# Glossary

The terminology used in this glossary conforms to the International Vocabulary of Basic and General Terms in Metrology and the International Vocabulary of Legal Metrology. In addition, for CLOU documentation purpose, the following definitions shall apply

Values of average phase voltages in settable aggregation period for voltage peak and minimum calculation are available as COSEM objects. Values in those objects are refreshed at the end of the measurement period and the same values are kept until the next period ends.

 L1 L2 L3 Average voltage 32.24.0 52.24.0 72.24.0
Categories: energy meter, index, OBIS

Vector registration method (L)
By vector method the vectors of each phase L1, L2 and L3 are summed:
– When the vector sum of energies is positive, the meter registers A+ energy.
– When the vector sum of energies is negative, the meter registers A- energy.

Example (same load in each phase)

 phase L1 L2 L3 load A+ A- A+

Total registration: OBIS 1.0.1.8.0 = (A+) + (A-) + (A+) = A+

Arithmetic registration method
The meter can register A+ and A- energy at the same time with the arithmetic registration method.
Example (same load in each phase)

 phase L1 L2 L3 load A+ A- A+

Total registration, import (forward) direction: OBIS 1.0.1.8.0 = (A+) + (A+)
Total registration, export (reverse) direction: OBIS 1.0.2.8.0 = (A-)

Absolute registration |A |

The registration of absolute active energy |A| is as follows:

Example (same load in each phase)

 phase L1 L2 L3 load A+ A- A+

Total registration, import direction: OBIS 1.0.1.8.0 = |A+| + |A-| + |A+|
With this settings the meter registers only forward energy.

Categories: energy meter, index, OBIS

Electricity metering data exchange
– The DLMS/COSEM suite –
Part 6-1: Object Identification System (OBIS) (IEC 62056-6-1)

This standard replaces the IEC 62056-61.

Categories: Glossary, index, OBIS

Phase current is measured and presented in corresponded DLMS/COSEM objects for each phase separately. Internally currents are always measured in mA.

Instantaneous current is measured in the meter every second.

 L1 L2 L3 Sum Instantaneous current 31.7.0 51.7.0 71.7.0 90.7.0

### Magnitude of last voltage sag

In this objects are the magnitudes of the last sags recorded.

Each detected voltage sag on specific phase voltage results in increment of corresponding phase voltage sag counter. The counter for any phase voltage sag is only incremented when all phase voltages come out of voltage sag condition.

Information on voltage magnitude for last occurred voltage sag on specific phase is stored in corresponding register object. For each phase meter records the minimum value of instantaneous phase voltages during voltage sag condition on that specific phase. The any phase voltage sag magnitude is registered when all phase voltages come out of voltage sag condition. The registered magnitude is the minimum measured instantaneous voltage in any phase during any phase voltage sag condition. With each new occurrence of specific voltage sag, previous voltage sag information is rewritten with new information.

In parallel with voltage sag magnitude, also voltage sag duration is recorded (per specific phase and for any phase). Duration records the time from the point that voltage level drops below voltage sag threshold to the point when it rises above voltage sag threshold including 2% hysteresis.

 L1 L2 L3 Magnitude of last voltage sag 32.34.0 52.34.0 72.34.0
Categories: energy meter, index, OBIS

### Magnitude of last voltage swell

Each detected voltage swell on specific phase voltage results in increment of corresponding phase voltage swell counter. The counter for any phase voltage swell is only incremented when all phase voltages come out of voltage swell condition.

Information on voltage magnitude for last occurred voltage swell on specific phase is stored in corresponding register object. For each phase the meter records the maximum value of instantaneous phase voltages during voltage swell condition on that specific phase. The any phase voltage swell magnitude is registered when all phase voltages come out of voltage swell condition. The registered magnitude is the maximum measured instantaneous voltage in any phase during any phase voltage swell condition.

With each new occurrence of specific voltage swell, previous voltage swell information is rewritten with new information.

In parallel with voltage swell magnitude, also voltage swell duration is recorded (per specific phase and for any phase). Duration records the time from the point that voltage level rises above Vv_swell to the point when it drops below Vv_swell including 2% hysteresis.

 L1 L2 L3 Magnitude of last voltage swell 32.38.0 52.38.0 72.38.0
Categories: energy meter, index, OBIS

Maximum demand registers are storing the highest actual average value measured in each period. At the end of each period the actual average value from 1.0.x.4.0 registers are compared with the maximum demand value. If the actual average demand value is higher than the maximum demand value, it replaces the value stored in the maximum demand register.

Maximum demand values are set to zero value at the end of each billing period.

