ELMARK elmatic ED2000 User manual
2
Elmark Automatyka S.A.
NIP: 5252072585; KRS: 0000803828, Sąd Rejonowy dla M-St. Warszawy, XIV Wydział Gosp. KRS; Kapitał Zakładowy 525.000 zł, w pełni opłacony
•Thank you very much for your buying ED2000 series High performance Vector Control Inverter.
•Before use, please read this manual thoroughly to ensure proper usage. Keep this manual at an easily accessible place so
that can refer anytime as necessary.
Safety Precautions
WARNING
Indicates a potentially dangerous situation which, if cannot avoid will result in
death or serious injury.
CAUTION
Indicates a potentially dangerous situation which, if cannot avoid will cause
minor or moderate injury and damage the device. This Symbol is also used for
warning any un-safety operation.
In some cases, even the contents of "CAUTION" still can cause serious
accident. Please follow these important precautions in any situation.
In some cases, even the contents of "CAUTION" still can cause serious accident. Please follow these important precautions in any
situation.
In some cases, even the contents of "CAUTION" still can cause serious accident. Please follow these important precautions in any
situation.
★ NOTE indicate the necessary operation to ensure the device run property.
Warning Marks are placed on the front cover of the inverter. Please follow these indications when using the inverter.
•May cause injury or electric shock.
•
Please follow the instructions in the manual before installation or operation.
•
Disconnect all power line before opening front cover of unit. Walt at least 10
minutes until DC Bus capacitors discharge.
•
Use proper grounding techniques.
•
Never connect AC power to output UVW terminals.
WARNING
3
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Contens
Safety Precautions
....................................................................................................................................................................... 2
Chapter 1 Introduction.............................................................................................................................................................. 5
1.1 Technology Features .......................................................................................................................................................... 5
1.2 Description of Name Plate ................................................................................................................................................. 7
1.3 Selection Guide .................................................................................................................................................................. 7
Chapter 2 Installation and wiring ............................................................................................................................................... 9
2.1 Environment and installation requirements ............................................................................................................................ 9
2.2 The opening size of the keyboard........................................................................................................................................... 12
2.3 The Inverter Wiring................................................................................................................................................................. 12
2.3.1 The inverter wiring of the main part........................................................................................................................................ 13
2.3.2 the descriptions of peripheral devices ............................................................................................................................. 13
2.3.3 Precautions main circuit wiring........................................................................................................................................ 14
2.3.5 Main circuit terminals and description ............................................................................................................................ 15
2.4 Control Terminals............................................................................................................................................................. 17
2.4.1 Control Terminal Description............................................................................................................................................ 18
Chapter 3 Operation................................................................................................................................................................. 19
3.1 Digital Operator Description ............................................................................................................................................ 19
3.1.1 the picture of the panel.................................................................................................................................................... 19
3.2 the descriptions of the key's function.............................................................................................................................. 20
3.2.1 Indicator light descriptions............................................................................................................................................... 20
3.3 Operational process ......................................................................................................................................................... 20
3.3.1 Parameter Settings........................................................................................................................................................... 20
3.3.2 Fault reset......................................................................................................................................................................... 21
3.3.3 Motor parameter selflearning......................................................................................................................................... 21
3.4 Running state ................................................................................................................................................................... 22
3.4.1 Poweron initialization...................................................................................................................................................... 22
3.4.2 Standby status.................................................................................................................................................................. 22
3.4.3 Motor parameters selflearning ....................................................................................................................................... 22
3.4.4 Running ............................................................................................................................................................................ 22
3.4.5 Failure............................................................................................................................................................................... 22
3.5 Quick commissioning ....................................................................................................................................................... 23
Chapter4 Detailed Function Description................................................................................................................................... 24
Group P0: Basic Parameters ......................................................................................................................................................... 24
Group P1:Start/Stop Control ........................................................................................................................................................ 31
Group P2: Motor Parameters....................................................................................................................................................... 35
Group P3: Vector Control Parameters.......................................................................................................................................... 36
