Eaton ELC-AN06AANN, Инструкция

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IL05003003E.pdf
5011629903-A603
2007-05-08
ELC-AN06AANN
Analog to Digital/Digital to Analog
Converter Mixed Module
Instruction Sheet
WARNING
•
This Instruction Sheet only provides descriptions for electrical specifications, general
specifications, installation & wiring, troubleshooting and peripherals. For more information about
the optional peripherals, please see ELC Application Manual.
•
This is an OPEN TYPE Controller. The ELC should be kept in an enclosure away from airborne
dust, humidity, electric shock risk and vibration. Also, it is equipped with protective methods
such as some special tools or keys to open the enclosure, so as to avoid the hazard to users
and the damage to the ELC. Do NOT touch terminals when power on.
•
Never connect the AC main circuit power supply to any of the input/output terminals, as it will
damage the ELC. Check all the wiring prior to power up. To avoid any electromagnetic noise,
make sure the ELC is properly grounded
.
•
Warning – Do not disconnect while circuit is live unless area is known to be non-hazardous.
•
Power, input and output (I/O) wiring must be in accordance with Class 1, Div. 2 wiring methods -
Article 501-10(B)(1) of the National Electrical Code.
•
Suitable for use in Class 1, Division 2, Groups A, B, C, D or Non-Hazardous locations only.
•
Warning – Explosion hazard - Substitution of components may impair suitability for Class 1,
Division 2.
•
Warning – Explosion Hazard - Do not disconnect equipment unless power has been switched
off or the area is known to be Non-Hazardous.
1 INTRODUCTION
1.1 Model Explanation and Peripherals
Thank you for choosing Eaton Logic Controller (ELC) series products. The ELC-AN06AANN allows
the connection of four analog inputs and 2 groups 12 bits digital outputs (voltage/current). The ELC
transforms the input into a 12 bit digital signal and the output into a 2 points analog signal, which may
then be manipulated using TO and FROM commands in the ladder logic program. There are 49
Controlled Registers (CR) in each module (each register is 16 bits). The Analog Input/Output Mixed
Module of ELC-AN06AANN can read/write the data of analog input module by using commands
FROM / TO via ELC program.
1.2 Product Profile and Outline
EXTENSION
PORT
25.2
3
M
C
H
1
POWER
ERROR
A D
M
C
H
6
C
H
5
M
C
H
4
M
C
H
3
M
C
H
2
90
EL
C-
AN0
6AAN
N
3
M
60
12
5
6
4
8
3
2
1
3
11
8
7
13
14
9
Units: mm
1. Status indicator (Power, RUN and ERROR) 2. Model Name
3. Extension unit clip 4. Input/output terminal
5. DIN rail clip 6. Mounting hole of the extension unit
7. Nameplate 8. Extension unit clip
9. DIN rail (35mm) 10. Extension port
11. RS-485 Communication port 12. 2 pin removable terminal (standard accessory)
13. DC power input 14. Power input cable (standard accessory)
1.3 External Wiring
CH1
100K
250
-10V~+10V
V+
I+
COM
CH1
100K
CH4
100K
250
-20mA~+20mA
V+
I+
COM
CH4
100K
*3
*2
AG
AG
Current input
Voltage input
Shielded*1
Shielded*1
Note 1:
Please isolate analog input and
other power wiring.
Note 2:
If input connected current signal,
please short circuit between V+ and I+
terminals.
Note 3:
If wave of input terminal of loaded
is too big that noise interferes wiring,
please connect capacitance with
0.1~0.47
μ F 25V.
Voltage output
0V ~ 10V
V+
＊
5
@
FG
COM
V+
FG
I+
CH1
CH2
24+
24-
AG
+15V
-15V
DC/DC
converter
＊ 6
@
System
Grounding
Class 3 Grounding
(100 or less) Ω
DC24V
I+
Current output
0mA~20mA
COM
CH5
CH6
Isolation wire 4¡@ ＊
Isolation wire 4¡@
＊
AC drive, recorder,
scale valve...
