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TEMP2000 - SERIES
TEMP2700
TEMP2500
TEMP2300
COMMUNICATION MANUAL
Programmable Controller
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SAMWONTECH
※ This manual applies to TEMP2300, TEMP2500 and TEMP2700.
※ The model stated the manual content is TEMP2500.
Contents
1. Safety Precautions …………………………………………………………………………………………… 1
2. Communication Specifications ………………………………………………………………………………………… 3
3. Communication Setting ………………………………………………………………………………………………… 4
4. Wiring for Communication ……………………………………………………………………………………………… 5
5. Communication Command ………………………………………………………………………………………………… 7
6. MODBUS Protocol ………………………………………………………………………………………………………… 18
7. D-REGISTER Description ……………………………………………………………………………………………… 24
▪ D-REGISTER table …………………………………………………………………………………………………… 50
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SAMWONTECH
1. Safety Precautions
Thank you for purchasing TEMP2500, programmable controller.
This Communcation Manual describes communication of the TEMP2500 controller.
SAFETY SYMBOL MARK음
음
(A) Symbolizes ‘Caution’ and ‘Warning’. The information with this symbol is especially
(B) Symbolizes ‘Protective Earth (PE) Terminal.’
(C) Symbolizes ‘Supplementary Explanation.’
(D) Symbolizes ‘Reference.’
☞ This symbol indicates further information and page to refer.
important for preventing from user injury and protecting the product and system.
(1) Product : This symbol indicates an imminently hazardous situation which if not
avoided, will result in serious injury or system damage.
(2) Communication Manual : This symbol indicates potential hazard that may cause personal
This symbol indicates that the terminal must be connected to the Ground prior to
operating.
The information with this symbol describes additional explanation for features.
injury by electrical shock.
음Precautionary Remarks on this Communication Manual음
(A) This manual should be passed on the End- User and kept at a suitable place for easy review in
time.
(B) Read and understand this Communication Manual carefully before using the product.
(C) This Communication Manual describes functions and features of the product in detail, and
SAMWONTECH can not guarantee against over applications would suit a customer’s particular
purpose which is not described in this manual.
(D) Unauthorized duplication and modification of this Communication Manual are strongly
prohibited.
(E) The contents of this manual may be modified without prior notice.
(F) If any errors or omissions in this manual should come to the attention of the user, feel free
to contact our sales representatives or our sales office.
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SAMWONTECH
음Precautions for Safety and Unauthorized Modification음
(A) For protecting and ensuring the safety of this product and relevant system, all of the safety
instructions and precautions should be well recognized and strictly observed by all users.
(B) SAMWONTECH does not guarantee against damage resulting from unauthorized alteration, misuse,
or abuse.
(C) When using additional safety circuit or part such as Noise Filter to protect this product and
relevant system, it is strongly required to install that to outside of this product.
Additional installation and modification inside of this product are prohibited.
(D) Do not try to disassemble, repair, or modify the product. It may become the cause of a trouble
such as malfunction, electric shock, fire.
(E) Contact our sales dept. for part replacement or consumables.
(F) Keep the product away from water inflowing. This may become a critical cause of trouble.
(G) External shock on the product may lead to damage and malfunction.
음 Limitation of Liability음
(A) SAMWONTECH does not guarantee or accept responsibility for this product other than the clauses
stated in our warranty policy.
(B) SAMWONTECH assumes no liability to any party for any loss or damage, direct or indirect,
caused by the use or any unpredictable defect of the product.
음 Warranty Policy음
(A) Warranty term of this TEMP2500 is one year after delivery to the first purchaser for being
free of defects in materials and faulty workmanship under the condition that the product has
been applied according to this manual.
(B) The repairing cost will be charged for defective product out of warranty period. This charge
will be the actual cost estimated by SAMWONTECH.
(C) Repairing cost may be charged even if within warranty period for following cases.
(1) Damage due to USER FAULT (Ex.: Product initialization by password loss).
(2) Damage due to natural disaster (Ex.: fire, flood).
(3) Damage due to additional removal and re-installation after the first one.
(4) Damage due to unauthorized disassembles, modification and alternation.
(5) Damage due to unexpected power failure caused unstable power supply.
(6) Others
(D) If any A/S is required, feel free to contact our sales office or a representative.
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SAMWONTECH
2. Communication Specification
The TEMP2500 controller provides Half-Duplex method support on RS232C and RS485 communication interface.
- RS232C interface supports 1:1 direct communication between host computer on network system and TEMP2500.
- RS485 interface supports to connect upper level network system with up to 31 slave TEMP2500 controller.
