0.001...

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