Group P4: V/F Control Parameters............................................................................................................................................... 38
Group P5: Input Terminals ........................................................................................................................................................... 42
Group P6: Output Terminals......................................................................................................................................................... 50
Group P7: Operation Panel and Display ....................................................................................................................................... 53
Group P8: Auxiliary Functions ...................................................................................................................................................... 56
Group P9: Fault and Protection.................................................................................................................................................... 64
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Group PA: Process Control PID Function...................................................................................................................................... 69
Group Pb: Swing Frequency, Fixed Length and Count.................................................................................................................. 74
Group PC: Multi-Reference and Simple PLC Function.................................................................................................................. 76
Group PD: Communication Parameters ....................................................................................................................................... 79
Group PP: User-Defined Function Codes...................................................................................................................................... 80
Group C0: Torque Control and Restricting Parameters................................................................................................................ 80
Group C5: Control Optimization Parameters ............................................................................................................................... 81
Group C6: Fl Curve Setting(FI is FIV or FIC)................................................................................................................................... 82
Group CC: FI/FO Correction.......................................................................................................................................................... 84
Group D0: Monitoring Parameters............................................................................................................................................... 84
Chapter 5 Fault checking and ruled out .................................................................................................................................... 86
5.1 Fault alarm and countermeasures ................................................................................................................................... 86
5.2 Common Faults and Solutions.......................................................................................................................................... 89
Chapter 6 Maintenance............................................................................................................................................................ 91
6.1 Inspection......................................................................................................................................................................... 91
6.2 Periodic Maintenance ...................................................................................................................................................... 91
6.3 Replacement of wearing parts ......................................................................................................................................... 92
6.4 Inverter Warranty ............................................................................................................................................................ 92
Chapter 7 Peripheral Devices Selection .................................................................................................................................... 93
7.1 Peripheral Devices Description ........................................................................................................................................ 93
7.2 Applied Braking resistor Specification.............................................................................................................................. 93
Appendix A............................................................................................................................................................................... 95
List of Function Parameters....................................................................................................................................................... 95
Standard Function Parameters..................................................................................................................................................... 95
Group D0: Monitoring Parameters............................................................................................................................................. 124
Appendix B Communication Protocol..................................................................................................................................... 126
1. The agreement content...................................................................................................................................................... 126
2. Application methods .......................................................................................................................................................... 126
3. Bus structure ...................................................................................................................................................................... 126
4. Protocol Description........................................................................................................................................................... 126
5. Communications data structure......................................................................................................................................... 126
5
Elmark Automatyka S.A.
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Chapter 1 Introduction
1.1 Technology Features
Item
ED2000
Standard functions
Control mode
Sensor less flux vector control (SFVC) Voltage/Frequency (V/F) control
Maximum frequency
Vector control: 0-320 Hz V/F control: 0-3200Hz
Carrier frequency
1-16 kHz
The carrier frequency is automatically adjusted based on the load features.
Input frequency
solution
Digital setting: 0.01 Hz
Analog setting: maximum frequency x 0.025%
Startup torque
G type: 0.5 Hz/150% (SFVC)
P type: 0.5 Hz/100%
Speed range
±1:100 (SFVC)
Speed stability
accuracy
0.5% (SFVC)
Overload capacity
G type: 60s for 150% of the rated current, 3s for 180% of the rated current.
P type: 60s for 120% of the rated current, 3s for 150% of the rated current.
Torque boost
Fixed boost
Customized boost 0.1%-30.0%
V/F curve
Straight-line V/F curve
Multi-point V/F curve
N-power V/F curve (1.2-power, 1.4-power,
1.6-power,1.8-power, square)
V/F separation
Two types: complete separation; half separation
Ramp mode
Straight-line
S-curve ramp
Four groups of acceleration/deceleration time with the range of 0.0-6500.0s
DC braking
DC braking frequency: 0.00 Hz to maximum frequency Braking time: 0.0-1DO.Os
Braking action current value: 0.0%--100.0%
JOG control
JOG frequency range: 0.00-50.00 Hz
JOG acceleration/deceleration time: 0.0-6500.00s
Standard functions
Onboard multiple
preset speeds
It implements up to 16 speeds via the simple PLC function or combination of X
terminal states
Onboard PID
It realizes process-controlled closed loop control system easily.
