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Электронный компонент: DVP04TC-S

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DVP-EH
DVP04AD-H
Analog Input Module
Instruction Sheet
1
WARNING
Please carefully read this instruction thoroughly prior to use the DVP04AD-H.
The DC input power must be OFF before any maintenance.
This is an OPEN-TYPE built-in DVP04AD-H, and the DVP04AD-H is certified to meet the safety
requirements of IEC 61131-2 (UL 508) when installed in the enclosure to prevent high
temperature, high humidity, exceessive vibration, corrosive gases, liquids, airbome dust or
metallic particles. Also, it is equipped with protective methods such as some special tool or key to
open the enclosure, in order to prevent the hazard to users and the damage to the DVP04AD-H.
Do not connect the AC power to any of the input/output terminals, or it may damage the
DVP04AD-H. Make sure that all the wiring is well conducted prior to power on.
Do not touch the internal circuit for at least 1 minute after the power OFF.
Make sure that the DVP04AD-H is properly grounded
, to prevent any electromagnetic noise.
2
INTRODUCTION
2.1 Model Explanation and Peripherals
Thank you for choosing DELTA's PLC DVP Series. The analog input module receives external
4-point analog signal input (voltage or current) and converts it into 14 bits digital signal. The
analog input module of DVP04AD-H series can read/write the data of analog input module by
using instructions FROM / TO via DVP-PLC EH Series MPU program. There are 49 CR (Control
Register, each register has 16-bit) in each module.
Software version of DVP04AD-H analog input module can be updated via RS-485 communication.
Users can select input from voltage or current via wiring. Voltage input range is 10V DC
(resolution is 1.25 mV). Current input range is 20 mA (resolution is 5 A).
Nameplate Explanation
20.4VDC ~ 28.8VDC
04AD-H0T 4120001
VX.XX
-10V ~ +10V or -20mA ~+20mA
1.25mV or 5 A
Model Name
Input power supply spec.
Analog input/output module spec.
Barcode
Model Explanation
Serial Number
Model
Product Series
Input+Output point
Model type
AD: Analog input module
DA: Analog output module
PT: Platinum temperature sensors(PT-100)
TC: Thermocouple sensors(Type J/K)
S: for SS series MPU
P: for EP series MPU
H: for EH series MPU
Production week
Production place (Taoyuan)
Production year (2004)
Production Model
XA: A/D , D/A Functions
RT: Resistor Thermocouple
HC: High speed count input module
PU: single axis positioning unit
2.2 Product Profile and Outline
Unit: mm
1. DIN rail track (35mm)
6. Terminals
2. Mounting hole for wire to connect extension
unit/extension module
7. Mounting hole
3. Model name
8. Terminal layout
4. Indicator for power, error and run status
9. Mounting port to connect extension
unit/extension module
5. DIN rail clip
2.3 External
wiring
CH1
104.7K
250
shielding cable*1
voltage input
-10V~+10V
V+
I+
COM
CH1
104.7K
CH4
104.7K
250
current input
-20mA~+20mA
V+
I+
COM
CH4
104.7K
*5
*2
AG
AG
24+
24-
Class 3 Grouning
DC/DC
converter
+15V
-15V
AG
FG
FG
*3
*4
shielding cable*1
terminal of power module
System Grounding
(100 or less)
Note 1: Please isolate analog input and other
power wiring.
Note 2: If connect to current signal, please short
out between V+ and I+ terminals.
Note 3: If noise is significant, please connect FG
to ground.
Note 4: Please connect
terminal of power
module and
terminal of analog
input module to system earth point and
make system earth point be grounded
or connects to machine cover.
Note 5: If the noise interference from loaded
wire input terminal is significant, please
connect a capacitor with 0.1~0.47F
25V for noise filtering.
Warning: DO NOT wire to the No function
terminal .
3
STANDARD SPECIFICATIONS
3.1 Function
Specifications
Analog/ Digital (4A/D) module
Voltage input
Current input
Power supply voltage
24 VDC(20.4VDC~28.8VDC) ( 15%+20%)
Analog input channel
4 channel / each module
Analog input range
10V
20 mA
Digital conversion range
8000
4000
Resolution
14 bits(1
LSB
=1.25 mV)
13 bits (1
LSB
=5 A)
Input impedance
200 K or above
250
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
It has isolation between digital area and analog area. There is no
isolation among channels.
