Contents Electricity metering... 2 General description... 3 Standard assortment/accessories... 4 Product overview... 6 Wiring diagrams... 8 Technical data...9 Symbols and definitions... 10 Dimensions... 11 ABB Cewe 1
Electricity metering Introduction In most cases power measurements in three phase systems with a current-carrying neutral conductor are made using the three-watt meter method. Where metering is the basis for billing, this is a requirement. High voltage installations often have no current-carrying neutral, therefore the two-watt meter measurement method can be used. Both voltage and current transformers are commonly used. If a three-phase load is balanced, single phase metering can be employed. If the Delta Meter is directly connected to the mains the device must be protected by fuses (the possibility to isolate the meter is recommended) on the incoming side. In order to allow the maintenance of Delta Meters with current transformers connected a short circuiting terminal block should be installed near the meter. The voltage supply to the meter must be protected by a max. 10 A fuse. Active and reactive power Active power is needed to perform work. However, consumer equipment often introduces a phase shift between current and voltage as a result of the inductive nature of the load, e.g. motor drives etc. The maximum permissible phase shift is governed by the terms of the consumer s contract with the electricity supplier. If the consumer exceeds the specified maximum, he will be liable to an extra charge and would be well advised to install compensation equipment, usually in the form of capacitor banks. It can be seen, therefore, that the reactive component of the power is also of interest for measurement. U U U I I I Methods of measuring power A. The single-watt meter method (single phase) R S T N P = 3 x I T x U T Load In three phase systems the single-watt meter method only gives correct results with balanced loading of the phases. Since in practice perfectly balanced systems are very seldom, this method should not be used for accurate measurements. B. The two-watt meter method R S T Load The two-watt meter method is used in three phase systems not having a neutral conductor, irrespectively of the load being balanced or not. The two watt-meter method is less accurate when measuring inductive or capacitive loads at low cos values. Resistive Capacitive Inductive load load load Resistive loads introduce no phase shifts. Inductive loads introduce a phase shift in one direction, while capacitive loads produce a phase shift in the opposite direction. As a result, inductive and capacitive loads can be used to compensate each other. The phase shift of the current with respect to the voltage results in the power being divided up into active and reactive components. The angle between the actual power vector and the active power component is described as phase displacement angle, often referred to as. C. The three-watt meter method R S T N Load Active power Apparent power R Wh 1063 Wh 1163 = Phase displacement S P = U R x I R + U S x I S + U T x I T The three watt-meter method is usually employed in three phase systems having a neutral conductor. This method can deal with unbalanced loads and loads with a low cos value without deterioration in accuracy. Belastn. P=UI cos ( )(active power), W T I Q=UI sin ( )(reactive power), var Reactive power US=UI (apparent power), VA N2 ABB Cewe
General description Delta Meter is an electronic meter mainly conceived to be DIN-rail mounted. Delta Meter is designed according to ABB s ProM standard. All Delta Meters are type approved according to the international standard IEC 1036 (for active energy) and IEC 1268 (for reactive energy). These standards cover all technical aspects regarding climatic conditions, electrical and mechanical requirements, electromagnetic compatibility (EMC) and accuracy. The Delta Meter is easy to read. It has an LCD (Liquid Crystal Display) with 7 mm high digits and several symbols. The meter has also a polarity independent, solid state (semiconductor) relay that generates pulses proportionally to the measured energy. A red LED (Light Emitting Diode) flashes proportionally