Delta Electronics Dtc1000 Series Users Manual 5011635004 DCE4
Delta-Dtc1000-Series-Users-Manual-245024 delta-dtc1000-series-users-manual-245024
DTC1000 Series to the manual ddc5a879-79f5-43c6-a36d-d2b952b7521b
2015-01-24
: Delta-Electronics Delta-Electronics-Dtc1000-Series-Users-Manual-339138 delta-electronics-dtc1000-series-users-manual-339138 delta-electronics pdf
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Product Profile & Outline
Output
3.0
DTC1000R/V/C/L
http://www.delta.com.tw/industrialautomation/
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
DTC 1
Series name
1
Controller position
2
Auxiliary output
groups
3
5
4
Optional
Main output type
2
3
4
5
DTC: Delta C series temperature controller
1: First controller
2: Controller connected in parallel
0: standard, 2 outputs, no auxiliary output
1: 1 auxiliary output. Not available now.
2: 2 auxiliary outputs. Not available now.
00: Standard
01: CT input. Not available now.
02: EVENT input. Not available now.
R: Relay output SPST, 250VAC, 3A
V: Voltage pulse output 12V +10% ~ -20%
C: Current output 4 ~ 20mA
L: Linear voltage output 0 ~ 10V
Enclosed functions: DC24V input, 2 outputs, relay output for output 2, RS-485 communication.
Function & Specification
Power supply
Voltage range
Power consumption
DC24V. Isolated switching power
Rated voltage: 90% ~ 110%
Rated 24 VDC, Max. 24 W combined, 3W + 3W x number of DTC2000 controllers (Max. 7)
Thermocouple: K, J, T, E, N, R, S, B, L, U, TXK
Input sensors
Platinum RTD: Pt100, JPt100
Linear DC input: 0 ~ 5V, 0 ~ 10V, 0 ~ 20mA, 4 ~ 20mA, 0 ~ 50mV
Sampling rate
Analog input: 0.15 sec. Thermocouple or platinum RTD: 0.4 sec.
Control method
PID , programmable PID, Manual, ON/OFF
Relay: SPST, Max. load 250VAC, 3A resistive load
Voltage pulse: 12VDC, Max. output current: 40mA
Output types
Current: DC 4 ~ 20mA (Load resistance: < 500Ω)
Analog voltage: 0 ~ 10V (Load resistance: > 1,000Ω)
Control output, alarm output, proportional output
Output function
Proportional output is available only when output 1 is linear voltage/current output.
Alarm
12 alarm modes
Communication
RS-485 digital communication, 2,400bps ~ 38,400bps
Communication protocol Modbus protocol, ASCII/RTU format
Internal connection
Internal terminals available to transmit 24V power supply and communication signals
Vibration resistance
10 ~ 55Hz, 10m/s2 for 10mins, each in X, Y and Z direction
Shock resistance
Max. 300m/s2, 3 times in each 3 axes, 6 directions
Ambient temperature
0 ~ 50°C
Storage temperature
-20 ~ +65°C
Altitude
< 2,000m
Ambient humidity
35% ~ 85% RH (non-condensing)
Pollution degree
2
13
9
3
4.0
3.4
60.0
3.0
3
25.2
Model Name Explanation
90.0
2
DANGER! Caution! Electric Shock!
DTC1000/2000 series is an OPEN-TYPE device and therefore should be installed in an enclosure free of airborne
dust, humidity, electric shock and vibration. The enclosure should prevent non-maintenance staff from operating the
device (e.g. key or specific tools are required to open the enclosure) in case danger and damage on the device may
occur.
WARNING!
Prevent dust or metallic debris from falling into the controller that will cause malfunction. DO NOT modify or
disassemble the controller. DO NO use extra terminals.
Do not install and/or use the controller in places subject to:
dust or corrosive gases and liquid high humidity and high radiation vibration and shock
Switch off the power when wiring or changing input sensors.
Be sure to use compensating wires that match the thermocouple types when extending or connecting the
thermocouple wires.
Shorten the wire when wiring a platinum resistance thermometer (RTD) to the controller, and separate power cable
from load wires to prevent interference and conductive influence.