Absolute input range
15 V
32 mA
Digital data format
2's complementary of 16-bit, 13 Significant Bits
Average function
Yes (CR#2~CR#5 can be set and setting range is K1~K4096)
Self diagnose function
Upper and lower bound detection / channels
Communication mode
(RS-485)
Either in ASCII or in RTU mode, communication rate can be 4800
/9600 /19200 /38400 /57600 /115200. Communication format of ASCII
mode is 7Bit, even bit, 1 stop bit (7 E 1). Communication format of
RTU mode is 8Bit, even bit, 1 stop bit (8 E 1). Can't use RS-485 if the
connection to PLC MPU is in series.
Connect to DVP-PLC MPU
in series
If DVP04AD-H modules are connected to MPU, the modules are
numbered from 0 7. 0 is the closest and 7 is the furthest to the MPU.
8 modules is the max and they do not occupy any digital I/O points of
the MPU.
3.2 Other
Specification
Power Specification
Max. Rated Consuming Power
24 VDC(20.4VDC~28.8VDC) ( 15%~+10%), 2W, supply from
external power
Environment Condition
Environment Condition
Follow the DVP-PLC MPU
Spec. of Prevent Static Electricity
All places between terminals and ground comply with the spec.
4
CR (Control Register)
DVP04AD-H analog signal input module
Explanation
CR
No.
RS-485
Parameter
address
Latched Register
name b15 b14 b13 b12 b11 b10 b9
b8
b7
b6
b5
b4
b3
b2
b1
b0
#0 H
4000 R
Model type
System used. DVP04AD-H model code =H 400
Reserved CH4 CH3 CH2 CH1
#1 H
4001 R/W Input
mode
setting
Input mode setting: factory setting is H0000.
Mode 0: input voltage mode (-10V~+10V).
Mode 1: input voltage mode (-6V~+10V).
Mode 2: input current mode (-12mA~+20mA)
Mode 3: input current mode (-20mA~+20mA)
Mode 4: none use.
#2 H
4002 R/W CH1 average times
#3 H
4003 R/W CH2 average times
#4 H
4004 R/W CH3 average times
#5 H
4005 R/W CH4 average times
The number of readings used for calculating "average" temperature on channels
CH1~CH4. Setting range is K1~K4096 and factory setting is K10.
#6 H
4006 R
average value of CH1
input signal
#7 H
4007 R
average value of CH2
input signal
#8 H
4008 R
average value of CH3
input signal
#9 H
4009 R
average value of CH4
input signal
Display average value of CH1~CH4 input signal
#10 ~ #11
Reserved
#12 H
400C R
present value of CH1
input signal
Display present value of CH1~CH2 input signal
DVP04AD-H analog signal input module
Explanation
CR
No.
RS-485
Parameter
address
Latched Register
name b15
b14
b13
b12
b11 b10 b9
b8
b7
b6
b5
b4
b3
b2
b1
b0
#13
H 400D
R
Present value of CH2
input signal
#14
H 400E
R
Present value of CH3
input signal
#15
H 400F
R
Present value of CH4
input signal
Display the present value of CH3~CH4 input signal
#16 ~ #17
Reserved
#18
H 4012
R/W To adjust OFFSET
value of CH1
#19
H 4013
R/W To adjust OFFSET
value of CH2
#20
H 4014
R/W To adjust OFFSET
value of CH3
#21
H 4015
R/W To adjust OFFSET
value of CH4
Offset setting of CH1~CH4. Factory setting is K0 and unit is LSB.
Voltage input: setting range is K-4000 ~K4000
Current input: setting range is K-4000 ~K4000
#22 ~ #23
Reserved
#24
H 4018
R/W To adjust GAIN value
of CH1
#25
H 4019
R/W To adjust GAIN value
of CH2
#26
H 401A
R/W To adjust GAIN value
of CH3
#27
H 401B
R/W To adjust GAIN value
of CH4
GAIN setting of CH1~CH4. Factory setting is K4000 and unit is LSB.
Voltage input: setting range is K-3200 ~K16000.
