Time constant for cooling situation, Ik k i – Rockwell Automation 865 Differential Protection Relay User Manual

Protection Functions

3-23

865-UM001A-EN-P – July 2009

Ip =

Preload current,

n

P

I

k

I

Ч

Ч

= θ

(If

temperature rise is 120%

2

.

1

=

θ

). This

parameter is the memory of the algorithm
and corresponds to the actual temperature
rise.

k

=

Overload factor (Maximum continuous
current), i.e. service factor. (Setting value)

k

Θ

=

Ambient temperature factor (Permitted
current due to tamb). See Figure 3.14

I

MODE

=

The rated current (I

N

or I

MOT

)

τ

C

=

Relay cooling time constant (Setting value)

Time Constant for Cooling Situation

If the transformer's fan is stopped, the cooling will be slower than
with an active fan. Therefore there is a coefficient c

Θ for thermal

constant available to be used as cooling time constant, when current
is less than 0.3xI

N

.

Heat Capacitance, Service Factor and Ambient Temperature

The trip level is determined by the maximum allowed continuous
current I

MAX

corresponding to the 100 % temperature rise

Θ

TRIP

i.e.

the heat capacitance of the transformer. I

MAX

depends of the given

service factor k and ambient temperature

Θ

AMB

and settings I

MAX40

and I

MAX70

according the following equation.

N

MAX

I

k

k

I

⋅

⋅

=

Θ

The value of ambient temperature compensation factor k

Θ depends

on the ambient temperature

Θ

AMB

and settings I

MAX40

and I

MAX70

. See

Figure 3.14. Ambient temperature is not in use when k

Θ = 1. This

is true when

IMAX40 is 1.0

Samb is “n/a” (no ambient temperature sensor)

TAMB is +40 °C.