Eep - Standard Tripping Schemes And Trip Circuit Supervision Schemes For Mv Switchgear

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Medium voltage switchgears are used for switching medium voltage loads through associated control, measuring, protective and regulating equipment. This operation also involves considerable manual intervention which therefore necessitates the fulfilment of safety requirements laid down in International Standards.

Standard tripping schemes and trip circuit supervision schemes for MV switchgear (on photo::

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A variety of control and interlocking schemes are used to achieve the above stated objectives. This technical covers following schemes in detail: 1. General 2. Tripping schemes 1. Shunt Tripping Scheme 2. Series Tripping Schemes 1. Using Relays 2. Using Summation CT 3. Using Motor Protection Circuit Breaker (MPCB) 4. Using Time Limit Fuses 3. Capacitor Tripping Scheme 3. Trip circuit supervision schemes 1. How it works? (VIDEO) These schemes are the frequently used and are provided in most medium voltage switchgear applications.

A protection relay is usually required to trip a circuit breaker (CB). The power required by the trip coil of the CB may range from 50 W for a small distribution CB to 3000 W for a large EHV CB. Where such appreciable current-carrying capacity is required, interposing contactor type elements will normally be used.

This interposing contactor type element is connected in any of the three arrangements discussed below.

Even though the functional requirements of schemes remain the same, there is always a variation from project to project depending upon the following factors: 1. Distribution philosophy of AC, DC supply 2. System/bus configuration 3. Number of breaker trip coils 4. Grouping of alarm signals and trip/non-trip segregation and 5. Tripping logic https://electrical-engineering-portal.com/tripp...

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and based on experience gained over a period of time. Go back to contents ↑

This is the most commonly used tripping scheme. The protective relay (PR) contact is arranged directly to trip the circuit breaker and it simultaneously energises an auxiliary unit X which then reinforces the contact that is energising the trip coil. The scheme is shown in Figure 1. All the above-mentioned tripping schemes envisage the use of separate DC supply for tripping. An alternative scheme using the fault current to trip the circuit breaker is called a series tripping scheme.

tripping scheme

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These schemes operate by using different components as discussed below.

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the series tripping relays. The trip coil comes into the circuit and trips the circuit breaker when the relay contact opens at fault. The circuit is shown in Figure 2.

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This scheme is similar to the one using relays but here a summation CT is used to summate the current of all the three phases, thereby minimising the requirement of three series trip coils to one.

The summation CTs are LT CTs which sum up the secondary current output of HT CTs of three phases and provide a proportional single-phase output.

The series trip coil is connected to the output of the summation CT and normally shorted through relay NC contacts. The scheme is shown in Figure 3.

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MPCBs are manual motor starters with thermal and electromagnetic trip features. Normally the trip coil is kept shorted through the MPCB. The MPCB blows off during a fault, and thereby pushing the fault current through the trip coil which, in turn, trips the circuit breaker. This process is shown in Figure 4 below.

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This is similar to the MPCB scheme. Here, in the place of MPCBs, fuses with definite time characteristic are connected across the trip coil. Go back to contents ↑

For installations where DC supply is not available or where it is uneconomical to provide battery / battery charger for DC supply or where the stations are unattended and battery maintenance cannot be guaranteed, a circuit using capacitor banks is employed to provide tripping energy to the breaker trip coil.

It employs a three-phase full wave rectifier bridge with diodes for DC output and capacitive circuit for storing energy. The diode rectifier bridge is powered by the secondary of the HT PT.

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rectifier’s dc supply. In abnormal conditions of failure of HT PT supply, the tripping energy is derived from energy stored in the charged capacitor banks. Normally the capacitors are rated to store energy for two trip and one close operation. The scheme is shown in Figure 5.

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The trip circuit extends beyond the relay enclosure and passes through more components such as fuses, links, relay contacts, auxiliary switch contacts and so on, and in some cases, through a considerable amount of circuit breaker wiring with intermediate terminal boards. These complications, coupled with the importance of the circuit, have directed attention to the need for its supervision. The simplest arrangement contains a healthy trip lamp, as shown in Figure 6.

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tripped by an internal short-circuit caused by failure of the lamp. This provides supervision while the circuit breaker is closed.

Figure 7 shows how, by the addition of a normally closed auxiliary switch and a resistance unit, supervision can be undertaken while the breaker is both open and closed.

In either case, the addition of a normally open push button contact in series with the lamp will make the supervision indication available only when required.

The supervision relay type TCS is intended for a continuous supervision of circuit breaker trip circuit and gives an alarm for loss of auxiliary supply, faults on the trip coil or its wires independent of the breaker position.

Schemes using a lamp to indicate continuity are suitable for locally controlled installations, but when control is exercised from a distance, it is necessary to use a relay system.

Figure 8 illustrates such a scheme, which is applicable wherever a remote signal is required.

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alarm

Under healthy conditions with the circuit breaker closed relays A and C are energized. If the trip circuit opens or the trip supply fails, relay A drops off and opens contact A1 to de-energize relay C. When the circuit breaker is open, relay B is also energized via the normally closed auxiliary switch of the circuit breaker and relay C is held in by contact B1. Relay B will detect trip circuit abnormalities with the circuit breaker open in a similar manner as relay A with the circuit breaker closed. Relay C is time delayed on drop-off by means of an RC circuit for a total time of 350 to 800 milli-seconds, to prevent a false alarm due to voltage dips caused by faults in other circuits or during a normal tripping operation, when relay A is momentarily short-circuited by the self re-set tripping relay contact. If the trip relay fails to re-set, possibly due to the failure of the circuit breaker tripping mechanism, the alarm is initiated.

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The alarm supply should be independent of the tripping supply so that an indication will be obtained in the event of the failure of the tripping battery.

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In a protection system the tripping of circuit breaker is crucial. Should an interruption occur in trip circuit, possible network fault would not be disconnected and the fault would have to be cleared by another upstream protections in the power system.

The supervision function is particularly important when there is only one tripping coil and CB tripping is vital or important circuit breaker in distribution networks.

The supervision relay type TCS is intended for a continuous supervision of circuit breaker trip circuit and gives an alarm for loss of auxiliary supply, faults on the trip coil or its wires independent of the breaker position.

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Go back to contents ↑ References // 1. Switchgears book by BHEL – Bharat Heavy Electricals Limited 2. Trip circuit supervision relay TCS Product Guide by ABB

Electrical engineer, programmer and founder of EEP. Highly specialized for design of LV/MV switchgears and LV high power busbar trunking (<6300A) in power substations, commercial buildings and industry fascilities. Professional in AutoCAD programming. Present on Google+

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