Current input: setting range is K-3200 ~K10400.
#28 ~ #29
Reserved
#30
H 401E
R
Error status
The data register used to save all error status. Please refer to fault code chart for
details.
#31
H 401F
R/W Communication
address setting
Setting RS-485 communication address. Setting range is 01~255 and factory setting
is K1
#32
H 4020
R/W Communication baud
rate setting
It is used to set communication baud rate (4800, 9600, 19200, 38400, 57600,
115200bps). Communication format: ASCII mode is 7Bit, even bit, 1 stop bit (7 E 1).
Communication format of RTU mode is 8Bit, even bit, 1 stop bit (8 E 1).
b0: 4800 bps (bit/sec). b1: 9600 bps (bit/sec). (factory setting)
b2: 19200 bps (bit/sec). b3: 38400 bps (bit/sec).
b4: 57600 bps (bit/sec). b5: 115200 bps (bit/sec).
b6-b13: reserved.
b14: exchange low and high byte of CRC check code (only for RTU mode)
b15: ASCII / RTU mode selection
b15 b14 b13 b12 b11 b10 b9
b8
b7
b6
b5
b4
b3
b2
b1
b0
Reserved CH4 CH3 CH2 CH1
#33
H 4021
R/W Reset
to
factory
setting and set
characteristics
adjustable priority
Factory setting is H0000.
Give CH1 setting for example:
1. When b0=0, user can set OFFSET and GAIN value of CH1 (CR#18, CR#24).
When b0=1, inhibit user to adjust OFFSET and GAIN value of CH1 (CR#18,
CR#24).
2. b1 means if characteristic register is latched. b1=0 (factory setting, latched), b1=1
(not latched).
3. When b2 is set to 1, all settings will reset to factory setting.
#34
H 4022
R
Software version
It is hexadecimal to display software version. For example: H 010A means 1.0A.
#35~#48 System
used
means latched.
means not latched.
R means can read data by using FROM instruction or RS-485.
W means can write data by using TO instruction or RS-485.
LSB (Least Significant Bit): 1. Voltage input: 1
LSB
=10V/8000=2.5mV. 2. Current input: 1
LSB
=20mA/4000=5A.
Explanation:
1.
CR#0: The content of CR#0 is model type, user can read the data from program to know if there
is extension module.
2.
CR#1: CR#1 is used to set 4 internal channels working mode of analog input module. Every
channel has four modes to set and can be set individually. For example: if setting CH1 to mode 0
(b2~b0=000), CH2 to mode 1(b5~b3=001), CH3: mode2 (b8~b6=010), CH4: mode
3(b11~b9=011). It needs to set CR#1 to H0688 and the upper bit (b12~b15) will reserved. The
factory setting of CR#1 is H0000.
3.
CR#2 ~ CR#5: it is used to set average times of CH1~CH4. Setting range is K1~K4096 and
factory setting is K10.
4.
CR#6 to CR#9 are the average value that calculates according to the value that is set in
CR#2~CR#5 (average time of CH1~CH4 input signal). For example, if CR#2 (the average times
of CH1) is 10, it will calculate the average of CH1 input signal every 10 times.
5.
CR#10, CR#11, CR#16, CR#17, CR#22, CR#23, CR#28, CR#29 reserved.
6.
CR#12 ~ CR#15: display present value of CH1~CH4 input signal.
7.
CR #18~ CR #21: the content is the value of adjusting OFFSET value of CH1~CH4 if analog
input voltage or current is 0 after it transfers from analog to digital. Voltage setting range:
-5V~+5V(-4000
LSB
~+4000
LSB
). Current setting range: -20mA~+20mA (-4000
LSB
~+4000
LSB
).
8.
CR #24~ CR #27: means analog input voltage or current when conversion value from analog
signal to digital is 4000. Voltage setting range: -4V~+20V(-3200
LSB
~+16000
LSB
). Current setting
range: -16mA~+52mA(-3200
LSB
~+10400
LSB
). But please be noticed GAIN VALUE OFFSET
VALUE = +800
LSB
~+12000
LSB
(voltage) or +800
LSB
~+6400
LSB
(current). When this value under this
range, the resolution of the input signal will be thin and the variation of value will be larger. When
this value exceeds this range, the resolution of input signal will be thick and the variation of value
will be smaller.