Auto voltage
regulation {AVR)
It can keep constant output voltage automatically when the mains voltage changes.
Overvoltage/
Overcurrent stall
control
The current and voltage are limited automatically during the running process so as to
avoid frequent tripping due to overvoltage/overcurrent.
Torque limit and
control
It can limit the torque automatically and prevent frequent
over current tripping during the running process.
6
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Item
ED2000
Standard functions
Instantaneous stop
doesn't stop
The load feedback energy compensates the voltage reduction so that the AC drive
can continue to run
for a short time.
Rapid current limit
It helps to avoid frequent over current faults of the AC drive.
High performance
Control of asynchronous motor is implemented through the high-performance
current vector control technology.
Timing control
Time range: 0.0-8500.0 minutes
Communication
methods
RS485
Running
command channel
Given by the panel, control terminals,
Serial communication port, can be switched by many
ways
Frequency source
10 kinds of frequency source, given by
Digital analog voltage, analog current, Pulse, serial port. can be switched by many
ways
Auxiliary frequency
source
10 kinds of Frequency source, can easily realize Micro adjustment, frequency
Synthesizer
Inputs and output
Input terminals
6 digital Input terminals, one of which supports up to
100 kHz high-11peed pulse input (optional).
2 analog input terminal, one of which only supports 0-10V voltage input and the
other supports 0-10 V
voltage input or 4-20 mA current input.
Output terminal
1 digital output terminal
1 relay output terminal
1 analog output terminal: that supports 0-20mA current output or 0-10 V voltage
output
Operation on the
operation panel
LED display
It displays the parameters.
Key locking and
function selection
It can lock the keys partially or completely end define the function range of some
keys so as to prevent mi&-function.
Protection mode
Motor short-circuit detection at power-on, output phase loss protection, over-
current protection, over-voltage protection, under voltage protection, overheat
protection and overload protection.
Environment
Installation location
Indoor, avoid direct sunlight, dust, corrosive gas, combustible gas, oil smoke, vapor,
drip or salt.
Altitude
Lower than 1000m (Lower the grades when using higher then 1000m)
Ambient
temperature
-10⁰C ~ 40⁰C (Lower the grades if the ambient
temperature is between 40⁰C end 50⁰C)
Humidity
Less than 95%RH, without condensing
Vibration
Less than 5.9 m/s2 (0.6 g)
Storage
temperature
-20⁰C ~ 60⁰C
7
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1.2 Description of Name Plate
1.3 Selection Guide
1.
3PH AC380V±15%/1PH AC220V±15%
Model
Rated Output Power(KW)
Rated Input current (A)
Rated Output Current (A)
Motor Power
(kW}
1PH AC 220V-15%~15%
ED2200-0R4G
0.4
5.4
2.5
0.4
ED2200-0R75G
0.75
7.2
5
0.75
ED2200-1R5G
1.5
10
7
1.5
ED2200-2R2G
2.2
16
11
2.2
ED2200-3R7G
3.7
17
16.5
3.7
3PH AC380V±15%
ED2400-0R4G
0.4
3.4
1.2
0.4
ED2400-0R75G
0.75
3.8
2.5
0.75
ED2400-1R5G
1.5
5
3.7
1.5
ED2400-2R2G
2.2
5.8
5
2.2
ED2400-3R7G/5R5P
3.7/5.5
10/15
9/13
3.7/5.5
ED2400-5R5G
5.5
15
13
5.5
ED2400-7R5P
7.5
20
17
7.5
ED2400-7R5G/11P
7.5/11
20/26
17/25
7.5/11
ED2400-11G/15P
11/15
26/35
25/32
11/15
ED2400-15G/18.5P
15/18.5
35/38
32/37
15/18.5
ED2400-18.5G/22P
18.5/22
38/46
37/45
18.5/22
8
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Model
Rated Output
Power(KW)
Rated Input current (A)
Rated
Output
Current (A)
Motor Power
(kW)
ED2400-22G/30P
22/30
46/62
45/60
22/30
ED2400-30G/37P
30/37
62/76
60/75
30/37
ED2400-37G/45P
37/45
76/90
75/90
37/45
ED2400-45G/55P
