BL0921 Datasheet, PDF(10/13 Page) SHANGHAI BELLING CO., LTD. – Single Phase Energy Meter IC with Integrated Oscillator

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

BL0921 Datasheet, PDF (10/13 Pages) SHANGHAI BELLING CO., LTD. – Single Phase Energy Meter IC with Integrated Oscillator

◁

AGND

Phase Neutral

BL0921

Single Phase Energy Meter IC

with Integrated Oscillator

Â±660mV

Rb GAIN

V1A

V1N

Rb Â±660mV

GAIN

V1B

Phase Neutral

AGND

Ra >> RF

Rb+Rv=RF

Rv Â±660mV

AGND

Rb Â±660mV

GAIN

V1A

V1N

V1B

Figure 7. Typical Connections for Current Channels

Fault Detection

The BL0921 incorporates a novel fault detection scheme that warns of fault conditions and allows

the BL0921 to continue accurate billing during a fault event. The BL0921 does this by

continuously monitoring both the phase and neutral (return) currents. A fault is indicated when

these currents differ by more than 12.5%. However, even during a fault, the output pulse rate on

F1 and F2 is generated using the larger of the two currents. Because the BL0921 looks for a

difference between the signals on V1A and V1B, it is important that both current transducers are

closely matched. On power-up the output pulse rate of the BL0921 is proportional to the product

of the signals on Channel V1A and Voltage Channel. If there is a difference of greater than 12.5%

between V1A and V1B on power-up, the fault indicator (FAULT) will go active after about one

second. In addition, if V1B is greater than V1A the BL0921 will select V1B as the input. The fault

detection is automatically disabled when the voltage signal on Channel 1 is less than 0.5% of the

full-scale input range. This will eliminate false detection of a fault due to noise at light loads.

If V1A is the active current input (i.e., is being used for billing), and the signal on V1B (inactive

input) falls by more than 12.5% of V1A, the fault indicator will go active. Both analog inputs are

filtered and averaged to prevent false triggering of this logic output. As a consequence of the

filtering, there is a time delay of approximately one second on the logic output FAULT after the

fault event. The FAULT logic output is independent of any activity on outputs F1 or F2. Figure 8

illustrates one condition under which FAULT becomes active. Since V1A is the active input and it

is still greater than V1B, billing is maintained on VIA, i.e., no swap to the V1B input will occur.

V1A remains the active input.

http://www.belling.com.cn

- 10 -

Total 13 Pages

3/15/2007

▷