to the measured energy. Selection of the information in the LCD-display and programming of the Delta Meter is achieved via two buttons. All Delta Meters are able to perform an installation check: a control test that indicates if mistakes were made in the installation. The Delta Meter offers a primary measurement function when connected to external voltage (VT) or current (CT) transformers. The product VT x CT = transformer ratio, can be easily set up in the meter by means of the two programming buttons. Due to this function the display shows the real energy consumption values. The product assortment is divided into 2 main groups: Direct connected meters up to 65 A Transformer rated meters (CT/VT) for currents > 65 A For each main group there are subgroups: - Different voltages - Active energy metering - Reactive energy metering - Combined metering (both active and reactive) - Tariff controlled meters (1-4 tariffs, active and combined) ABB Cewe 3
Transformer rated 3-phase meters Article number Type Voltage V Pulse output frequency imp/kwh (kvarh) Number of tariffs Active meter - accuracy class 2 998 374 43 DAB 22 00 00 3x230 programmable 998 374 34 DAB 22 15 00 3x230 1000 998 374 09 DAB 21 13 00 3x230/400 100 998 374 11 DAB 24 15 00 3x63/110 1000 998 374 12 DAB 24 23 00 3x63/110 10000 998 374 14 DAB 24 25 00 3x63/110 50000 998 374 15 DAB 21 15 00 3x230/400 1000 998 374 40 DAB 21 25 00 3x230/400 50000 998 374 39 DAB 23 15 00 3x57/100 1000 998 374 38 DAB 25 15 00 3x100 1000 998 374 16 DAB 26 15 00 3x110 1000 998 374 17 DAB 27 15 00 3x127/220 1000 998 374 18 DAB 29 15 00 3x400 1000 998 374 19 DAB 20 15 00 3x500 1000 998 374 32 DAB 21 00 00 3x230/400 programmable 998 374 05 DGB 21 15 02 3x230/400 1000 3 998 374 27 DGB 21 15 01 3x230/400 1000 2 Active meters - accuracy class 1 998 374 21 DAB 11 15 00 3x230/400 1000 998 374 22 DAB 19 15 00 3x400 1000 998 374 23 DAB 10 15 00 3x500 1000 Combined meters - accuracy class 2 Both active and reactive measuring, with pulse output. 998 374 37 DCB 22 15 00 3x230 1000 998 374 24 DCB 21 15 00 3x230/400 1000 998 374 35 DIB 21 15 02 3x230/400 1000 3 Reactive meters - accuracy class 2 998 374 36 DEB 22 15 00 3x230 1000 998 374 25 DEB 21 15 00 3x230/400 1000 4 ABB Cewe
80 Delta Meter Direct connected 3-phase meters Article number Type Voltage V Pulse output frequency imp/kwh (kvarh) Number of tariffs Active meters - accuracy class 2 998 374 71 DBB 22 02 00 3x230 programmable 998 374 69 DBB 21 02 00 3x230/400 programmable 998 375 00 DBB 21 17 00 3x230/400 100 998 374 73 DBB 22 17 00 3x230 100 998 374 94 DBB 21 18 00 3x230/400 1000 Combined meters - accuracy class 2 Both active and reactive measuring, with pulse output. 998 374 72 DDB 21 17 00 3x230/400 100 Accessories Article number Type Application case Drawing number 09 811 02 DIN-rail For wall mounting 09 811 81 Long cover For wall mounting 1 09 811 04 External counter For panel mounting 2 Front mounting kit For panel mounting 3 19 102 30 Time switch clock for tariff control STT 227 Drawing number 1 110,5 122,5 50 Drawing number 2 1 54,1 2,5 Drawing number 3 45,5 23 20 34 6 31 123,5 161 ABB Cewe 5
, Transformer rated meters Product overview Type designation Position 1 2 3 4 5 6 7 8 9 Standard Neutral D E Functionality Active energy meters Combi meters Reactive energy meters Tariff, active energy meters Tariff, combi meters A C E G I Communication Without B Accuracy Class 1 1 Class 2 2 Voltage 3x230/400 V 1 3x230 V 2 3x57/100 V 3 3x63/110 V 4 3x100 V 5 3x110 V 6 3x127/220 V 7 3x400 V 9 3x500 V 0 Pulse output frequency/led frequency, imp/kwh, imp/kvarh Programmable by customer Table 1 00 Programmable by customer Table 2 01 Programmable by customer Table 3 02 Programmable by customer Table 4 03 Programmable by customer Table 5 04 10/5000 12 100/5000 13 1000/5000 15 5000/5000 22 10000/5000 23 50000/5000 25 Tariff Without 00 2 tariffs (binary coded) 01 3 tariffs (binary coded) 02 4 tariffs (binary coded) 03 Resetable 10 6 ABB Cewe
