ETC WM22-DINAV2AOA1

Energy Management
Power Analyzer with plug-in Output Modules
Type WM22-DIN
• Class 0.5 (current/voltage)
• Three-phase power analyzer
• Back-lighted LCD
• 4 x 31/2 DGT instantaneous variables read out
• 71/2 DGT energy read-out
• Measurements of system and phase variables:
W, Wdmd, var, VA, VAdmd, PF (cosϕ), V, A, Hz, THD-A, THD-V
• Measurements of total energies: kWh, kvarh
• Measurements of partial energies: kWh, kvarh
• Energy measurements according to EN61036 and EN61268
• TRMS measurements of distorted wave forms
(voltages/currents)
• Two basic models: direct connection 20(90)AAC,
CT 5(10)AAC and VT connection
• Maximum value indication of W dmd and VA dmd (only
5A version); maximum value indication of A (only 90A
version)
• Self power supply (available for some models only) or
auxiliary power supply: 24V, 48V, 115V, 230V, 50-60Hz;
18 to 60VDC, 77 to 143VDC
• Degree of protection (front): IP 40
• Front dimensions: 9 DIN modules
• Analogue output by means of optional module
(20mA or 10VDC)
• RS 422/485 Serial port by means of optional module
• Alarm output by means of optional module
• Dual pulse output by means of optional module
• Control of phase asymmetry
Product description
Three-phase power analyzer
with built-in configuration
key-pad;
Particularly indicated for the
analysis of main, secondary
and energy metering electrical variables.
Housing for DIN-rail or wallmounting, IP40 (front) protection degree.
Completely sealable housing.
In case of direct connection
up to 90A, the measuring
input terminals are suitable
for cables with a cross-sec-
How to order
2
tion area from 6 to 35 mm .
The special design of the
instrument’s housing allows
to add at any time the interface modules, even when
the instrument is already
installed.
The following modules are
available:
- for all versions: pulses output;
- only for the versions with
auxiliary power supply:
analogue output, RS485
port or alarm output.
WM22-DIN AV5 3 X X XX
Model
Range code
System
Power supply
Slot A
Slot B
Important note:
• The models from AV0 to AV7 can be equipped with any
type of available modules (slot A and B).
• The models AV8 and AV9 can be equipped only with the
“O” and “R” type modules.
• The AV8 and AV9 models can measure all the parameters even if
the three phase system being connected is missing one phase.
• The Av2 model is suitable only for three-phase unbalanced system without neutral.
Type selection
Range Code
Power supply
Slot A (retransmission)
Slot B (retransmission)
Auxiliary Power Supply:
AV0: 208VL-L/20(90)AAC [3]
AV1: 400VL-L/20(90)AAC [1]
AV3: 660VL-L/20(90)AAC [2]
AV4: 208VL-L/5(10)AAC [3]
AV5: 400VL-L/5(10)AAC [1]
AV6: 100VL-L/5(10)AAC [3]
AV7: 660VL-L/5(10)AAC [2]
Self Power Supply:
AV2: 220VL-L/20(90)AAC [4]
AV8: 208VL-L/20(90)AAC [1]
AV9: 400VL-L/20(90)AAC [1]
For all versions
A:
24VAC
-15+10%, 50-60Hz
B:
48VAC
-15+10%, 50-60Hz
C:
115VAC
-15+10%, 50-60Hz
D:
230VAC
-15+10%, 50-60Hz
4:
18 to 60VDC
5:
77 to 143VDC
AV2, AV8 and AV9 only
X:
Self Power Supply
400VL-L
(-20+15%, 50-60Hz)
208VL-L
(-20+15%, 50-60Hz)
220VL-L
(-10+15%, 50-60Hz)
X:
O:
Only with A-B-C-D-4
power supply
XX:
None
A1:
AO2920 module
0-20mADC
analogue output
V1:
AO2921 module
0-10VDC
analogue output
S0:
AR2950 module
RS422/485
serial port
System
3:
Three-phase,
unbalanced load with
or without neutral
[1] Un: -20+15%
[2] Un: -30+15%
[3] Un: -20+20%
Specifications are subject to change without notice
R:
None
AO2900 module
Dual open collector output
Three operating modes:
• two pulse outputs
(kWh and kvarh);
• one alarm output
and one pulse
output (kWh or kvarh)
• one output which is
remotely controlled
by a serial port
and one pulse
output (kWh or kvarh)
AO2910 module.