45/55
90/105
90/110
45/55
ED2400-55G
55
105
110
55
ED2400-75P
75
140
150
75
ED2400-75G/90P
75/90
140/160
150/176
75/90
ED2400-90G/110P
90/110
160/210
176/210
90/110
ED2400-110G/132P
110/132
210/240
210/253
110/132
ED2400-132G/160P
132/160
240/290
253/300
132/160
ED2400-160G/185P
160/185
290/330
300/340
160/185
ED2400-185G/200P
185/200
330/370
340/380
185/200
ED2400-200G/220P
200/220
370/410
380/420
200/220
ED2400-220G/250P
220/250
410/460
420/470
220/250
ED2400-250G/280P
250/280
460/500
470/520
250/280
ED2400-280G/315P
280/315
500/580
520/600
280/315
ED2400-315G/350P
315/350
580/620
600/640
315/350
ED2400-350G/400P
350/400
620/670
640/690
350/400
ED2400-400G/450P
400/450
670/790
690/790
400/450
ED2400-450G/500P
450/500
790/835
790/860
450/500
9
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Chapter 2 Installation and wiring
2.1 Environment and installation requirements
Inverter's installation environment on the service life of inverter, and has direct influence on the normal function, Inverter can't
satisfy the specification of environment , protection or fault could lead to the Inverter.
ED2000 series inverter of wall hung inverter, please use the vertical installation so that the air convection and the heat dissipation
effect can be better.
Inverter's installation environment, please make sure must comply with
(01) -10°C to +40°C ambient temperature
(02) Environment humidity 0 - 95% and no condensation
(03) Avoid direct sunlight
(04) Environment does not contain corrosive gas and liquid
(05) Environment without dust, floating fiber, cotton and metal particles
(06) Away from the radioactive material and fuel
(07) Away from electromagnetic interference source (such as electric welding machine, big power machine)
(08) Installed planar solid, no vibration, if ii cannot avoid vibration,
please add antivibration pads to reduce the vibration
(09) Please install the inverter in the well ventilated place, easy to check and maintain, and install on the solid non-combustible
material, away from the heating element (such as braking resistance, etc.)
(10) Inverter installation please reserve enough space, especially many inverters' installation, please pay attention to the
placement of the frequency Inverter, and configure cooling fans, make the environment temperature lower than 45°C.
(11) Inverter can output the rated power when installed with altitude of lower than 1000m. It will be derated when the altitude
is higher than 1000m.
(1) single inverter installation
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(2) Multiple inverters installed in one control cabinet.
Please pay attention:
①when encasing the multiple inverters, install them in parallel as a cooling measure.
②If multiple inverters are installed in one control cabinet, please leave enough clearances and take cooling measure.
the inverter's outside shape and the installation dimensions
(1)0.4 -22kW
11
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(2)30-160kW
(3)185--450kW
Model
Outline dimension (mm)
Installation size (mm)
W
H
H1
D
A
B
Φd
ED2200-0R4G
72
142
-
152
62.7
132.7
5
ED2200-0R75G
ED2200-1R5G
ED2200-2R2G
100
163
-
143
90
173
5
ED2200-3R7G
ED2400-0R4G
72
142
-
152
62.7
132.7
5
ED2400-0R75G
ED2400-1R5G
ED2400-2R2G
ED2400 R7G/5R5P
100
163
-
143
90
173
5
ED2400-5R5G
ED2400-7R5P
130
260
-
184
120
250
5
ED2400-7R5G/11P
ED2400-11G/15P
ED2400-15G/18.5P
195
280
-
179
182.5
266
7
ED2400-18.5G/22P
ED2400-22G/30P
ED2400-30G/37P
245
390
425
193
180
410
7
ED2400-37G/45P
ED2400-45G5/5P
300
500
540
252
200
522
9
ED2400-55G
ED2400-75P
ED2400-75G/90P
338
546
576
256.5
270
560
9
12
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Model