█ Parameters for communication setting
Parameter Range Description
PCLINK Default protocol
PROTOCOL
SPEED (BPS)
PARITY
STOP BIT
DATA LENGTH
ADDRESS 1~99 Address
RESPONSE TIME 0~10 RESPONSE TIME(=PROCESS TIME+SPONSE TIME*10msec)
SYNC MASTER
■ Factory default value
• PROTOCOL PCLINK+SUM(PCLINK+CheckSum)
• BPS 9600 bps
• PARITY NONE
• STOP BIT 1 (1 bit)
• DATA LENGTH 8 (8 bits)
• ADDRESS 1
• RESPONSE TIME 0 (PROCESS TIME+10msec)
• SYNC MASTER OFF
PCLINK+SUM Default protocol + CheckSum
MODBUS ASC MODBUS ASCII
MODBUS RTU MODBUS RTU
9600 9600 bps
19200 19200 bps
38400 38400 bps
57600 57600 bps
115200 115200 bps
NONE None Parity
EVEN Even Parity
ODD Odd Parity
1 1 bit
2 2 bits
7 7 bits
8 8 bits
OFF OFF
ON ON
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SAMWONTECH
3. Communication setting
TEMP2500 provides flexible communication interface RS232C or RS485 from Control Unit directly.
▶ After detaching BACK COVER from Control Unit shown as [Figure-1], communication interface between RS232C
and RS485 can be selected with socket and pin-header on power board of Control Board.
▶ It is recommended to use tool like tweezers for setting socket to pin-header correctly.
☞ Make sure setup completed correctly.
Control Unit
BACK COVER
ⓑ Pull down
[Figure-1] Control Unit
[Figure-2] Communication Interface setting
▶ Do not disassemble Power board from Control Unit case during setting comm. interface.
▶ It is recommended to use tool like tweezers for setting comm. interface.
▶ Make sure setup completed correctly.
ⓐ Push
Socket
Pin-Header
RS232C
Power board
RS485
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SAMWONTECH
4. Wiring for Communication
Connector wiring between TEMP2500 and network system depends on communication interface setting
(RS232C/RS485)
█ Modular Connector Pin-Mapping for COM2 port
6
5
4
3
2
1
6
5
4
3
2
1
█ Description of Modular Connector Pin-Mapping for COM2 port
PIN no.
1 Transmit Data TxD Receive/Transmit Data - RTX2 Receive Data RxD Receive/Transmit Data + RTX+
3 Signal Ground SG Signal Ground SG
4 - - - 5 - - - 6 - - - -
.
RS232C
SG
RxD
TxD
RS485
SG
RTX+
RTX-
RS232C RS485
Signal Symbol Signal Symbol
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SAMWONTECH
Tx
R
x
SG
SHI
R
T
RTS
CTS
SG
RTX
RTX
SG
RTX
RTX
SG
█ 6 Pin connector wiring for RS232C interface
█
TEMP2500(COM2)
D
①
D
②
③
Shielded Cable
6 Pin connector wiring for RS485 interface
TEMP2500(COM2)
-
①
+
②
③
Shielded Cable
Up to 31 slave TEMP2500 controllers can be connected to a master device by multi-drop networking.
☞
☞ Make sure to install 200Ω(1/4W) resistor on Last Leg at both end of terminal Slave and Master(PC, PLC).
TEMP2500(COM2)
-
①
+
②
③
Master Station
D
②
D
③
⑦
⑧
⑤
○
ELD
Master Station
RTX-
RTX+
SG
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SAMWONTECH
5. Communication Command
5.1 The Frame Structure of standard protocol
The frame structure of protocol transmitting upper-level network system to TEMP2500
① ② ③ ④ ⑤ ⑥ ⑦ ⑧
STX Address Command , Data SUM CR LF
① Protocol Header
The beginning of communication command with STX (Start of Text), ASCII string with 0x02.
② Slave TEMP2500 Address
Slave unit address of TEMP2500.
③ Command
Function Command for communication. (Refer to 5.2 ~ 5.10).
④ Delimiter
Symbolize to separate Command and Data by Comma. (',')
⑤ Data
Formal text strings regulated by communication command rule.
⑥ Check Sum
-‘SUM' protocol is a more sophisticated one which includes Check Sum as an error check.
- Check Sum is calculated as following.
1) Add the ASCII code of characters from the character next to STX one by one up to the character prior to SUM
2) Represent the lowest one byte of the sum as a hexadecimal notation (2 characters).
⑦, ⑧ Protocol Tail
ASCII code to close communication command by indicating CR(0xOD) and LF(0xOA).
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█ Example for SUM
Example
◈
To read the consecutively D-Register from D0001 (NPV) to D0005 (MVOUT)
- Rrquest : [stx]01RSD,05,0001[cr][lf]
- Rrquest (with CheckSum) : [stx]01RSD,05,0001C8[cr][lf]
☞ As shown below, hexa decimal value adding each text at 01RSD,05,0001 by ASCII code is 2C8, and lower
digit 2 characters C8 will be used for CheckSum.