One relay output + one
open collector output.
Operation modes like
module AO2900.
[4] Un: -10 +15%
WM22-DINDS1003
1
WM22-DIN
Input specifications
Number of inputs
Current
Voltage
Accuracy (display, RS485)
Current
Voltage
Frequency
Active power
(@ 25°C ± 5°C, R.H. ≤ 90%)
Reactive power
(@ 25°C ± 5°C, R.H. ≤ 90%)
Apparent power
(@ 25°C ± 5°C, R.H. ≤ 90%)
Energies
(@ 25°C ± 5°C, R.H. ≤ 90%)
Harmonic distortion
(@ 25°C ± 5°C, R.H. ≤ 90%)
Ib 5A
Ib 20A
Additional errors
Wave form
Voltage asymmetry
Magnetic induction
HF Electromagnetic fields
Operation of accessories
Temperature drift
Sampling rate
Display
Type
Instantan. variables read-out
Energies
3
4
Ib: 5A, Imax: 10A
Ib: 20A, Imax:90A
Un: see previous page
“Range code”
from 0.003Ib to 0.2Ib:
±(0.5%RDG +3DGT)
from 0.2Ib to Imax:
±(0.5%RDG +1DGT)
in the range Un:
±(0,5% RDG + 1DGT)
±0.1% RDG (50 to 60 Hz)
±(1% RDG +1DGT). PF 1,
0.1Ib to Imax, in the Un range;
PF 0.5L, PF 0.8C, 0.2Ib to
Imax, in the Un range
±(2% RDG +1DGT). sinϕ 1,
0.05Ib to Imax, in the Un range;
sinϕ 0.5L, sinϕ 0.5C,
0.1Ib to Imax, in the Un range
±(1% RDG +1DGT). PF 1,
0.1Ib to Imax, in the Un range
Class 1 acc. to EN61036
Class 2 acc. to EN61268
Ib: 5A, Imax: 10A
0.1Ib: 500mA,
Start up corrent: 20mA
Un: see table “range code”
Ib: 20A, Imax: 90A
0.1Ib: 2A,
Start up current: 80mA
Un: see table “range code”
±3% f.s. (f.s.: 100%)
up to the 7th harmonic;
Un: see table “range code”
Imin: 500mA;
Imax: 15Ap;
Imin: 2A;
Imax: 127Ap;
Max. and Min. indication
Measurements
Coupling type
Crest factor
Ib 5A
Ib 20A
Current overload
5(10) A, for 10ms
5(10) A, for 500ms
5(10) A, permanent
20(90) A, for 10ms
20(90) A, permanent
Voltage overload
Permanent
For 1s
Input impedance
400VL-L (AV1-AV5-AV9)
208VL-L (AV0-AV4-AV8-AV2)
660VL-L (AV3-AV7)
100VL-L (AV6)
5(10) A (AV4-AV5-AV6-AV7)
20(90) A (AV0-AV1-AV3-AV8-AV9)
20(90) A (AV2)
Frequency
Acc. to EN61036, EN61268
<1% (3rd harmonic: 10%)
< 0.5% (referred to Un)
0 (up to 0.5 mT)
< 1%
0
≤ 200ppm/°C
1000 samplings/s @ 50Hz
Back-lighted LCD
4x31/2 DGT
Total:1x71/2 DGT
Partial: 1x71/2 DGT
Max. 1999 (19999999), Min. 0
Current, voltage, power,
energy, power factor, frequency, harmonic distortion (see
display specs). TRMS
measurements of distorted
wave forms.
