FBs-4A2D Analog Input/Output Module

FBs-4A2D Analog Input/Output Module
Chapter 20
FBs-4A2D Analog Input/Output Module
FBs-4A2D is one of the analog I/O modules of FATEK FBs series PLC. For analog output it provides 2 channels of
14 bit D/A output. Base on the different jumper settings it can provide varieties of current or voltage output signal. The
output code can be configured as unipolar or bipolar which makes the relation of output code and real output signal more
intuitive. For safety, the output signal will be automatically forced to zero(0V or 0mA) when the module is not serviced by
CPU for 0.5 second.
For analog input it provides 4 channels A/D input with 12 or 14 bits effective resolution. Base on the different
jumper settings it can measure the varieties of current or voltage signal. The reading value is represented by a 14 bit
value no matter the effective resolution is set to 12 or 14 bits The output code also can be configured as unipolar or
bipolar which makes the relation of input code and real input signal more intuitive.. In order to filter out the field noise
imposed on the signal, it also provides the average of sample input function.
20.1
Specifications of FBs-4A2D
General specifications
Isolation
Transformer(Power) and photocouple(Signal)
Indicator(s)
5V PWR LED
Internal Power
Consumption
5V、100mA
External power supply
24V-15%/+20%、100mA
Operating Temperature
0 ~ 60 ℃
Storage Temperature
-20 ~ 80 ℃
Dimensions
40(W)x90(H)x80(D) mm
Analog output specifications
Item
Specifications
Output Channel
2 Channel ( 2 D A )
Digital Output Value
− 8 1 9 2 ~ + 8 1 9 1 ( Bipolar) o r 0 ~ 1 6 3 8 3 ( Unipolar)
Span
Of
Analog
output
Bipolar*
Unipolar
*10V
*1. Voltage: −10~ 10V
5. Current: −20~ 20mA
5V
2. Voltage: −5~ 5V
6. Current: −10~ 10mA
10V
3. Voltage: 0~ 10V
7. Current:0~ 20mA
5V
4. Voltage: 0~ 5V
8. Current:0~ 10mA
Resolution
14 bits
Finest resolution
0.3mV(Voltage)、0.61µA(Current)
I/O Points Occupied
2 OR(Output register)
Accuracy
Within ±1% of full scale
Conversion Time
Updated each scan
Maximum accommodation
Voltage:500Ω~1MΩ
for resistance loading
Current:0Ω~300Ω
Remark
* : It means the default
setting
The deviation will be
enlarged if exceeding this
range
20-1
Analog input specifications
Item
Specifications
Input Channel
4 Channel (4AD)
−8192~+8191or 0~16383(14bit)
Digital Input Value
Span
Of
Analog
Input
−2048~+2047or 0~4095(12bit)
*10V *1. Voltage:−10~10V
Bipolar*
Unipolar
5. Current:−20~20mA
5V
2. Voltage:−5~5V
6. Current:−10~10mA
10V
3. Voltage:0~10V
7. Current:0~20mA
5V
4. Voltage:0~5V
8. Current:0~10mA
Resolution
*: It means the default
setting
14 or 12 bit
=Analog Input Signal/
16383(rounded the third
decimal place)
Voltage:0.3mV
Finest resolution
Current:0.61µA
I/O Points Occupied
4 IR(Input register)
Accuracy
Within ±1% of full scale
Conversion Time
Updated each scan
Maximum absolute input
signal
Voltage:±15V(max)
Current:±30mA(max)
Input resistance
63.2KΩ(Voltage input)、250Ω(Current Input)
20.2
Remark
It may cause the
destruction to hardware if
exceeds this value.
The procedure of using FBs-4A2D analog input/output module
St a r t
Set the I/O voltage/current (V/I), polarity (B/U), and the V/I
range
of
each
point
before
installation.
Connect
FBs-4A2D to the expansion interface on PLC in series - - - - - - and connect an external 24VDC source and analog
output wires to the module.
Analog Input : Directly read the value of the four
corresponding IRs to obtain the analog input reading of
CH0~CH3.
Analog Output : Directly fill the output value into the
analogue output registers R3904~R3967 to acquire the
corresponding analogue output span of CH0~CH63 from
output module.
End
20-2
Please refer to section 20.4 for hardware
explanation.
20.3
Address allocation of FBs-PLC analog inputs/outputs
FBs-4A2D offers 4 AD points and 2 DA points. The AD points number starts from the one nearest to the PLC, the
number in order is CH0~CH3 (module 1); CH4~CH7 (module 2); CH8~CH11 (module 3); etc, accumulates in serial; i.e.
add 4 to each module, the total is 64 points (CH0~CH63) corresponding top the value IRs inside the PLC (R3840~R3903),
respectively. In DA point numbering, from the one nearest to the PLC, the number runs from CH0 through to CH63 in
serial, the total is 64 points corresponding top the value ORs inside the PLC (R3904~R3967), respectively. After
connecting FBs-4A2D to the expansion interface on the PLC, FBs-PLC will automatically detect the number of AD/DA
points. WinProladder will automatically detect and calculate the value IRs/ORs on the system after connecting to the PLC.