9.
CR#30 is the fault code. Please refer to the chart below.
Fault description
Content
b15~b8
b7 b6 b5 b4 b3 b2 b1 b0
Power source abnormal
K1(H1)
0
0
0
0
0
0
0
1
Analog input value error
K2(H2)
0
0
0
0
0
0
1
0
Setting mode error
K4(H4)
0
0
0
0
0
1
0
0
Offset/Gain error
K8(H8)
0
0
0
0
1
0
0
0
Hardware malfunction
K16(H10)
0
0
0
1
0
0
0
0
Digital range error
K32(H20)
0
0
1
0
0
0
0
0
Average times setting error
K64(H40)
0
1
0
0
0
0
0
0
Instruction error
K128(H80)
Reserved
1
0
0
0
0
0
0
0
Note: Each fault code will have corresponding bit (b0~b7). Two or more faults may happen at
the same time. 0 means normal and 1 means having fault.
10. CR#31: it is used to set RS-485 communication address. Setting range is 01~255 and factory
setting is K1.
11. CR#32 is used to set RS-485 communication baud rate: 4800, 9600, 19200, 38400, 57600,
115200 bps. b0: 4800bps. b1: 9600bps. (factory setting) b2: 19200bps. b3: 38400 bps. b4:
57600 bps. b5: 115200 bps. b6-b13: reserved. b14: exchange low and high byte of CRC
check code. (only for RTU mode) b15=0: ASCII mode. b15=1: RTU mode. Communication
format: ASCII mode is 7Bit, even bit, 1 stop bit (7 E 1). Communication format of RTU mode
is 8Bit, even bit, 1 stop bit (8 E 1).
12. CR#33 is used to set the internal function priority, such as characteristic register.
Output
latched function will save output setting in the inner memory before power loss.
13. CR#34: software version.
14. CR#35~ CR#48: system used.
15. The corresponding parameters address H4000~H4030 of CR#0~CR#48 are provided for user to
read/write data through RS-485.
A. Communication baud rate: 4800, 9600, 19200, 38400, 57600, 115200 bps.
B. Communication format: ASCII mode is 7Bit, even bit, 1 stop bit (7 E 1). Communication
format of RTU mode is 8Bit, even bit, 1 stop bit (8 E 1).
C. Function code: 03H--read data from register. 06H--write one WORD into register.
10H--write multiple WORD into registers.
5
ADJUST A/D CONVERSION CHARACTERISTIC CURVE
5.1 Adjust A/D Conversion Characteristic Curve
Voltage input mode
Mode 0 of CR#1 GAIN=5V (4000
LSB
),
OFFSET=0V (0
LSB
)
Mode 1 of CR#1 GAIN=6V (4800
LSB
),
OFFSET=2V (1600
LSB
)
GAIN:
Voltage input value when digital
output is 4000. Setting range is
-4V~+20V (-3200
LSB
~ +16000
LSB
)
OFFSET:
Voltage input value when digital
output is 0.
Setting range: -5V~+5V (-4000
LSB
~
+4000
LSB
)
+8000
+4000
-4000
10V
-8000
-6V
-10V
6V
5V
2V
0
GAIN
OFFSET
Digital
output
Voltage input
mode 0
mode 1
GAINOFFSET: Setting range is +1V~+15V
(+800
LSB
~ +12000
LSB
)
Current input mode:
Mode 2 of CR#1 GAIN = 20mA (4000
LSB
),
OFFSET=4mA (800
LSB
).
Mode 3 of CR#1 GAIN = 20mA (4000
LSB
),
OFFSET=0mA (0
LSB
).
GAIN:
Current input value when digital
output is +4000. Setting range is -20
mA~+20 mA (-4000
LSB
~ +4000
LSB
)
OFFSET:
Current input value when digital
output value is 0. Setting range is-16
mA ~+52 mA (-3200
LSB
~ +10400
LSB
)
+4000
-4000
-12mA
-20mA
4mA
0
OFFSET
20mA
GAIN
Digital
output
current input
mode 3
mode 2
GAINOFFSET: Setting range is +4mA ~ +32mA
(800
LSB
~ +6400
LSB
)
Using charts above to adjust A/D conversion characteristic curve of voltage input mode and
current input mode. Users can adjust conversion characteristic curve by changing OFFSET values
(CR#18~CR#21) and GAIN values (CR#24~CR#27) depend on application.