Direct
≤3 (15A max. peak)
≤6 (127A max. peak)
300 A max, @ 50Hz
200 A max, @ 50Hz
10A, @ 50Hz
2700A max, @ 50Hz
90A, @ 50Hz
1.2 Un
2 Un
> 720KΩ
> 720KΩ
> 1.97MΩ
> 400KΩ
< 0.3VA
< 4VA
< 4VA
50 to 60 Hz
Interface module specifications
Analogue outputs (on request)
Number of outputs
Range
Accuracy
Temperature drift
Scaling factor
2
1
0 to 20 mADC
(AO2920 module slot B,
only for versions with
auxiliary power supply)
0 to 10VDC
(AO2921 module slot B,
only for versions with
auxiliary power supply)
±0.5% F.S.
≤ 300 ppm/ °C
Programmable within the
whole range of
retransmission;
it allows the retransmission
of all the values included in
the following ranges:
0 and 20mADC, 0 and 10VDC
Response time
System variables
FFT off, filter off
FFT on, filter on
variables
Filter off
Ripple
Load
20 mADC
10 VDC
Insulation
V, W, VA, var, PF (cosϕ)
900ms
1.4s
THD-V, THD-A
3s
≤ 1% according to IEC 60688-1,
EN 60688-1
≤ 500 Ω
≥ 10 kΩ
By means of optocouplers,
2000 VRMS between output
and measuring input
Specifications are subject to change without notice
WM22-DINDS1003
WM22-DIN
Interface module specifications (cont.)
RS422/RS485 (on request)
Type
Connections
Addresses
Protocol
Data (bidirectional)
Dynamic (reading only)
Static (writing only )
Data format
Baud-rate
Insulation
Digital outputs (on request)
AO2900 module
Pulse outputs
Number of outputs
Number of pulses
Output type
Pulse duration
2000 VRMS between output
and power supply input
AR2950 module
Multidrop
bidirectional (static and
and dynamic variables)
2 or 4 wires, max. distance
1200m, termination directly
on the module
255, selectable by key-pad
MODBUS/JBUS
Insulation
Alarm output
Number of outputs
Alarm type
Phase and system variables:
see table “Display pages”
All the programming data,
reset of energy, activation of
static output.
Stored energy (EEPROM)
max. 19.999.999 kWh/kvarh
1 start bit, 8 data bit,
no parity, 1 stop bit
9600 bit/s
By means of optocouplers,
2000 VRMS output
to measuring inputs
2000 VRMS output to
supply input
Setpoint adjustment
Hysteresis
On-time delay
Response time
system variables
FFT off, filter off
FFT on, filter on
variables
Filter off
Output type
Insulation
To be used as alarm, energy
retransmission, or remote
static outputs.
Three working modes are
selectable:
• two pulse outputs
(kWh and kvarh);
• one alarm output and
one pulse output
(kWh or kvarh)
• one output remotely controlled by means of the
serial port and one pulse
output (kWh or kvarh)
AO2910 module
2
From 0.01 to 100 pulses
programmable according
to the selected CT and VT
ratios
Open collector (transistor NPN)
VON 1.2 VDC / max. 100 mA
VOFF 30 VDC max.
220 ms (ON), ≥ 220 ms (OFF)
Specifications are subject to change without notice
WM22-DINDS1003
Pulse output
Alarm output
Output type
Insulation
According to DIN43864
By means of optocouplers,
2000 VRMS outputs to
measuring inputs,
2000 VRMS output to
supply input.
Insulation between the two
outputs: functional
1
Up alarm, down alarm
phase asymmetry, phase
loss.
0 to 100% of the electrical
scale
0 to 100% of the electrical
scale
0 to 255 seconds
V, W, VA, var, PF (cosϕ)
700ms
1.2s
THD-V, THD-A
3s
Open collector (transistor NPN)
VON 1.2 VDC / max. 100 mA
VOFF 30 VDC max.
By means of optocouplers,
2000 VRMS output to
measuring input,
2000 VRMS output to
supply input.
Insulation between the two
outputs: functional
Relay + open collector
output. Working mode like
AO2900.
One static output+one relay
output, other characteristics
like AO2900.
Only relay output, other
characteristics like AO2900.