Make sure the power cable and signals device are installed correctly before switching on the power of
DTC1000/2000; otherwise serious damage may occur.
DO NOT touch the terminals or repair the controller when the power is on to prevent electric shock.
Wait at least one minute after the power is off to allow the capacitor to discharge. DO NOT touch any internal circuit
within this period.
DO NOT touch the internal terminals no matter the power is on or off.
DO NOT place other heating source (e.g. power supply) in parallel with DTC1000/2000 during the installation.
Please keep proper space in between.
12
10
3.0
Caution
11
8
DTC2000R/V/C/L
1
2
3
4
5
6
7
8
9
10
5
3
4
6
10
7
9
1
8
2
2
25.2
3.4
60.0
RUN/STOP switch
Wiring and Model name
DIN rail clip
I/O terminals
LED indicators
Mounting hole
Specification label
Extension port
Extension clip
DIN rail
RS-485 communication port
Extension clip
DC power input
90.0
Thank you very much for purchasing DELTA DTC1000/2000 Series Temperature Controller. Please read this
instruction sheet before using your DTC1000/2000 series to ensure proper operation, and please keep this instruction
sheet handy for quick reference.
7
1
3.0
Instruction Sheet
4
5
4.0
Temperature Controller
6
1
2
3
4
5
6
7
8
9
10
11
12
13
Output
100%
100%
Cooling
Heating
0
0
PV
Figure 2: PID Control, Cooling) Control
Figure 3: PID Control, Heating Control
y Dual Output Control
Deadband
Heating hysteresis
Cooling hysteresis
ON
Heating
Wiring and Model name
DIN rail clip
I/O terminals
LED indicators
Mounting hole
Specification label
Extension port
Extension clip
DIN rail
Extension port
Cooling
OFF
PV
Set Point
Figure 4: ON/OFF Control
Deadband: Dead
Bandwidth: Positive
Output
Heating
Input
Deadband: Dead
Bandwidth: Negative
Output
Cooling
Cooling
Heating
PV
0
PV
0
Set Point
DTC1000/2000 series supports the following input sensors:
Input Sensor
Set Point
Figure 5: PID control
Register Value
PV
Set Point
Set Point
Available Range
Figure 6: PID Control
0 ~ 50mV linear voltage input
17
0 ~ 50mV
y Programmable PID Control & Parameters Setting
4 ~ 20mA linear current input
16
4 ~ 20mA
0 ~ 20mA linear current input
15
0 ~ 20mA
The programmable PID control includes 8 patterns (Pattern 0 ~ 7). Each pattern contains 8 steps (Step 0 ~ 7) and
parameters: “link pattern”, “cycle” and “the number of steps”.
0 ~ 10V linear voltage input
14
0 ~ 10V
0 ~ 5V linear voltage input
13
0 ~ 5V
Platinum RTD (Pt100)
12
-200 ~ 600°C (-328 ~ 1,112°F)
Platinum RTD (JPt100)
11
-20 ~ 400°C (-4 ~ 752°F)
Thermocouple TXK type
10
-200 ~ 800°C (-328 ~ 1,472°F)
Thermocouple U type
9
-200 ~ 500°C (-328 ~ 932°F)
Thermocouple L type
8
-200 ~ 850oC (-328 ~ 1562°F)
°
Start Pattern: The user can set up which pattern is the start pattern for the programmable control.
°
Thermocouple B type
7
100 ~ 1,800 C (212 ~ 3,272 F)
Thermocouple S type
6
0 ~ 1,700°C (32 ~ 3,092°F)
Thermocouple R type
5
0 ~ 1,700°C (32 ~ 3,092°F)
Thermocouple N type
4
-200 ~ 1,300°C (-328 ~ 2,372°F)
Thermocouple E type
3
0 ~ 600°C (32 ~1,112°F)
Thermocouple T type
2
-200 ~ 400°C (-328 ~ 752°F)
Thermocouple J type
1
-100 ~ 1,200°C (-148 ~ 2,192°F)
Thermocouple K type
0
-200 ~ 1,300°C (-328 ~ 2,372°F)
Note 1: The current input is built-in with 249Ω precision resistor. See “How To Set up Current Input” section.