Users may refer to the I/O Module Number Configuration provided by WinProladder in order to find out the exact I/O
address of each expansion module to facilitate programming (see I/O Number Configuration, Section 12.6, WinProladder
User’s Manual for details).
Address allocation of FBs-4A2D(Analog output)
Numeric Output
Register(OR)
Content of OR (CH0~CH63)
Output
lable
B 1 5 B 1 4 B 1 3 B 1 2 B 11 B 1 0 B 9 B 8 B 7 B 6 B 5 B 4 B 3 B 2 B 1 B 0
O R +0
* *
O R +1
* *
B13
CH0 output value
B0
CH 0
C H1 output value
O R +2
CHX
Depends on module type
R3 9 66
Depends on module type
CHX
R3 9 67
Depends on module type
CHX
~
~
..... .
CHX
~
~
..... .
~
~
~
~
~
~
....
O R +3
F Bs - 4 A 2D
CH 1
Other modules
* * --- ---- ---- - Unipolar code output (0~16383),B14、B15 = 00
Bipolar code output (-8192~8191),B14、B15 = B13
Address allocation of FBs-4A2D(Analog input)
Numeric Input
R e g is t e r ( I R )
Content of IR (CH0~CH63)
Input lable
B 1 5 B 1 4 B 1 3 B 1 2 B 11 B 1 0 B 9 B 8 B 7 B 6 B 5 B 4 B 3 B 2 B 1 B 0
IR + 0
14/12 bit ; 14-bit , B14~ B15= B13 ; 12-bit, B12~ B15= B11
CH 0
IR + 1
14/12 bit ; 14-bit , B14~ B15= B13 ; 12-bit, B12~ B15= B11
CH 1
IR + 2
″
CH 2
IR + 3
″
CH 3
20-3
F Bs - 4 A 2D
Depends on module type
CHX
R3 9 01
Depends on module type
CHX
R3 9 02
″
CHX
R3 9 03
″
CHX
20.4
~
~
... .
~
~
... .
~
~
... .
~
~
R3 9 00
Other modules
FBs-4A2D hardware description
1
6
8
7
※ FBs-4A2D contains 3 PCBs overlapping one
another. The lowest one is the power supply
2
O0+
AG
V
I U B 5V 10V
unit (isolated power supply). The middle one
O1+
O0-
C
H
0
O1C
H
1
is the I/O board (connectors are on this
layer). The upper one is the control board
(control/expansion I/O connections) as
described below.:
FATEK
4
POW
3
C
H
0
C
H
1
C
H
2
C
H
3
I0+
I1+
I2+
I3+
I0I1I2I3-
5
9
10
11 12
Outlook of top view
1
○
External power input terminal : Power supply of analogue circuit for this module, the voltage can be 24VDC±20%
and should be supplied with 4W of power at least.
2
○
Protecting ground terminal: Connect to the shielding of signal cable.
3
○
Expansion input cable: It should be connected to the front expansion unit, or the expansion output of main unit.
20-4
4
○
Expansion output connector: Provides the connection for next expansion unit.
5
○
Power indicator: It indicates whether the power supply at analogue circuit and external input power source are
normal.
6
○
AG Ground: No connection is needed in general; except when the common mode signal is too high. See examples
overleaf for details.
7 、○
8 : Output terminal of CH0~CH1.
○
9 、○
12 : Input terminal of CH0~CH3.
○
CH0
CH0
CH1
CH1
JPA
JPB
JP3
U
B
U
JP4
5V
10V
Pin Layout in Control Board (open top cover)
5V
JP5 ~ JP8
I
V
U U
D/A
A/D
(Code)
JP1
JP1
B B
V
I
10V
B
U
5V
10V
B
FBs-4A2D hardware jumper setting
V
I
20.4.1
Pin Layout on I/O Board (Remove Control Board)
● (Analog output)
1. Output code format selection (JP1)
Users can select between unipolar and bipolar codes. The output range of unipolar codes and bipolar codes is
0~16383 and –8192~8191, respectively. The two extreme values of these formats correspond to the lowest and highest
output signal values, respectively (see table below). In general, the output code format is selected according to the form
of output signals; i.e. unipolar codes for unipolar output signals; and bipolar codes for bipolar output signals. In doing so,
their correlations will become more heuristics. Yet, as the format of output code on all channels is selected from JP1, it is
the user’s choice to select unipolar or bipolar codes if both are used on different channels. See diagram above for location
of JP1 :
20-5
Output Code Format
JP1 Setting
Output Value Range
- 8 1 92 ~ 8 19 1
Bipolar
Corresponding Input Signals
- 10 V ~ 1 0 V( - 2 0m A ~ 2 0 m A)
- 5 V ~ 5 V( - 2 0m A ~ 2 0 m A)
0 V ~ 1 0 V( 0m A ~ 20 m A)
0 ~ 1 6 38 3
Unipolar
0 V ~ 5 V( 0m A~ 1 0m A)
2. Output signal form setup (JPA&JPB)
Users can set the output signal form (voltage/current) of individual channels; except the polarity and amplitude which
are common.