Static type like module
AO2900;
Relay type: SPDT,
AC1, AC15: 1AAC @250VAC
By means of optocouplers,
2000 VRMS outputs to
measuring inputs,
2000 VRMS output to
supply input.
Insulation between the two
outputs: 2000 VRMS
3
WM22-DIN
Software functions
Password
1st level
2nd level
System selection
Transformer ratio
CT
VT
Scaling factor
Operating mode
Numeric code of max.
3 digits
2 protection levels of the
programming data
Password “0”, no protection
Password from 1 to 1000,
all data are protected
Three-phase with neutral
Three-phase without neutral
1 to 5000
1.0 to 199.9 and 200 to 1999
Note:
The CT ratio* VT ratio must
never exceed the value
5000. The current
measuring inputs can
manage CT’s with a
secondary of 1A and 5A
(the accuracy always refer
to 5A)
Electrical range
Filter
Filter operating range
Filter coefficient
Filter action
Display
System variables
Single phase variables
System variables
Single phase variables
20(90) A
5(10) A
Compression/expansion of
the measuring range to be
connected to the analogue
output.
Programmable within the
whole measuring range.
0 to 99.9% of the input
electrical scale.
1 to 16
Alarm, analogue and serial
output (fundamental
variables: V, A, W and their
derived ones).
Up to 4 variables per page
Page 1: W-var-PF (cosϕ)
Page 2: W dmd - VA dmd - Hz
Page 3: THD-V
Page 4: THD-A
Page 5: kWh total
Page 6: kvarh total
Page 7: kWh partial
Page 8: kvarh partial
Page 9: VL-N
Page 10: A
Page 11a: A MAX
Page 11b: W dmd MAX VA dmd MAX
Page 12: W
Page 13: VA
Page 14: var
Page 15: PF (cosϕ)
Supply specifications
Self supplied version
Auxiliary power supply
400VL-L
-20% +15%, 50-60Hz
208VL-L
-20% +15% , 50-60Hz
220VL-L
-10% +15% , 50-60Hz
230VAC
-15 +10%, 50-60Hz
Energy consumption
115VAC
-15 +10%, 50-60Hz
48VAC
-15 +10%, 50-60Hz
24VAC
-15 +10%, 50-60Hz
18 to 60VDC
77 to 143VDC
≤ 7VA
General Specifications
Operating
temperature
Storage
temperature
Installation category
Insulation
Dielectric strength
Noise rejection
CMRR
EMC
Burst
Immunity to irradiated
electromagnetic fields
Electrostatic discharges
Radio frequency emissions
4
0 to +55°C
(R.H. < 90% non-condensing
40°C)
Pulse voltage (1.2/50µs)
Standards
Safety
Metrology
8kV (EN61000-4-5)
IEC664-1
Energy measurements:
EN61036, EN61268.
(R.H. < 90% non-condensing
40°C)
Pulse output
DIN43864
Cat. III (IEC 664)
Approvals
CE
2000 VRMS between all inputs / Connections 5(10) A
Screw-type,
outputs to earth
Cable cross-section area
4 mm2
4000 VRMS for 1 minute
Connections 20(90) A
Screw-type,
Min./Max. cable cross-section area 6 mm2 / 35 mm2
Min./Max. screws tightening torque 2 Nm / 6 Nm
100 dB, 48 to 62 Hz
Housing
Dimensions
162.5 x 90 x 63 mm
4kV/level 4 (EN61000-4-4)
Material
ABS, NORYL, PC
self-extinguishing: UL 94 V-0
10V/m 26-1000MHz
Mounting
DIN-rail and wall
(EN61000-4-3)
Degree of protection
Front: IP40
15kV (EN61000-4-2)
Connections: IP20
according to CISPR 14
Weight
800 g approx.
and CISPR 22
(packing included)
-20 to +60°C
Specifications are subject to change without notice
WM22-DINDS1003
WM22-DIN
Function description
Input and output scaling capability
Working examples of the analogue output (Y) versus the input variable (x) - (input/output scaling possibilities).
Figure A
The sign of measured quantity
and output quantity remains
the same. The output quantity
is proportional to the measured quantity.