Note 2: Default setting: Pt100 input.
The range of linear input and feedback value is adjustable. Range of input feedback: -999 ~ 9,999. Take 0 ~ 20mA input
as example, -999 refers to 0mA input, and 9,999 refers to 20mA input. If we change the range to 0 ~ 2,000, 0 will refer to
0mA input, and 2,000 will refer to 20mA input. 1 display scale = 0.01mA.
Output
There are several output types available from DTC1000/2000 series: Control Output (heating/cooling), Alarm Output
and Proportional Output.
Steps: Includes the settings of the two parameters, set point X and execution time T, indicating that the set point (SV)
has to rise to temperature X after the period of execution time T. If the result of the set point X is the same as that of
the previous setting, the process is called “Soak”; otherwise, it is called “Ramp”. Therefore, the programmable control
is also known as Ramp/Soak control. The default setting of the first step is Soak control. The temperature will first rise
to the set point X and remain at X. The total execution time is T.
Link Pattern: The pattern to be executed following the current pattern. If the setting is not 0 ~ 7, the set point will
remain at the last pattern.
Cycle: The additional number of cycles for a pattern. For example, if the parameter is set to 2, it refers to the pattern
has to execute additional twice, totaling the execution to 3 times including the original one.
The Number of Steps: The number of steps in each pattern (range: 0 ~ 7). For example, if the parameter is set to 2,
it refers to the pattern will execute Step 0 ~ Step 2, and other steps will not be executed.
The Execution: Available settings include “run”, “program hold”, “program stop” or “stop”.
1. When this parameter is set to “run”, the program will start its execution from step 0 of the start pattern.
2. When this parameter is set to “program hold”, the program will stop and the temperature will stop at the SV before
the program stops. If the user sets to “run” again, the program will resume the step before the program stops and
execute by the remaining time.
3. When this parameter is set to “program stop”, the program will stop and the temperature will stop at the SV before
the program stops. If the user sets to “run” again, the program will execute again from Step 0 of the start pattern.
4. When this parameter is set to “stop”, the program will stop, and the control output will be disabled.
Proportional Output:
If Output 1 of this DTC1000/2000 series is linear voltage or current, the user can set it to “Proportional Output”.
Proportional output refers to the output varies with the input. For example, if the input range is set to 0 ~ 1,000, and
when the input value is 0, the output will be 0mA or 0V. When the input value is 1,000, the output will be 20mA or 10V.
Output
y Control Output
10V or 20mA
10V or 20mA
DTC1000/2000 series offers 2 outputs for heating or cooling control. If you require dual loop output, the 2 outputs
should be set to different actions (heating or cooling). If you require the 2 outputs are set to the same control action, only
the control cycle of output 1 will be valid, and the 2 outputs will act at the same time.
PV
PV Low
y Single Output Control
Cooling hysteresis
Positive output slope
Negative
output slope
0V or 4mA
The control methods include: PID control, ON/OFF control, Manual control and programmable PID control.
Heating hysteresis
Output
0V or 4mA
PV High
PV
PV Low
PV High
Figure 7: Proportional Output
y Alarm Output
ON
Heating
DTC1000/2000 series offers 12 alarm modes. When the PV exceeds or falls below SV, the alarm output will be enabled.
See the table below for the 12 modes.
Cooling
PV
OFF
Set Point
Set Point
Figure1: ON/OFF Control
Mode
0
1
Alarm Type
No alarm
Alarm output will be enabled when the temperature reaches upper and lower
limits.
y Alarm will be enabled when the PV exceeds SV + AL-H or falls below SV –
AL-L.
Alarm Output Operation
OFF
ON
OFF
AL-L
SV
AL-H
Mode
Alarm Type
2
Alarm output will be enabled when the temperature reaches the upper limit.
y Alarm will be enabled when the PV exceeds SV + AL-H.
