Phase shifting, Pickup scaling, Low-pass filter – Basler Electric BE1-47N User Manual

3-2

BE1-47N Functional Description

9170400990 Rev J

Phase Shifting

The respective secondary voltages are phase shifted ±45° each, with respect to signal ground and then

summed to nullify the positive sequence component.

Pickup Scaling

The resolved negative sequence voltage (V

2

) ac signal is then applied to the pickup scaling network

(switch S1 and its associated resistors). The pickup network establishes per-unit (PU) values of negative

sequence voltage for the comparison and timing functions.

Low-Pass Filter

The sensing circuits for negative sequence voltage, overvoltage, and undervoltage are designed to

operate on the fundamental frequencies of 50 or 60 hertz. The low-pass filter passes the fundamental

frequencies and attenuates the higher frequencies.

Negative Sequence Voltage Comparator

The proportionate negative sequence (V

2

) signal is compared to a reference level. When the level of the

per-unit negative sequence voltage exceeds the reference level, the pickup indicator lights and timing is

initiated.

Overvoltage/Undervoltage Comparator

Optional single-phase overvoltage and undervoltage circuits operate on the voltage magnitude. The

single-phase ac signal is low-pass filtered and passed to the respective comparator where it is compared

to the pickup settings for each circuit. If either pickup setting has been exceeded (overvoltage or under-

voltage), the appropriate LED lights and timing is initiated.

Timing

One of three timing characteristics is available for each of the three protection functions: definite, inverse,

or instantaneous. The timing characteristic may be independently selected for each protection function.

Table 3-2 identifies the timing style selections for negative sequence voltage, undervoltage, and over-

voltage protection.

Table 3-2. Timing Characteristic Style Number Selections

Protection Function

Timing Characteristic

Instantaneous

Inverse

Definite

Undervoltage (27)

xxx-xxx-x

1xxx

xxx-xxx-x

2xxx

xxx-xxx-x

3xxx

Negative Sequence Voltage (47N)

xxx-

A1x-xxxxx

xxx-

D1x-xxxxx

xxx-

E1x-xxxxx

Overvoltage (59)

xxx-xxx-xx

Rxx

xxx-xxx-xx

Sxx

xxx-xxx-xx

Txx

Definite timing is adjustable from 0.1 to 9.9 seconds in increments of 0.1 seconds.
The response time of instantaneous timing is less than 50 milliseconds. When the timing characteristic for

a protection function is definite or inverse and the time delay setting is 00, instantaneous timing is

achieved.
Inverse timing is adjustable from 01 to 99 in increments of 1 (see Figures 3-2 through 3-4 for the inverse

time characteristic curves). When evaluating inverse curves for overvoltage or undervoltage protection,

note that timing is based on the percent difference from the system’s nominal voltage. For example, refer

to Figure 3-4. If the monitored voltage is at a level of 18% below system nominal, the portion of the curves

below 18% (e.g., 13%, 8%, etc.) has no effect on the timing characteristic. In other words, the timing

curve beginning is dependent upon the monitored voltage percent difference from the system’s nominal

voltage. Inverse timing characteristics preceding this defined point are nonexistent.