Figure B
The sign of measured quantity
and output quantity remains
the same. With the measured
quantity being zero, the output
quantity already has the value
Y1 = 0.2 Y2.
Live zero output.
0
50 A
100 A
0
10 mA
20 mA
80 V
100 V
120 V
0
5 mA
10 mA
0
50 A
100 A
4
12 mA
20 mA
Figure C
The sign of measured quantity
and output quantity remains
the same. On the range
X0...X1, the output quantity is
zero. The range X1...X2 is delineated on the entire output
range Y0=Y1...Y2 and thus
presented in strongly expanded form.
Mode of Operation
Waveform of the signals that can be measured
Figure D
Sine wave, undistorted
Fundamental content
100%
Harmonic content
0%
Arms =
1.1107 | A |
Figure E
Sine wave, indented
Fundamental content
10...100%
Harmonic contents
0...90%
Frequency spectrum: 3rd to the 16th harmonic
Additional error: <1% rdg
Figure F
Sine wave, distorted
Fundamental content
70...90%
Harmonic content
10...30%
Frequency spectrum: 3rd to the 16th harmonic
Additional error: <0.5% rdg
Harmonic distortion analysis
THD (AL2), THD (AL3)
Anaysis principle
FFT
Harmonic measurement
Current
Voltage
Up to the 7th harmonic
Up to the 7th harmonic
Type of harmonics
Read-out
THD %
System
The harmonic distortion
can be measured in 3-wire
or 4-wire systems.
THD (VL1), THD (VL2),
THD (VL3), THD (AL1)
Specifications are subject to change without notice
WM22-DINDS1003
5
WM22-DIN
Display pages
Variables that can be displayed
1st variable
2nd variable
No
1
W sys
PF sys
W dmd
Hz
2
3
4
5
6
7
8
9
10
11a
11b
12
13
14
15
VL1 THD
AL1 THD
kWh
kvarh
kWh
kvarh
VL1
AL1
W dmd MAX
AL1 MAX
WL1
VAL1
VarL1
PFL1
3rd variable
Var sys
VA dmd
4th variable
VL2 THD
AL2 THD
VL3 THD
AL3 THD
VL2
AL2
VA dmd MAX
AL2 MAX
WL2
VAL2
VarL2
PFL2
VL-3
AL3
VL-L sys
Err
AL3 MAX
WL3
VAL3
VarL3
PFL3
W sys
VA sys
Var sys
PF sys
Notes
sys = system
dmd = demand
(integration time from 1 to 30 minutes)
THD = tot. harmonic distortion
THD = tot. harmonic distortion
total energy
total energy
partial energy
partial energy
sys = system
Err = in case of negative power
Only version 1-5A, dmd = demand
Only version 90A
sys = system
The system value remains always 0
if the neutral is not connected
Used calculation formulas
Phase variables
Instantaneous effective voltage
System variables
Equivalent system voltage
Instantaneous active power
System reactive power
Note:
i = phase (L1, L2 or L3)
T = variable (V or I)
n = harmonic order
Consumption recording
Instantaneous power factor
(TPF)
System active power
Instantaneous effective current
System apparent power
Instantaneous apparent power
System power factor
(TPF)
Instantaneous reactive power
Total harmonic distortion
Note:
i = phase (L1, L2 or L3)
P = active power
Q = reactive power
t1, t2 = starting and ending time points of consumption
recording
n = time unit
∆t = time interval of consumption recording
n1, n2 = starting and ending discrete time points of consumption
recording
List of the of the variables that can be connected to the analogue and alarm output
N°
1
2
3
4
5
6
Variable
V sys
W sys
var sys
VA sys
PF sys
Notes
sys = system
sys = system
sys = system
sys = system
sys = system
N°
6
7
8
9
10
Variable
THD-V
THD-A
VA dmd
W dmd
ASY
Notes
Max. THD value among the three phases
Max. THD value among the three phases
Power demand in the selected
integration time
Phase asymmetry
Specifications are subject to change without notice
WM22-DINDS1003
WM22-DIN
Available models
Type
WM22-DIN AV9.3.X.