Alarm Output Operation
4
SV
AL-L
8
AL-H
ON
OFF
AL-L
AL-H
ON
OFF
Present temperature value (PV)
AL-H
1001H
0
1002H
Explanation
Unit: 0.1 degree. Analog input: 1EU.
The read values below indicate the occurrence of errors:
8002H: Temperature not acquired yet
8003H: Temperature sensor not connected
8004H: Incorrect sensor type
8006H: Unable to acquire temperature, ADC input error
8007H: Unable to read/write the memory
’:’
‘0’
Machine address 1
‘0’
‘0’
Machine address 1
‘0’
‘0’
Machine address 0
‘1’ ‘1’
Machine address 0
‘1’
‘1’
Machine address 0
‘1’
‘1’
Machine address 0
‘1’
‘1’
Command 1
‘0’ ‘0’
Command 1
‘0’
‘0’
Command 1
‘0’
‘0’
Command 1
‘0’
‘0’
Command 0
‘3’ ‘1’
Command 0
‘3’
‘1’
Command 0
‘6’
‘5’
Command 0
‘6’
‘5’
‘1’ ‘0’ Length of response data ‘0’
(byte)
‘4’
Read staring address of ‘0’ ‘8’
data/bit
‘0’ ‘1’
‘0’
‘0’
‘1’
‘0’
‘1’
‘0’
‘2’
‘0’
‘8’
‘0’
‘8’
‘0’
‘1’
‘0’
‘1’
‘0’
1004H
12
Input sensor type
See the table in “Input” section.
1005H
0
Control method
0: PID, 1: ON/OFF, 2: Manual, 3: programmable PID
1007H
4
Control cycle of Output 1
0 ~ 99, 0: 0.5sec
‘0’ ‘0’
1008H
4
Control cycle of Output 2
0 ~ 99, 0: 0.5sec (Invalid when the 2 outputs are the same
control.)
‘0’ ‘0’
OFF
Start word
’:’
’:’
Start word
’:’
’:’
Data content in
1000H/081xH
‘0’
‘1’
‘F’
‘0’
‘0’
‘F’
‘0’ ‘F’
‘1’
‘3’
‘F’
‘E’
‘0’
‘4’
‘0’
‘E’ ‘D’
Td value
0 ~ 9,999
0
Default integration value
0 ~ 1,000, Unit: 0.1%
LRC1 check
100DH
0
Offset compensation value for proportional
control (when Ti=0))
0 ~ 1,000, Unit: 0.1%
LRC0 check
‘A’ ‘D’
100EH
100
COEF setting when in dual control output
1 ~ 9,999, Unit: 0.01
End word 1
CR CR
LRC1 check
100FH
0
Deadband setting when in dual control
output
-999 ~ 9,999, Unit: 0.1° or 1EU
End word 0
LF LF
1010H
0
Hysteresis of Output 1
0 ~ 9,999, Unit: 0.1° or 1EU
‘2’ ‘9’
Data content in 1001H
Write data address
‘1’
‘0’ ‘0’
41
Write data address
‘7’
‘0’ ‘0’
100BH
‘1’
‘1’
Read length of data/bit
(word/bit)
100CH
AL-H
ON
’:’
‘0’
The content shall not be smaller than the range. Unit: 0.1°
1 ~ 9,999, Unit: 0.1°. Analog input: 1EU
AL-H
Start word
Machine address 1
Lower-limit of temperature range
0 ~ 9,999
Write Response Message
‘0’ ‘0’
-200
Proportional band value
Write Command
Machine address 1
1003H
Ti value
SV
’:’
The content shall not be bigger than the range. Unit: 0.1°
476
AL-L
’:’
Upper-limit of temperature range
260
OFF
Read Response Message
Start word
6,000
1009H
AL-L
Read Command
Unit: 0.1 degree. Analog input: 1EU.
100AH
ON
y ASCII Mode
Set point (SV)
ON
SV
Lower limit standby alarm
y Alarm will be enabled when the PV reaches SV and falls below SV – AL-L
10
SV
ON
OFF
Upper limit standby alarm
y Alarm will be enabled when the PV reaches SV and exceeds SV + AL-H.