AC drive, recorder,
scale valve...
terminal of
power module
Note 4:
Please isolate analog output and
other power wiring.
Note 5:
If wave of output terminal of loaded
is too big that noise interferes wiring,
please connect capacitance with
0.1~0.47
μ F 25V.
Note 6:
Please connect terminal of
power module and terminal of analog
output module to system earth point and
make system earth point be grounding or
connects to machine cover.
Warning:
DO NOT wire to the No function
terminal. Use Copper Conductor Only,
60/75 °C.
2 STANDARD SPECIFICATIONS
2.1 Specifications
FOUR CH. (A/D) CONVERTER VOLTAGE INPUT CURRENT INPUT
Power Supply Voltage
24 VDC(20.4VDC~28.8VDC) ( –15%
～
+20%)
Analog Input Channel 4 channels per module
Analog Output Range
±
10V
±
20 mA
Digital Data Range ±
2,000
±
1,000
Resolution 12 bits(1
LSB
=5 mV) 11 bits (1
LSB
=20 μ A)
Input Impedance
200 K
Ω
and above 250
Ω
Overall Accuracy
±
0.5% of full scale of 25
℃
(77
℉
)
±
1% of full scale during 0~55
℃
(32~131
℉
)
Response Time 3 ms
×
channels
Isolation Method There is no Isolation between digital and analog circuitry.
Isolation
Field to Digital Area: 500V Field to Analog Area: 500V
Analog area to Digital Area: 500V Field to 24VDC: 500V
Absolution Input Range ±
15 V
±
32 mA
Digital Data Format 2’s complement of 16-bit, (11 Significant Bits)
Average Function Yes (CR#2~CR#5 can be set and the range is K1~K100)
Self Diagnostic Function Self Detection Upper bound and lower bound detection per channel
TWO CH. D/A CONVERTER VOLTAGE OUTPUT CURRENT OUTPUT
Analog Signal Output Channels 2 channel per module
Analog Output Range 0~10V 0~20 mA
Digital Data Range 0~4,000 0~4,000
Resolution 12 bits (1
LSB
=2.5 mV) 12 bits (1
LSB
=5 μ A)
Output Impedance 0.5 Ω or lower
Overall Accuracy
±
0.5% of full scale at 25
℃
(77
℉
)
±
1% of full scale during 0~55
℃
(32~131
℉
)
Response Time
3 ms
×
Channels
Max. Output Current 10 mA(1K
Ω
~2M
Ω
)
－
Tolerance Carried Impedance －
0
～
500
Ω
Digital Data Format
2’s complement of 16-bit, (11 Significant Bits)
Isolation Method
There is no Isolation between digital and analog circuitry.
Isolation
Field to Digital Area: 500V Field to Analog Area: 500V
Analog area to Digital Area: 500V Field to 24VDC: 500V
Protection
Voltage output has short circuit protection but short circuit for a long
time may cause inner wiring damage and open circuit protection.
Communication Mode (RS-485)
MODBUS ASCII/RTU Mode. Communication baud rate of 4,800 / 9,600
/ 19,200 / 38,400 / 57,600 / 115,200 bps. For ASCII mode, date format
is 7Bits, even, 1 stop bit (7 E 1). For RTU mode, date format is 8Bits,
even, 1 stop bit (8 E 1). The RS-485 is disabled when the
ELC-AN06AANN is connected in series to an ELC.
Connect to ELC MPU in Series
When ELC-AN06AANN modules are connected to an ELC, the
modules are numbered from 0 - 7. 0 is the closest to the MPU and 7 is
the furthest. The Maximum number of modules is 8 modules and they
TWO CH. D/A CONVERTER VOLTAGE OUTPUT CURRENT OUTPUT
do not occupy any digital I/O points of the MPU.