Maximum demand can be calculated for:

– active energy in both directions

-reactive energy per quadrant and as sum of two quadrants

– apparent energy in both flow directions

The tariff 1…8 is indicated by i.

 Sum Tariff A+ 1.6.0 1.6.i A- 2.6.0 2.6.i Q+ 3.6.0 3.6.i Q- 4.6.0 4.6.i S+ 9.6.0 9.6.i S- 10.6.0 10.6.i

OBIS stands for OBject Identification System

Each COSEM object is identified by its logical name given by OBIS. A complete list of standard OBIS codes can be downloaded here.

### Under-voltage / over-voltage

The meter detects condition when phase voltage rises above or drops below certain threshold levels. Such conditions are categorized as over-voltage or under-voltage. From samples of phase voltages the meter calculates the average values over a time period. This time period is synchronized with the meter clock. At the end of time period, each value of average phase voltage is compared to the over-limit and under-limit threshold parameters. When specific phase voltage value rises above over-limit threshold, an event for voltage over-limit is generated. Also when certain phase voltage drops below under-limit threshold, an event for voltage under-limit is recorded.

The meter also records end of voltage under/over limit condition (voltage normal event) when phase voltage returns between the two threshold levels. In order to prevent several events when phase voltage is exactly on the level of thresholds, a 2% hysteresis is implemented. This means that in order to detect normal voltage, phase voltage must rise additional 2% above parametrized under-limit threshold, or drop additional 2% below parametrized over-limit threshold.

 Any phase Threshold for voltage over-limit 12.35.0.1 Time threshold for voltage over-limit 12.44.0.1 Threshold for voltage under-limit 12.31.0.1 Time threshold for voltage under-limit 12.43.0.1
Categories: energy meter, index, OBIS

### Voltage levels

Recorded when the duration is more than 1 minute.

 voltage L1 L2 L3 any Level 1: > +10% 128.7.11 128.7.21 128.7.31 128.7.41 Level 2: between +10% and +5% 128.7.12 128.7.22 128.7.32 128.7.42 Level 3: between +5% and 0% 128.7.13 128.7.23 128.7.33 128.7.43 Level 4: between 0% and -5% 128.7.14 128.7.24 128.7.34 128.7.44 Level 5: between -5% and -10% 128.7.15 128.7.25 128.7.35 128.7.45 Level 6: between -10% and -15% 128.7.16 128.7.26 128.7.36 128.7.46 Level 7: < -15% 128.7.17 128.7.27 128.7.37 128.7.47
Categories: energy meter, index, OBIS

### Voltage sags

When the rms voltage is below the nominal voltage by 10% to 90% for 0.5 cycles to 1 minute this event is called a sag.

Voltage sag starts when instantaneous voltage of specific phase drops below the threshold for Voltage Sag for longer than the time set. Voltage sag ends when the same instantaneous voltage rises above threshold for Voltage Sag.

Voltage sag detection involves 2% hysteresis, which means that once voltage drops below threshold , it must rise 2% above threshold in order to come out of voltage sag condition. The following information is recorded when voltage sag is detected:

• voltage sag counter is incremented by 1
• magnitude of voltage sag is stored
• duration of voltage sag is stored
• event is recorded in Power Quality Log

The threshold is defined as percentage of nominal voltage.

Time threshold for voltage sag specifies the required duration in seconds for which specific voltage must drop below voltage sag threshold until voltage sag condition is triggered.

 Any Magnitude for voltage sag 12.34.0 Under-limit duration 12.33.0 Counter for voltage sag 12.32.0
Categories: energy meter, index, OBIS

### Voltage swells

When the RMS voltage exceeds the nominal voltage by 10 % to 80 % for 0.5 cycles to 1 minute, the event is called a “swell”.

Voltage swell starts when instantaneous voltage of specific phase rises above the threshold for longer than the time set in time threshold.

Voltage swell ends when the same instantaneous voltage drops below threshold. Voltage swell detection involves 2% hysteresis, which means that once voltage rises above threshold, it must drop 2% below in order to come out of voltage swell condition. The following information is recorded when voltage swell is detected:

• voltage swell counter is incremented by 1
• magnitude of voltage swell is stored
• duration of voltage swell is stored
• event is recorded in Power Quality Event Log

The threshold is defined as percentage of nominal voltage.

Time threshold for voltage swell specifies the required duration in seconds for which specific voltage must rise above until voltage swell condition is triggered.

 Any Magnitude for voltage swell 12.38.0 Over limit duration 12.37.0 Counter for voltage swell 12.36.0
Categories: energy meter, index, OBIS