9
1000H
SV
ON
OFF
Alarm output will be enabled when the temperature reaches the absolute
value of the upper and lower limits.
y Alarm will be enabled when the PV exceeds AL-H or falls below AL-L.
Alarm output will be enabled when the temperature reaches the absolute
value of the upper limit.
y Alarm will be enabled when the PV exceeds AL-H.
Alarm output will be enabled when the temperature reaches the absolute
value of the lower limit.
y Alarm will be enabled when the PV falls below AL-L.
Standby upper/lower limit alarm
y Alarm will be enabled when the PV reaches SV and exceeds SV + AL-H or
falls below SV – AL-L.
7
Content
OFF
AL-L
6
AL-H
ON
y Alarm will be enabled when the PV is between SV + AL-L and SV – AL-L.
5
Setting
OFF
Alarm output will be enabled when the temperature reaches the lower limit.
y Alarm will be enabled when the PV falls below SV – AL-L.
3
Address
ON
To write data content
‘0’
‘0’
LRC1
‘0’
LRC0
‘8’
‘0’
‘F’
‘E’
‘D’
‘3’
Write data content
‘3’ ‘F’
‘E’ ‘0’
‘8’
LRC1
LRC0
‘D’ ‘3’
‘0’
‘E’
End word 1
CR CR
End word 1
CR CR
LRC0 check
‘3’
‘4’
End word 0
LF
End word 0
LF LF
End word 1
CR CR
End word 0
LF LF
LF
1011H
0
Hysteresis of Output 2
0 ~ 9,999, Unit: 0.1° or 1EU
1012H
0
Read/write output percentage of Output 1
Unit: 0.1%. “Write” is only applicable in manual mode.
ON
1013H
0
Read/write output percentage of Output 2
Unit: 0.1%. “Write” is only applicable in manual mode.
y LRC Check
OFF
1014H
0
Upper-limit regulation for analog linear output
1 scale = 2.8μA = 1.3mV
1015H
0
Lower-limit regulation for analog linear output
1 scale = 2.8μA = 1.3mV
LRC check sums up from “machine address” to “data content”, e.g. 01H + 03H + 10H+ 00H + 00H + 02H = 16H. Obtain 2’s
complement EA.
1016H
0
Temperature offset regulation value
-999 ~ +999, Unit: 0.1° or 1EU
1020H
0
Output mode for Alarm 1
See “Alarm Output” section.
1021H
0
Output mode for Alarm 2
See “Alarm Output” section.
Note: AL-H and AL-L include AL1H, AL2H, AL1L and AL2L. When Output 1 is set to Alarm Output, use AL1H (1024H) and AL1L
(1025H). When Output 2 is set to Alarm Output, use AL2H (1026H) and AL2L (1027H).
1022H
0
Communication flag auto-set
0: Communication banned, 1: Communication auto-set
1024H
40
Upper limit for Alarm 1
See “Alarm Output” section.
LED Display
1025H
40
Lower limit for Alarm 1
See “Alarm Output” section.
1026H
40
Upper limit for Alarm 2
See “Alarm Output” section.
1027H
40
OFF
AL-L
Upper limit hysteresis alarm
y Alarm will be enabled when the PV exceeds SV + AL-H and disabled when
the PV falls below SV + AL-L.
Lower limit hysteresis alarm
y Alarm will be enabled when the PV falls below SV – AL-H and disabled
when the PV exceeds SV – AL-L.
11
12
SV
AL-L
AL-H
ON
OFF
AL-H
AL-L
1. When power is normal, POWER LED will be on.
2. After DTC1000/2000 is switched on, all LED will be on. The communication protocol will be displayed in 1 second,
followed by the communication address in the next second.
3. RUN LED is on when the control is executing.
4. ERROR LED is on when errors occur in input, memory or communication.
5. When an output is executing, its corresponding output LED will be on.
6. AT LED flashes when PID parameters are being auto-tuned.
7. RX LED flashes when DTC1000/2000 receives communication signals. TX LED flashes when DTC1000/2000
sends out communication signals.