2.2 Other Specifications
Maximum Power Consumption
2W at 24 VDC (20.4VDC~28.8VDC) ( -15 % ~ +20 %)
Noise Immunity
ESD(IEC 61131-2, IEC 61000-4-2): 8KV Air Discharge
EFT(IEC 61131-2, IEC 61000-4-4): Power Line: 2KV, Digital I/O: 1KV,
Analog & Communication I/O: 1KV
RS(IEC 61131-2, IEC 61000-4-3): 26MHz~1GHz, 10V/m
Grounding
The diameter of the grounding wire cannot be smaller than that of
terminals 24V and 0V (if numerous ELCs are used at the same time,
make sure that each ELC is grounded respectively to the ground poles)
Vibration/Shock Immunity
International Standard Regulations: IEC61131-2, IEC 68-2-6 (TEST Fc)/
IEC61131-2 & IEC 68-2-27 (TEST Ea)
Operation/Storage Environment
Operation: 0
℃
~55
℃
(temperature), 50~95% (humidity), pollution
degree: 2; Storage: -25
℃
~70
℃
(temperature), 5~95% (humidity)
Agency Approvals
UL508
UL1604, Class1,Div2 Operating temperature code: T5
European community EMC Directive 89/336/EEC and Low Voltage
Directive 73/23/EEC
3 CR(CONTROLL REGISTER)
ELC-AN06AANN EXPLANATION
CR
No
Parameter
Comm.
address
Latched Register Name b15 b14 b13 b12 b11 b10 b9 b8 b7 b6 b5 b4 b3 b2 b1 b0
#0 H 40C8 O R Model type Data length is 8 bits (b7~b0). ELC-AN06AANN model code= H CC
#1 H 40C9 O R/W Mode setting
CH6 CH5 CH4 CH3 CH2 CH1
Input mode setting: (CH1~CH4)
Mode 0: input voltage mode (-10V~+10V). Factory Setting is H0000.
Mode 1: input voltage mode (-6V~+10V).
Mode 2: input current mode (-12mA~+20mA).
Mode 3: input current mode (-20mA~+20mA).
Mode 4: Reserved
Output mode setting: (CH5~CH6)
Mode 0: output voltage mode (0V~10V).
Mode 1: output voltage mode (2V~10V).
Mode 2: output current mode (4mA~20mA).
Mode 3: output current mode (0mA~20mA).
#2 H 40CA O R/W
CH1 average
number
Average numbers setting of channel CH1~CH4. Setting range is K1~K100 and
factory setting is K10.
#3 H 40CB O R/W
CH2 average
number
#4 H 40CC O R/W
CH3 average
number
#5 H 40CD O R/W
CH4 average
number
#6 H 40CE X R
Average value of
CH1 input signal
Display average value of CH1~CH4 input signal
#7 H 40CF X R
Average value of
CH2 input signal
#8 H 40D0 X R
Average value of
CH3 input signal
#9 H 40D1 X R
Average value of
CH4 input signal
#10 H 40D2 X R/W
CH5 output
signal value
Output value of CH5~CH6, the setting range is K0~K4,000. The factory setting is
K0 and the unit is LSB.
#11 H 40D3 X R/W
CH6 output
signal value
#12 H 40D4 X R
Present value of
CH1 input signal
Display present value of CH1~CH4 input signal
#13 H 40D5 X R
Present value of
CH2 input signal
#14 H 40D6 X R
Present value of
CH3 input signal
#15 H 40D7 X R
Present value of
CH4 input signal
#16~ #17
Reserved
#18 H 40DA O R/W
To adj. OFFSET
value of CH1
Offset setting of CH1~CH4. Factory setting is K0 and unit is LSB.
Voltage input: setting range is K-1,000 ~K1,000
Current input: setting range is K-1,000 ~K1,000
#19 H 40DB O R/W
To adj. OFFSET
value of CH2
#20 H 40DC O R/W
To adj. OFFSET
value of CH3
#21 H 40DD O R/W
To adj. OFFSET
value of CH4
#22 H 40DE O R/W
To adj. OFFSET
value of CH5
Offset setting of CH5~CH6. Factory setting is K0 and unit is LSB.
The setting range is K-2,000~K2,000
#23 H 40DF O R/W
To adj. OFFSET
value of CH6
#24 H 40E0 O R/W
To adj. GAIN
value of CH1
GAIN setting of CH1~CH4. Factory setting is K1,000 and unit is LSB.