Outline dimension(mm)
Installation size(mm)
W
H
H1
D
A
B
Φd
ED2400-90G/110P
338
550
580
300
270
564
9
ED2400-110G/132P
ED2400-132G/160P
400
675
715
310
320
695
11
ED2400-160G/185P
ED2400-132G/160PZ
400
871.5
915
310
320
895
11
ED2400-160G/185PZ
Model
Outline dimension(mm)
Installation size(mm)
W
D
H
H1
H2
a1
b1
d1
a2
a3
b2
d2
ED2400-185G/200P
300
500
1445
1180
200
250
430
14
220
150
1135
13
ED2400-200G/220P
ED2400-220G/250P
ED2400-250G/280P
330
545
159
5
133
0
200
280
475
14
220
185
127
5
13
ED2400-280G/315P
325
545
1495
1230
200
275
470
14
225
185
1175
14
ED2400-315G/350P
ED2400-350G/400P
335
545
1720
1455
200
285
470
14
240
200
1380
14
ED2400-400G/450P
ED2400-450G/500P
2.2 The opening size of the keyboard
(1) 0.4-22kW 68.5mm*39mm
(2) 30kW or above 70mm*119mm
2.3 The Inverter Wiring
the inverter wiring of the main part and the control part
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2.3.1 The inverter wiring of the main part
2.3.2 the descriptions of peripheral devices
(1) AC power supply
Use with in the permissible power supply specifications of the
inverter.
(2) Moulded case circuit breaker:(MCCB)
When the power supply voltage is low or the input terminal short circuit occurs the breaker can provide protection, during
inspection maintenance or the inverter is not running, you can cut off the breaker to separate the inverter from the power supply.
(3) Magnetic contractor(MC)
The contractor can tum on and turn off the power of the inverter to
ensure safety.
(4) AC current reactor
a suppress high harmonic to protect the inverter to ensure safety. (5) Brake resistor
When the motor is braking, the resistor can avoid DC bus high voltage of the inverter ,and improve the braking ability of the
internal brake unit.
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2.3.3 Precautions main circuit wiring
(1) circuit wiring ,refer to requirements of electrical codes.
(2) Application of supply power to output terminals(U,V,W)of the invert will damage it, so never perform such wiring.
(3) Power supply's wiring ,please use isolated wire and wire pipe if possible, and make isolated wire and wire pipe link to the earth.
(4) The inverter and welding device, high-power motor, high-power load can't use a earth cable.
(5) The ground terminal E, ground impedance is lower than 100Ω (6) Use the shortest earth cable possible.
(7) Many inverters are earthed, pay attention not to cause ground loops.
(8) the power cables and the control cables must be separated in the main circuit. keep the power cables more than 10 cm away
from the paralleled control cables, when the power cables and the control cables are crossed, make them vertical. Don't make the
power cables and the control cables together, or the interference will cause.
(9) Under normal circumstances, the distance between the inverters and the motors is less than 30m, the current produced by
the parasitic capacitance may cause over-current protection, mis action, inverter's fault and equipment operating faults .The
maximum distance is 100m, when the distance is long, please select the output side filter, and reduce the carrier frequency.
(10) Don't install an absorbing capacitor or other capacitance resistance absorbing devices.
(11) Ensure the terminals are all locked tightly, the cables are connected well with the terminals, present the looseness due to an
action of shaking, cause sparks and the short circuit
To minimize the interference.it is recommended that the contactor and relay should be connected to the surge absorber.
•Noise filter installed at the input side of inverter;
•Install noise isolation for other equipment by means of isolation transformer or power filter.