TX
RX
000: 2,400bps 001: 4,800bps
011: 19,200bps 100: 38,400bps
O1
010: 9,600bps
Parity
00: None
10: Odd
O2
01: Even
Err
0: ASCII
1: RTU
Run
0:2 Stop bits
1:1 Stop bit
Communication address display: AT (bit 6) and Run (bit 0) are combined to binary code.
Password Function
The default setting of the password is disabled. To enable the password function, enter the 4-character password in the
specific communication address. The password is protected by 3 levels.
1. Level 1: Only LED status, SV and PV can be read. No settings can be modified.
2. Level 2: Only LED status, SV and PV can be read. Only SV can be modified.
3. Level 3: All SV can be read. Only SV and auto-tuning can be modified.
4. Level 4: No password protection.
When a password is set (in 106EH ~ 1070H), the protection will enter Level 1. To enter other levels, enter the
corresponding password (in 106BH ~ 106DH). After DTC1000/2000 is switched off, the protection will return to Level 1.
To unlock the password protection, the user has to remove all the passwords (in 106EH ~ 1070H).
The password protection level can be read in 106EH ~ 1070H:
bit
b0
b1
b2
b3
b4
b5
b6
Status
Level 1
Level 2
Level 3
Level 1 locked
Level 2 locked
Level 3 locked
Unlocked
bit = 0 refers to no password is set. bit = 1 refers to the password has been set (b0 ~ b2). b3 ~ b6 display the current level status.
Synchronous Communication Protocol & Auto ID Setup
This function allows the user to set the communication protocol of DTC2000 to the same protocol as set in the first
DTC1000. The station IDs of DTC1000/2000 are arranged in decreasing order. Follow the steps below.
1. Set the auto communication ID of DTC1000 to “1” (communication address: 1022H).
2. Switch off DTC1000 before connecting it to DTC2000. Switch it on again.
3. Default communication protocol: 9,600bps, 7 bits, Even, 1 stop bit, communication address 01.
4. This function will consume 3 ~ 5 seconds more when you switch on your DTC.
RS-485 Communication
1.
2.
3.
4.
See “Alarm Output” section.
b1: ALM2, b2: °C, b3: °F, b4: ALM1, b5: O2, b6:O1, b7: AT
Positive/negative proportional output
0: positive, 1: negative
LED status
b0: RUN, b1: ERR, b2: O2, b3: O1, b4: RX, b5:TX b6: AT
Software version
V1.00 is indicated as 0x100
No. of start pattern
0~7
1032H
Remaining time of the executed step
1033H
Remaining time of the executed step
1034H
No. of currently executed step
0~7
102CH
0
102EH
102FH
1030H
0
Supports transmission speed: 2,400, 4,800, 9,600, 19,200, 38,400bps;
Does not support 7, N, 1 / 8, E, 2 / 8, O, 2 communication format;
Communication protocol: Modbus ASCII/RTU;
Function code: 03H (read Max. 8 words in register), 06H (write 1 word into register), 01H (read Max. 16 bits of
data), 05H (write 1 bit into register).
y RTU Mode
Read Command
Read Response Message
Write Command
01H
01H
Machine address
01H 01H
Machine address
01H 01H
Machine address
01H 01H
Command
03H
01H
Command
03H 01H
Command
06H 05H
Command
06H 05H
Read start address
of data
10H
08H
00H
10H
Length of response
04H 02H
data (byte)
Read length of data 00H
(bit/word)
02H
00H
01H 17H
Data content 1
09H
CRC low byte
C0H BBH
CRC high byte
CBH A9H
Data content 2
F4H 01H
Write data address
Write data content
E2H 9FH
CRC high byte
E2H 9FH
CRC high byte
15H 88H
0~7
y CRC Program Example
0 ~ 100% upper limit of analog output, Unit: 0.1%
1038H
0
Lower limit of proportional output
0 ~ 100% lower limit of analog output, Unit: 0.1%
unsigned int reg_crc = 0xffff; i = 0;
while (length--)
{
reg_crc ^= RTUData[i];
i ++;
for (j = 0; j < 8; j++)
{
if (reg_crc & 0x01)
reg_crc = (reg_crc >> 1) ^ 0xA001;
else
reg_crc = reg_crc >> 1;
}
}
return(reg_crc);
1040H~
1043H
7
Number of steps in a pattern
0 ~ 7 = N refers to the pattern will be executed from Step 0
to Step N.