Signal Form
JPA (voltage/current) Setting
JPB (polarity/amplitude) Setting
0V~ 10V
- 1 0 V ~ 10 V
0V~ 5V
-5V~ 5V
0m A ~ 20m A
- 2 0m A~ 2 0m A
0m A ~ 10m A
- 1 0m A~ 1 0 Vm A
● (Analog input)
1 . Input code format selection (JP1)
Users can select between unipolar and bipolar codes. The input range of unipolar codes and bipolar codes is
0~16383 and –8192~8191, respectively. The two extreme values of these formats correspond to the lowest and highest
input signal values, respectively (see table below). For example, if the input signal type is set to -10V~ +10V, the unipolar
code corresponding to the input is 8192 and the bipolar code corresponding to the input is 0 for 0V input. If the input is
10V, the unipolar code corresponding to the input is 16383 and the bipolar code corresponding to the input is 8191. In
general, the input code format is selected according to the form of input signals; i.e. unipolar codes for unipolar input
signals; and bipolar codes for bipolar input signals. In doing so, their correlations will become more heuristics. Unless it is
20-6
necessary to make a deviation conversion through FUN32; otherwise, do not select bipolar codes for unipolar input
signals (see FUN32 description for details). The format of input codes of all channels is selected from JP1. See above
diagram for the location of JP1:
Input Code Format
JP1 Setting
Input Value Range
- 8 1 92 ~ 8 19 1
Bipolar
Corresponding Input Signals
- 10 V ~ 1 0 V( - 2 0m A ~ 2 0 m A)
- 5 V ~ 5 V( - 2 0m A ~ 2 0 m A)
0 V ~ 1 0 V( 0m A ~ 20 m A)
0 ~ 1 6 38 3
Unipolar
0 V ~ 5 V( 0m A~ 1 0m A)
2 . Input signal form setup (JP3&JP4)
Users can set the input signal form (voltage/current) of individual channels; except the polarity and amplitude which
are common. The location of jumpers are tabulated below:
Signal Form
JP3 Setting
JP4Setting
0~ 10V
or
0~ 20mA
0~ 5V
or
0~ 10mA
-10~ +10V
or
-20~ +20mA
-5~ +5V
or
-10mA~ +10mA
U
B
3. Voltage or current setting (JP5~JP8)
Signal Type
JP5(CH0) ~ JP8(CH3) Setting
Current
20-7
V
I
Voltage
20.5
FBs-4A2D input/output circuit diagram
Output
FBs-4A2D
+15V
24V+
15V
+ 24VDC
External power supply
24V
CH0 Voltage output
V
O0+
V+
I
O0
V
+
Voltage Input
D/A
FG
CH1 Current Input
V
O1+
I+
I
O1
I
+
Current Input
Twisted pair with shielding
Voltage/
Current output
selection
FG
AG
FG
Input
A/D
V
I0+
I
I0
V
I1+
I
I1
V
I2+
I
I2
V
I3+
I
I3
Voltage/
Current input
selection
20.6
V
CH0 Input
(Voltage source)
CH1 Input
I (Current source)
V
I
CH2 Input
(Voltage source)
CH3 Input
(Current source)
Twisted pair with shielding
FBs-4A2D input/output characteristics
Users can select the I/O ranges of FBs-4A2D from the jumpers described above, such as V/I, U/B (I/O codes), U/B
(signal form), 5V/10V, etc. The I/O conversion characteristics of these settings are illustrated below. Users can adjust
different I/O forms by coordinating the conversion curve with various V/I (voltage/current) I/O settings. See Section 20.4
for details of V/I settings.
20-8
Diagram 1:Bipolar 10V(20mA)Span
Input/Output
Voltage
Range
Current
− 10 V ~ 1 0 V
− 20m A ~ 20m A
14 bit input/output format
12 bit input format
※ No 12-bit mode for analog output
20-9
Diagram 2:Bipolar 5V(10mA)Span
Input/Output
Voltage
Range
Current
−5V~ 5V
− 10m A ~ 10m A
14 bit input/output format
12 bit input format
※ No 12-bit mode for analog output
20-10
Diagram 3:Unipolar 10V(20mA)Span
Input/Output
Voltage
Range
Current
0V~ 10V
0m A~ 2 0m A
14 bit input/output format
12 bit input format
※ No 12-bit mode for analog output
2 0 - 11
Diagram 4:Unipolar 5V(10mA)Span
Input/Output Voltage
Range
Current
0V~ 5V
0m A~ 1 0m A
14 bit input/output format
12 bit input format
※ No 12-bit mode for analog output
20-12
20.7 FBs-4A2D analog input format planning
The reading input format planning of FBs-4A2D is exactly the same as that of FBs-6AD. See Section 18.7 for details.
The figure below shows the FBs-4A2D analog input format planning screen in WinProladder.
20-13
MEMO
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