LSB(Least Significant Bit): 1. voltage input: 1
LSB
=10V/8000=1.25mV. 2. current input:
1
LSB
=20mA/4000=5A.
5.2. Program Example for Adjusting A/D Conversion Characteristics Curve
Example 1: setting OFFSET value of CH1 to 0V(=K0
LSB
) and GAIN value of CH1 to 2.5V(=K2000
LSB
).
X0
K2000
K24
H0
K1
K0
K1
H0
K1
M1002
K0
K33
K1
K0
K1
K18
K0
K0
TO
TO
TO
TO
Writing H0 to CR#1 of analog
input module no. 0 and set CH1
to mode 0 (voltage input
-10V~+10V)
Writing H1 to CR#33 and allow to
adjust characters of CH1~CH4.
When X0 switches from Off to
On, K0
LSB
of
OFFSET value will
be wrote in CR#18 and K2000
LSB
of GAIN value will be wrote in
CR#24.
Example 2: setting OFFSET value of CH2 to 2mA(=K400
LSB
) and GAIN value of CH2 to 18 mA
(=K3600
LSB
)
X0
K1
K0
K1
H0
K1
M1002
K0
K33
K1
K0
K1
K0
H18
K19
K25
K400
K3600
TO
TO
TO
TO
Writing H18 to CR#1 of analog
input mode no. 0 and set CH2 to
mode 3 (current input: -20 mA ~
+20mA)
Writing H0 to CR#33 and allow to
adjust characteristics of CH4.
When X0 switches from Off to
On, K400
LSB
of
OFFSET value will
be wrote in CR#19 and K3600
LSB
of GAIN value will be wrote in
CR#25.
6
INITIAL PLC START-UP
Lamp display:
1.
When power is on, POWER LED will be lit and ERROR LED will be lit for 0.5 second.
2.
Normal run: POWER LED should be lit and ERROR LED should turn off. When power
supply is lower than 19.5V, ERROR LED will blink continuously till the power supply goes
higher than 19.5V.
3.
When it connects to PLC MPU in series, RUN LED on MPU will be lit and A/D LED or D/A
LED should blink.
4.
After receiving the first RS-485 instruction during controlling by RS-485, A/D LED or D/A
LED should blink.
5.
After converting, ERROR LED should blink if input or output exceeds upper bound or lower
than lower bound.
Example:
K1
K0
K1
K1
K0
K0
K0
M1000
FROM
TO
END
K2
K6
D0
H3030
K32
D20
K4
FROM
TO
K0
K2
= H400 D0
M1002
= H400 D0
Explanation:
Read the data of model type from extension module K0 and distinguish if the data is H400
(DVP04AD-H model type).
If the model type is DVP04AD-H, M11 is on and the setting input mode is (CH1, CH3)= mode 0,
(CH2, CH4)= mode 3.
Set the number of times for average of CH1 and CH2 are K32.
Read the input signal average value of CH1~CH4 (4 data) and saved into D20~D23.
7
RELATED INSTRUCTIONS EXPLANATION
API
Applicable model
ES
EP
EH
78
D
FROM
P
Read special module
CR data
Bit device
Word device
X Y M S K H KnX KnY KnM KnS T C D E F
m
1
m
2
D
n
Note: The usage range of operand m
1
is 0~7.
The usage range of operand m
2
: ES/EP:
0-48, EH: 0-254.
The usage range of operand n: ES/EP: n=
1~(49-m2), EH: 1~(255-m2).
ES series model doesn't support pulse
execution instruction (FROMP, DFROMP).
16-bit instruction (9 STEPS)
FROM
Continuous
execution
FROMP
Pulse
execution
32-bit instruction (17 STEPS)
DFROM
Continuous
execution
DFROMP
Pulse
execution
Flag: When M1083=On, it allows to
insert interrupt during
FROM/TO.
Refer to following for detail.
Command
Explanation
: the number for special module.