1050H~
1053H
0
Additional number of cycles for a pattern
0 ~ 199 refers to the pattern will be executed for 1 ~ 200
times.
1060H~
1063H
0
No. of the link pattern for the current
pattern
0 ~ 8, 8 refers to end of the program. 0 ~ 7 refers to the
next pattern No. following the current pattern.
1068H
1
Run/Stop setting
0: Stop, 1: Run, 2: Program end, 3: Program hold
1069H
0
Control selection of Output 1
0: Heating, 1: Cooling, 2: Alarm, 3: Proportional output
106AH
0
Control selection of Output 2
0: Heating, 1: Cooling, 2: Alarm
106BH
0
Unlock Level 1 password protection.
Read/write allowed
Shall be the same as Level 1 password (106E)
106CH
0
Unlock Level 2 password protection. Use
Level 3.
Shall be the same as Level 2 password (106F)
Installation
0
Unlock Level 3 password protection. Use
Level 2
Shall be the same as Level 3 password (1070)
How to connect maximum 8 DTC1000/2000 controllers by using DIN rail.
0
Unlock Level 1 password protection/Set up
password
Unlock password before setting it up.
0
Unlock Level 2 password protection/Set up
password
Unlock password before setting it up.
1070H
0
Unlock Level 3 password protection/Set up
password
Unlock password before setting it up.
1071H
1
Read/write communication address
1 ~ 247
1072H
0
Read/write communication format
1: RTU, 0: ASCII
1073H
2
Read/write communication speed
0 ~ 4: 2,400 ~ 38,400
1074H
1
Read/write communication data length
0: 8 bits, 1: 7 bits
1075H
1
Read/write parity bit
0: None, 1: Even, 2: Odd
1076H
1
Read/write stop bit
0: 2 stop bits, 1: 1 stop bit
2000H~
203FH
0
SV temperature for Pattern 0 ~ 7.
SV for Pattern 0 is set in 2000H ~ 2007H
Unit: 0.1°
2080H~
20BFH
0
Execution time for Pattern 0~7.
Time for Pattern 0 is set in 2080H ~ 2087H
0 ~ 900 (1 scale = 1 minute)
How to Set Up Current Input
For general input
0:°F, 1: °C (Default)
0813H
Read/write auto-tuning status
0: End (Default), 1: Start
0814H
Run/Stop setting
0: Stop, 1: Run (Default)
0815H
Program hold flag
1: Program hold
0816H
Program stop flag
1: Program stop
6. Communication format: Command 01: read bit, 05: write bit, 03: read word, 06: write word.
20H 00H
CRC high byte
Unit: minute
Temperature unit display
03H FFH
20H
Unit: second
0811H
Write data content
01H 10H
DDH 8FH
BBH 77H
5. Address and content of the bit register (read bits are stored starting from LSB, and written data is FF00H, set the
bit as 1. 0000H sets the bits data to “0”).
20H 00H
10H 08H
CRC low byte
CRC low byte
03H FFH
Write data address
DDH 8FH
No. of currently executed pattern
106FH
01H 10H
CRC low byte
Upper limit of proportional output
106EH
10H 08H
03H
1,000
106DH
Write Response Message
Machine address
1037H
1035H
Communication protocol displayed on LED after the power of DTC1000/2000 is switched on:
AT
Lower limit for Alarm 2
Read/write status
102AH
‘0’
‘F’ ‘E’
For current input (4 ~ 20mA, 0 ~ 20mA)
JU MP ER
JP1
J UMP E R
P IN HE A DE R
JP1
P IN HE A DE R
DE FA U LT SE TTI NG
The content of this instruction sheet may be revised without prior notice. Please consult our distributors or
download the most updated version at http://www.delta.com.tw/industrialautomation
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