, Direct connected meters Product overview Type designation Position 1 2 3 4 5 6 7 8 9 Standard Neutral D E Functionality Active energy meters Combi meters Reactive energy meters Tariff, active energy meters Tariff, combi meters B D F H J Communication Without B Accuracy Class 1 1 Class 2 2 Voltage 3x230/400 V 1 3x230 V 2 3x400 V 9 3x500 V 0 Pulse output frequency/led frequency, imp/kwh, imp/kvarh Programmable by customer Table 1 00 Programmable by customer Table 2 01 Programmable by customer Table 3 02 Programmable by customer Table 4 03 Programmable by customer Table 5 04 1/1000 11 10/1000 16 100/1000 17 640/640 14 1000/1000 18 5000/1000 26 Tariff Without 00 2 tariffs (binary coded) 01 3 tariffs (binary coded) 02 4 tariffs (binary coded) 03 Resetable 10 ABB Cewe 7
Wiring diagram Direct connected meters. Three phase system with a neutral conductor. Example: DBB 211700 Transformer rated meters, for metering over 65A. Three phase system having a neutral conductor. Example: DAB 211500, DAB 271300, DAB 241500. Direct connected meters. Three phase system without a neutral conductor. Example: DBB 220200 Transformer rated meters, for metering over 65 A. Three phase system without a neutral conductor. Example: DAB 221500, DAB 251500, DAB 291500, DAB 201500. Pulse output. External power supply up to 230 V AC or DC. Pulse output in active energy meters* Tariff input. Tariff control by external power supply up to 230 V AC T1 = Tariff input 1 T2 = Tariff input 2 *Also valid for reactive energy meters, in kvarh Pulse output in combi meters Active Input Input tariff T1 T2 Tariff 1 0 0 Tariff 2 1 0 Tariff 3 0 1 Tariff 4 1 1 See Technical Data, Tariff input 8 ABB Cewe
Technical data For direct connected and transformer rated meters (VT/CT) Electric data and accuracy classes Voltage 3x230/400 is standard, other values on request, see product assortment. Voltage range -20% to +15% of nominal voltage. Power consumption of voltage circuits: < 4 VA, 2 W/phase; normally 2.5 VA, 1.5W Transformer rated meters: 1(6) A Class 1 2(6) A for Class 2 Starting current: < 2 ma for Class 1, < 4 ma for Class 2 Direct connected meters: 5(65) A for Class 1 and Class 2 Starting current: Power consumption of current circuits: Frequency < 25 ma < 0.2 VA per phase 50/60 Hz±2.5% Accuracy IEC 1036 Class 1 and 2 for active meters, IEC 1268 Class 2 for reactive meters. Temperature range: Display -40 C to +55 C LCD with 7 digits, height 7 mm Mechanical data Material: Protection class Polycarbonate in the frontal glass and casing; the terminal base is of glass fibre reinforced polycarbonarte II Resistance to heat and fire: Equivalent to IEC 695-2-1 Protection against penetration of dust and water Max. connection area at terminal: Total weight: Equivalent to IEC 529 class IP51 with long cover and IP20 without long cover 10 mm 2 for VT/CT, 25 mm 2 for direct connected meters 0,5 kg Pulse output Max. current, max. voltage: 100 ma, 247 V AC, DC Max. connection area: 2.5 mm 2 Pulse output frequency: Pulse length: 1000 imp/kwh for VT/CT and 100 imp/kwh for direct, other values on demand. 100 ms ± 1ms is standard. Flashing frequency for the LED 5000 imp/kwh for VT/CT and 1000 imp/kwh for direct, other values on request. Tariff input Tariffs are binary coded. Other codes on request. Max. voltage: 276 V AC Voltage range: 0-20V AC (switches the tariff input to 0 ) 57-276 V AC (switches the tariff input to 1 ) Max. connection area at terminal: 2.5 mm 2 Standards IEC 1036 For active meters Class 1 and 2 IEC 1268 For reactive meters Class 2 ABB Cewe DIN 43864 (SO) IEC 62053-31 Pulse output 9
Symbols and Definitions Type label: Symbol for voltage/current circuit Type designation Voltage Frequency Nominal and (max.)currents, accuracy class Pulse output frequency Protection class II Serial number LED frequency (meter constant) Symbols for electricity meters Meters with 1 drive system Meters with 2 drive systems Meters with 3 drive systems which have one current and one voltage coil (used for single phase 2- conductor circuits) each with a voltage and current coil connected as per the two watt-meter method (used for three phase 3- conductor circuits) each with a voltage and current coil connected as per the three wattmeter method (used for three phase 4-conductor circuits) 10 ABB Cewe
Dimensions Terminal area, transformer rated meter Terminal area, direct connected meter All meters, front view All meters, side view ABB Cewe 11