WM22-DIN AV8.3.X.
WM22-DIN AV2.3.D.
WM22-DIN AV1.3.D.
WM22-DIN AV0.3.D.
WM22-DIN AV3.3.D.
WM22-DIN AV1.3.C.
WM22-DIN AV0.3.C.
WM22-DIN AV3.3.C.
WM22-DIN AV1.3.B.
WM22-DIN AV0.3.B.
WM22-DIN AV3.3.B.
WM22-DIN AV1.3.A.
WM22-DIN AV0.3.A.
WM22-DIN AV3.3.A.
WM22-DIN AV5.3.D.
WM22-DIN AV4.3.D.
WM22-DIN AV7.3.D.
WM22-DIN AV5.3.C.
WM22-DIN AV4.3.C.
WM22-DIN AV7.3.C.
WM22-DIN AV5.3.B.
WM22-DIN AV4.3.B.
WM22-DIN AV7.3.B.
WM22-DIN AV5.3.A.
WM22-DIN AV4.3.A.
WM22-DIN AV7.3.A.
WM22-DIN AV6.3.D.
WM22-DIN AV6.3.C.
WM22-DIN AV6.3.B.
WM22-DIN AV6.3.A.
WM22-DIN AV1.3.4 / [5]
WM22-DIN AV0.3.4 / [5]
WM22-DIN AV3.3.4 / [5]
WM22-DIN AV5.3.4 / [5]
WM22-DIN AV4.3.4 / [5]
WM22-DIN AV7.3.4 / [5]
WM22-DIN AV6.3.4 / [5]
Inputs
400VL-L, 20(90)A
208VL-L, 20(90)A
220VL-L, 20(90)A
400VL-L, 20(90)A
208VL-L, 20(90)A
660VL-L, 20(90)A
400VL-L, 20(90)A
208VL-L, 20(90)A
660VL-L, 20(90)A
400VL-L, 20(90)A
208VL-L, 20(90)A
660VL-L, 20(90)A
400VL-L, 20(90)A
208VL-L, 20(90)A
660VL-L, 20(90)A
400VL-L, 5(10)A
208VL-L, 5(10)A
660VL-L, 5(10)A
400VL-L, 5(10)A
208VL-L, 5(10)A
660VL-L, 5(10)A
400VL-L, 5(10)A
208VL-L, 5(10)A
660VL-L, 5(10)A
400VL-L, 5(10)A
208VL-L, 5(10)A
660VL-L, 5(10)A
100VL-L, 5(10)A
100VL-L, 5(10)A
100VL-L, 5(10)A
100VL-L, 5(10)A
400VL-L, 20(90)A
208VL-L, 20(90)A
660VL-L, 20(90)A
400VL-L, 5(10)A
208VL-L, 5(10)A
660VL-L, 5(10)A
100VL-L, 5(10)A
Power supply
Self power supply
Self power-supply
Self power-supply
230VAC, 50-60Hz
230VAC, 50-60Hz
230VAC, 50-60Hz
115VAC, 50-60Hz
115VAC, 50-60Hz
115VAC, 50-60Hz
48VAC, 50-60Hz
48VAC, 50-60Hz
48VAC, 50-60Hz
24VAC, 50-60Hz
24VAC, 50-60Hz
24VAC, 50-60Hz
230VAC, 50-60Hz
230VAC, 50-60Hz
230VAC, 50-60Hz
115VAC, 50-60Hz
115VAC, 50-60Hz
115VAC, 50-60Hz
48VAC, 50-60Hz
48VAC, 50-60Hz
48VAC, 50-60Hz
24VAC, 50-60Hz
24VAC, 50-60Hz
24VAC, 50-60Hz
230VAC, 50-60Hz
115VAC, 50-60Hz
48VAC, 50-60Hz
24VAC, 50-60Hz
18-60VDC [77-143VDC]
18-60VDC [77-143VDC]
18-60VDC [77-143VDC]
18-60VDC [77-143VDC]
18-60VDC [77-143VDC]
18-60VDC [77-143VDC]
18-60VDC [77-143VDC]
Ordering code
AF2100
AF2101
AF2144
AF2102
AF2103
AF2104
AF2105
AF2106
AF2107
AF2108
AF2109
AF2110
AF2111
AF2112
AF2113
AF2114
AF2115
AF2116
AF2117
AF2118
AF2119
AF2120
AF2121
AF2122
AF2123
AF2124
AF2125
AF2126
AF2127
AF2128
AF2129
AF2130 [AF2137]
AF2131 [AF2138]
AF2132 [AF2139]
AF2133 [AF2140]
AF2134 [AF2141]
AF2135 [AF2142]
AF2136 [AF2143]
Available modules
Type
Open collector output
0-20mADC analogue output
Relay + open c. output
Channels
2
1
2
Code
AO2900
AO2920
AO2910
Type
0-10VDC Analogue Output
RS485 Serial Output
Channels
1
1
Code
AO2921
AR2950
Possible module combinations
Power supply
Basic unit
Open collector output
Relay + open c. output
Auxiliary p.s.