Model
Motor Output
(kW)
Main Circuit Cable Type
(mm2)
Breaker
Selection
(A)
Input Side Magnetic
contractor (A)
1PH 220V 50/60Hz
ED2200-0R4G
0.4
0.75
10
9
ED2200-0R75G
0.75
0.75
16
12
ED2200-1R5G
1.5
1.5
25
18
ED2200-2R2G
2.2
2.5
32
25
ED2200-3R7G
3.7
2.5
40
32
3PH 380V 50/60HZ
ED2400-0R4G
0.4
0.75
6
9
ED2400-0R75G
0.75
0.75
6
9
ED2400-1R5G
1.5
0.75
10
9
ED2400-2R2G
2.2
0.75
10
9
ED2400-3R7G/5R5P
3.7/5.5
1.5
16
12
ED2400-5R5G
5.5
2.5
20
18
ED2400-7R5P
7.5
4
32
25
ED2400-7R5G/11P
7.5/11
4
32
25
ED2400-11G/15P
11/15
4
40
32
ED2400-15G/18.5P
15/18.5
6
50
38
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Model
Motor Output
(kW)
Main Circuit
Cable Type (mm2)
Breaker
Selection
(A)
Input Side Magnetic
contractor (A)
ED2400-18.5G/22P
18.5/22
10
80
65
ED2400-22G/30P
22130
10
80
65
ED2400-30G/37P
30/37
16
100
65
ED2400 7G/45P
37/45
25
100
80
ED2400-45G/55P
45/55
35
160
95
ED2400-55G
55
50
160
115
ED2400-75P
75
50
160
115
ED2400-75G/90P
75/90
70
250
150
ED2400-90G/11OP
90/110
95
250
170
ED2400-110G/132P
110/132
120
400
205
ED2400-132G/160P
132/160
150
400
245
ED2400-160G/185P
160/185
185
400
300
ED2400-185G/200P
1851200
185
500
410
ED2400-200G/220P
200/220
185
500
410
ED2400-220G/250P
220/250
240
630
410
ED2400-250G/280P
250/280
240
630
475
ED2400-280G/315P
280/315
150*2
700
620
ED2400-315G/350P
315/350
185*2
800
620
ED2400-350G/400P
350/400
185*2
800
620
ED2400-400G/450P
400/450
240*2
1000
800
*The above data are for reference only.
2.3.5 Main circuit terminals and description
1. Main circuit terminal arrangement ED2000 series inverter is as follows:
Type a: 3PH380V 0.2-2.2kW & 1PH 220V 0.4-1.5kW
Type b: 3PH380V 3.7-5.5kW & 1PH 220V 2.2-3.7kW
Type c: 3PH380V 7.5-11kW
Type d: 3PH380V 15-22kW
Type e: 3PH380V 30-37kW
16
Elmark Automatyka S.A.
NIP: 5252072585; KRS: 0000803828, Sąd Rejonowy dla M-St. Warszawy, XIV Wydział Gosp. KRS; Kapitał Zakładowy 525.000 zł, w pełni opłacony
Type f: 3PH380V 45-75kW
Type h: 3PH380V 132-160kW
2.
Description of main circuit terminals
Terminal Name
Description
RIL1, S/L2, T/L3
Connect to the commercial power supply.
U/T1, U/T2, U/T3
Inverter output terminals, connect a three-phase motor.
+/B1, -
Positive and negative DC inverter, brake unit can be
connected.
+/B1, B2
Connect brake resistor.
+, PR
Earth (ground)
Note: For single-phase power input:
from 0.75KW-1.5kW corresponds to R/L1, S/L2 terminals; from 2.2KW-3.7kW corresponds to S/L2, T/L3 terminals
3.
Wiring Example
17
Elmark Automatyka S.A.
NIP: 5252072585; KRS: 0000803828, Sąd Rejonowy dla M-St. Warszawy, XIV Wydział Gosp. KRS; Kapitał Zakładowy 525.000 zł, w pełni opłacony
4.
The basic wiring diagram
Note: For single-phase power input:
from 0.75KW-1.5kW corresponds to R/1.1, S/L2 terminals;
from 2.2KW-3.7kW corresponds to S/L2, TIL3 terminals
2.4 Control Terminals
Control terminal arrangement
Note: 30kW or above , the product contains 24V terminal
18
Elmark Automatyka S.A.
