Overcurrent protection principles: Difference between revisions
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A protective device is provided at the origin of the circuit concerned (see '''Fig. G3 '''and | A protective device is provided at the origin of the circuit concerned (see '''Fig. G3 '''and {{FigRef|G4}}). | ||
*Acting to cut-off the current in a time shorter than that given by the I<sup>2</sup>t characteristic of the circuit cabling | *Acting to cut-off the current in a time shorter than that given by the I<sup>2</sup>t characteristic of the circuit cabling | ||
*But allowing the maximum load current IB to flow indefinitely | *But allowing the maximum load current IB to flow indefinitely | ||
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:<big>'''S'''</big>: Cross sectional area of insulated conductor (mm<sup>2</sup>)<br> | :<big>'''S'''</big>: Cross sectional area of insulated conductor (mm<sup>2</sup>)<br> | ||
:<big>'''I'''</big>: Short-circuit current (A r.m.s.)<br> | :<big>'''I'''</big>: Short-circuit current (A r.m.s.)<br> | ||
:<big>'''k'''</big>: Insulated conductor constant (values of k<sup>2</sup> are given in | :<big>'''k'''</big>: Insulated conductor constant (values of k<sup>2</sup> are given in {{FigureRef|G52}})<br> | ||
For a given insulated conductor, the maximum permissible current varies according to the environment. For instance, for a high ambient temperature (θa1 > θa2), Iz1 is less than Iz2 (see | For a given insulated conductor, the maximum permissible current varies according to the environment. For instance, for a high ambient temperature (θa1 > θa2), Iz1 is less than Iz2 (see {{FigRef|G5}}). θ means “temperature”. | ||
<br>Note: <br> | <br>Note: <br> | ||
:'''ISC''': 3-phase short-circuit current<br> | :'''ISC''': 3-phase short-circuit current<br> | ||
:'''ISCB''': rated 3-ph. short-circuit breaking current of the circuit-breaker<br> | :'''ISCB''': rated 3-ph. short-circuit breaking current of the circuit-breaker<br> | ||
:'''Ir (or Irth)<sup>(1)</sup>''' : regulated “nominal” current level; e.g. a 50 A nominal circuit-breaker can be regulated to have a protective range, i.e. a conventional overcurrent tripping level (see '''Fig. G6 ''') similar to that of a 30 A circuit-breaker. | :'''Ir (or Irth)<sup>(1)</sup>''' : regulated “nominal” current level; e.g. a 50 A nominal circuit-breaker can be regulated to have a protective range, i.e. a conventional overcurrent tripping level (see '''Fig. G6 ''') similar to that of a 30 A circuit-breaker. | ||
[[File:FigG03.jpg|none]] | [[File:FigG03.jpg|none]] | ||
'''''Fig. G3:'''''<i> Circuit protection by circuit-breaker</i> | '''''Fig. G3:'''''<i> Circuit protection by circuit-breaker</i> | ||
[[File:FigG04.jpg|none]] | [[File:FigG04.jpg|none]] | ||
'''''Fig. G4:'''''<i> Circuit protection by fuses</i> | '''''Fig. G4:'''''<i> Circuit protection by fuses</i> | ||
[[File:FigG05.jpg|none]] | [[File:FigG05.jpg|none]] | ||
Revision as of 15:27, 25 November 2016
A protective device is provided at the origin of the circuit concerned (see Fig. G3 and Fig. G4).
- Acting to cut-off the current in a time shorter than that given by the I2t characteristic of the circuit cabling
- But allowing the maximum load current IB to flow indefinitely
The characteristics of insulated conductors when carrying short-circuit currents can, for periods up to 5 seconds following short-circuit initiation, be determined approximately by the formula:
- I2t = k2 S2
which shows that the allowable heat generated is proportional to the squared cross-sectional-area of the condutor.
where
- t: Duration of short-circuit current (seconds)
- S: Cross sectional area of insulated conductor (mm2)
- I: Short-circuit current (A r.m.s.)
- k: Insulated conductor constant (values of k2 are given in Figure G52)
For a given insulated conductor, the maximum permissible current varies according to the environment. For instance, for a high ambient temperature (θa1 > θa2), Iz1 is less than Iz2 (see Fig. G5). θ means “temperature”.
Note:
- ISC: 3-phase short-circuit current
- ISCB: rated 3-ph. short-circuit breaking current of the circuit-breaker
- Ir (or Irth)(1) : regulated “nominal” current level; e.g. a 50 A nominal circuit-breaker can be regulated to have a protective range, i.e. a conventional overcurrent tripping level (see Fig. G6 ) similar to that of a 30 A circuit-breaker.
Fig. G3: Circuit protection by circuit-breaker
Fig. G4: Circuit protection by fuses
Fig. G5: I2t characteristic of an insulated conductor at two different ambient temperatures