Self p.s.
Slot A Slot B Slot A Slot B
Specifications are subject to change without notice
Power supply
Basic unit
Analogue output
RS485 Serial Output
(*) AV2 only
WM22-DINDS1003
Auxiliary p.s.
Self p.s.
Slot A Slot B Slot A Slot B
(*)
(*)
7
WM22-DIN
Wiring diagrams
20(90)A model: three-phase unbalanced load
Fig. 1
Auxiliary power supply
Self-power supply
Fig. 3
20(90)A model:
three-phase unbalanced load
Direct connection (3-phase system)
LOAD
LOAD
Direct connection (3-phase system+N)
Self-power supply
Fig. 2
AC power supply
LOAD
AC power supply
Direct connection (3-phase system)
5(10)A model:
three-phase unbalanced load
Fig. 4
Auxiliary power supply
Fig. 5
Direct connection (3-phase system + N)
Auxiliary power supply
Fig. 6
AC power supply
LOAD
LOAD
AC power supply
Direct connection (3-phase system
with or without neutral)
LOAD
Auxiliary power supply
CT connection (3-phase system+N)
5(10)A model: three-phase unbalanced load
Fig. 8
LOAD
Auxiliary power supply
Fig. 9
AC power supply
AC power supply
CT ARON connection (3-phase system)
8
Auxiliary power supply
VT and CT ARON connection (3-phase system)
LOAD
Fig. 7
AC power supply
LOAD
Auxiliary power supply
VT and CT connection (3-phase system + N)
Specifications are subject to change without notice
WM22-DINDS1003
WM22-DIN
Wiring diagrams (optional modules)
Open collector output
Fig.10
Relay + open collector output Fig. 11
VDC max 30V
Only open collector outputs: the grounds of the outputs are separated, and therefore it’s possible to carry out, for the same
module, two different connections. The load resistance (Rc) must be designed so that the closed contact current is lower than
100mA; the VDC voltage must be lower than or equal to 30V. VDC: power supply voltage output. Vo+: positive output contact
(open collector transistor). GND: ground output contact (open collector transistor).
Analogue output
Fig. 12
Current and voltage
RS485 Serial output
4-wire connection
Fig. 13
RS485 Serial output
Fig. 14
2-wire connection
Front panel description
4
3
2
1
Keys for:
- value programming;
- function selection;
- displaying the measuring pages.
2. Display
LCD with alphanumeric indications to:
- display configuration parameters;
- display all the measured variables.
3. Removable label
Label to write the instrument ID number.
1. Key-pad
To program configuration parameters and to display variables.
4. Hidden dip-switch
Enable/ disable the access to the
programming procedure.
S-key to enter programming and confirm selections;
Specifications are subject to change without notice
WM22-DINDS1003
9
WM22-DIN
Dimensions and panel cut-out
Terminal boards
10
Analogue output module
Dual output
open collector module
Relay output module +
open collector output
RS485
serial output module
AO 2920: 0-20 mA
AO 2921: 0-10 V
AO 2900
AO 2910
AR 2950
Specifications are subject to change without notice
WM22-DINDS1003