: the number of CR (Control Register) of
special module that will be read.
: the location to save reading data.
: the
data number of reading one time.
DVP-series PLC uses this instruction to read CR data of special module.
: When assigning bit operand, K1~K4 are used for 16-bit and K5~K8 are used
for 32-bit.
Please refer the footnote below for the calculation of special module number.
Program
Example
To read the content of CR#24 of special module#0 to D0 of PLC and to read the
content of CR#25 of special module#0 to D1 of PLC. It can read 2 data in one time
(n=2).
The instruction will be executed when X0=On. The instruction won't be executed
when X0=Off and the content of previous reading data won't change.
X0
FROM
K0
K24
D0
K2
API
Applicable model
ES
EP
EH
79
D
TO
P
Special module CR
data write in
Bit device
Word device
X
Y
M S K H KnX KnY KnM KnS T C D E
F
m
1
m
2
S
n
Note: The usage range of operand m
1
is 0~7.
The usage range of operand m
2
: ES/EP: 0-48,
EH: 0-254.
The usage range of operand n: ES/EP: n=
1~(49-m2), EH: 1~(255-m2).
For ES series, it doesn't support pulse
execution instruction (TOP, DTOP)
16-bit instruction (9 STEPS)
TO
Continuous
execution
TOP
Pulse
execution
32-bit instruction (17 STEPS)
DTO
Continuous
execution
DTOP
Pulse
execution
Flag: When M1083=On, it allows
to insert interrupt during
FROM/TO.
Refer to following for detail.
Command
Explanation
: the number of special module.
: the number of CR (Control Register)
of special module that will be wrote in.
: the data to write in CR.
: the
data number to write in one time.
DVP-series PLC uses this instruction to write data into CR of special module.
: When assigning bit operand, K1~K4 can be used for 16-bit and K5~K8 can
be used for 32-bit.
Program
Example
Using 32-bit instruction DTO, program will write D11 and D10 into CR#3 and
CR#2 of special module#0. It only writes a group of data in one time (n=1).
The instruction will be executed when X0=On and it won't be executed when
X0=Off. The data that wrote in previous won't have any change.
X0
K0
K2
D0
DTO
K1
Footnote
The rule of instruction operand:
m1: arrangement number of special module. The number of special module
that connects to PLC MPU. The numbering order of special module from the
near to the distant of MPU is from 0 to 7. The maximum is 8 special modules
and won't occupy I/O point.
m2: the number of CR. Built in 16-bit of 49 groups memory of special module
is called CR (Control Register). The number of CR uses decimal digital
(#0~#48). All running status and setting values of special module has
included.
If using FROM/TO instruction, the unit of read/write of CR is one number for
one time. If using DFROM/DTO instruction, the unit of read/write of CR is two
numbers in one time.
CR #10
CR #9
Upper 16-bit Lower 16-bit
Specified CR number
(Access16-bit if n=2, or 32-bit if n=1. Same controlled registers are accessed).
D0
D1
D2
D3
D4
D5
CR #5
CR #6
CR #7
CR #8
CR #9
CR #10
D0
D1
D2
D3
D4
D5
CR #5
CR #6
CR #7
CR #8
CR #9
CR #10
Specified device
Specified CR
Specified device Specified CR
16-bit command when n=6
32-bit command when n=3
In ES series models, flag M1083 is not provided. When FROM/TO instruction is
executed, all interrupts (including external or internal interrupt subroutines) will be
disabled. All interrupts will be executed after completing FROM/TO instruction.
Besides, FROM/TO instruction also can be executed in the interrupt subroutine.
The function of the flag M1083 (FROM/TO mode exchange) provided in EP/EH
series models:
a. When M1083=Off, all interrupts (including external or internal interrupt
subroutines) will be disabled when FROM/TO instruction is executed. The
Interrupts will resumed after FROM/TO instruction complete. Please be
advised FROM/TO instruction can be executed in the interrupt subroutine.
b. When M1083=On, if an interrupt enable occurs while FROM/TO
instruction are executing, the interrupt FROM/TO instruction will be
blocked till the requested interrupt finish. Unlike M1080 off situation,
FROM/TO instruction cannot be executed in the interrupt subroutine.