NIP: 5252072585; KRS: 0000803828, Sąd Rejonowy dla M-St. Warszawy, XIV Wydział Gosp. KRS; Kapitał Zakładowy 525.000 zł, w pełni opłacony
2.4.1 Control Terminal Description
(1) Input signals
Terminal Name
Function Description
Remarks
FWD
Forward commend input (multi-function input terminals)
Multi-function input terminals S1 - 54, FWD,
REV terminals by reference number of specific
settings, set the terminal and GND closed
effective
REV
Reverse commend input (multi-function
input terminals)
S1
Multi-function input terminals
S2
Multi-function input terminals
S3
High-11peed pulse input terminal (optional)
S4
Multi-function input terminals
FOV
Analog output terminal
0~10V/0~20mA
10V
Frequency setting power
FIV
Analog voltage Input terminal
0~10V
FIC
Analog input terminal
0~ 20mA/0~ 10V
GND
Input signal common
MCM
Optically coupled output common
M01
Multifunctional optical coupling output contacts
RS+
RS485 positive
RS485
communication
RS-
RS485 negative
RA
Relay output contacts (normally open)
RB
Relay output contacts (normally closed)
RC
Relay output contacts RA, RB common
Control panel switch Description:
Switch name
Switch Description
J2
Voltage (0 ~ 10V) / current (0 ~ 20mA) input switch V, FIC short for voltage input; I, FIC short for currant input
J1
Voltage (0 ~ 10V) / current (0 ~ 20mA) output switch V and FOV shorted to voltage output; I and FOV shorting current
output
Control loop distribution NOTES:
(1) Please let the control signal lines and the main lines, and other power lines, power lines separate traces.
(2) In order to prevent interference caused by malfunction, use stranded or double-stranded shielded wire line,
specifications for 0.5 - 2mm2
(3) Make sure that each using terminal to allow conditions, such as: power supply, the maximum current.
(4) correct ground terminal E, grounding resistance is less than
100Ω.
(5) each terminal's wiring requirements, the correct selection of accessories such as potentiometers, voltmeter, input power
supplies.
(6) After completing the wiring correctly and check to make sure it is
correct and then the power can be on.
19
Elmark Automatyka S.A.
NIP: 5252072585; KRS: 0000803828, Sąd Rejonowy dla M-St. Warszawy, XIV Wydział Gosp. KRS; Kapitał Zakładowy 525.000 zł, w pełni opłacony
Chapter 3 Operation
3.1 Digital Operator Description
Digital Operator can also be called Panel
3.1.1 the picture of the panel
(1) 0.2-22kW
(2) 30kW or above
Note: If the keyboard needs to be equipped with an encoder or the keyboard is displayed in double row, please indicate the order.
20
Elmark Automatyka S.A.
NIP: 5252072585; KRS: 0000803828, Sąd Rejonowy dla M-St. Warszawy, XIV Wydział Gosp. KRS; Kapitał Zakładowy 525.000 zł, w pełni opłacony
3.2 the descriptions of the key's function
Key
Name
Description
Programming key
Entry or escape of first-level menu
Data enter key
Progressively enter menu and confirm parameters.
UP Increment Key
Progressively increase data or function codes.
DOWN Decrement Key
Progressive decrease data or function codes.
Right shift Key
In parameter setting mode, press this button to select the bit to be modified. In
other modes, cyclically displays
parameters by right shift
Run key
Start to run the inverter in keypad control mode.
Stop key/Fault reset key
In running status, restricted by F7.02, can be used to stop the inverter.
When fault alarm, can be used to reset the inverter without any
restriction.
Multifunction key
3.2.1 Indicator light descriptions
Indicator Light Name
Indicator Light Description
Hz
Frequency unit
A
Current unit
V
Voltage unit
FWD/REV
light off: forward operation. light on: reverse operation.
3.3 Operational process
3.3.1 Parameter Settings
three-level menu :
1. The function code group (first menu);
2. Function code symbols (second menu);
3. Function code set value (third menu).
Explanation: the three-level menu operation, can press PRG or ENTER to return to the secondary menu. The difference between
the two is: press ENTER to set parameters in control panel, and then return to the secondary menu, and automatically move to
the next function code; Press PRG directly to return to the secondary menu, don't store parameters, and keep staying in the
current function code. Example: change the function code P1.03 from 00.00
Hz change the sample set to 50.00 Hz.
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