Text 0 1 R S D , 0 5 , 0 0 0 1
Ascii value 30 31 52 53 44 2C 30 35 2C 30 30 30 31
█ ASCII Table
High
Low
0 NUL DLE SPACE 0 @ P ` p
1 SOH DC1 ! 1 A Q a q
2 STX DC2 “ 2 B R b r
3 ETX DC3 # 3 C S c s
4 EOT DC4 $ 4 D T d t
5 ENQ NAK % 5 E U e u
6 ACK SYN & 6 F V f v
7 BEL ETB ‘ 7 G W g w
8 BS CAN ( 8 H X h x
9 HT EM ) 9 I Y i y
A LF SUB * : J Z j z
B VT ESC + ; K [ k {
C FF FS , < L ¥ l |
D CR GS - = M ] m }
E SO RS . > N ^ n ~
F SI US / ? O _ o DEL
+
0 1 2 3 4 5 6 7
2C8
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5.2 Type of Communication Command
Two types of commands are provided on TEMP2500. One is general READ/WRITE command to read and write
information on D-Register, and the other is Reference command to read self-information of TEMP2500.
▣ Reference Command
Command Description
AMI Displays model name and Version-Revision of TEMP2500
▣ Read/Write Command
Command Description
RSD Read data in consecutive D-Register in sequence (Read)
RRD Read data in arbitrary single D-Register (Read)
WSD Write data in consecutive D-Register in sequence (Write)
WRD Write data in arbitrary single D-Register (Write)
STD Register arbitrary single address to monitor (D-Register Monitoring Set)
CLD Read data in address registered by STD command (D-Register Monitoring Call)
☞ Each Command can read or write up to 64 D-Register and all of the SED/CLD data will be reset by power OFF,
so the data should be registered again.
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5.3 ERROR Response
When an Error occurs during communication, TEMP2500 transmits a frame as following.
bytes 1 2 2 2 2 1 1
Frame STX Address NG Error Code SUM CR LF
▣ Description of Error Code
Error Code Description Remarks
01 Invalid Command setting
02 Invalid D-Register setting
04 Data Setting Error
08 Invalid Format configuration
11 CheckSum Error
12 Monitoring Command Error No setup Monitoring Command
00 Other Errors
Invalid text data input
(Available 0~9, A~F : hexadecimals)
▪ Different command format with designated
▪ Differnet number of setting with designated
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SAMWONTECH
5.4 RSD Command
RSD Command is used to read data in a part of D-Register by consecutive address in sequence.
▣ Request Message Frame
bytes 1 2 3 1 2 1 4 2 1 1
Frame STX Address RSD ,
▣ Response Message Frame
bytes 1 2 3 1 2 1 4 1 …
Frame STX Address RSD , OK , Data - 1 , …
Count
Number
, D-Reg. SUM CR LF
1 4 2 1 1
, Data - n SUM CR LF
▪ Count Number : 1 ~ 64
▪ Data : Hexa-decimal 16bit string 4 character with no decimal point
◈ Example
To read the D-Register FROM D0001 (NPV) TO D0003 (NSP)
- Request : [stx]01RSD,03,0001[cr][lf]
- Request (with CheckSum) : [stx]01RSD,03,0001C6[cr][lf]
([stx] = 0x02, [cr] = 0x0d, [lf] = 0x0a)
Response data will be same as below, when 50.0 of D0001 (NPV) and 30.0 of D0003 (NSP)
- Response : [stx]01RSD,OK,01F4,0000,012C[cr][lf]
- Response (with CheckSum) : [stx]01RSD,OK,01F4,0000,012C05[cr][lf]
※ Converting procedure 4digits hexadecimal response to decimal value.
① Radix conversion (Decimalize) : 01F4(hexadecimal) → 500(decimal)
② Multiply factor (decimal point) : 500 * 0.1 → 50.0
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SAMWONTECH
5.5 RRD Command
RRD Command is used to read data in arbitrary single D-Register.
▣ Request Message Frame
bytes 1 2 3 1 2 1 4 1 …
Frame STX Address RRD ,
▣ Response Message Frame
bytes 1 2 3 1 2 1 4 1 …
Frame STX Address RRD , OK , Data - 1 , …
Count
Number
, D-Reg.- 1 , …
1 4 2 1 1
, D-Reg.- n SUM CR LF
1 4 2 1 1
, Data - n SUM CR LF
▪ Count Number : 1 ~ 64
▪ Data : Hexa-decimal 16bit string 4 character with no decimal point
◈ Example
To read the D-Register D0001 (NPV) and D0003 (NSP)
- Request : [stx]01RRD,02,0001,0003[cr][lf]
- Request (with CheckSum) : [stx]01RRD,02,0001,0003B3[cr][lf]
Response data will be same as below, when 50.0 of D0001 (NPV) and 30.0 of D0003 (NSP)
- Response : [stx]01RRD,OK,01F4,012C[cr][lf]
- Response (with CheckSum) : [stx]01RRD,OK,01F4,012C18[cr][lf]
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SAMWONTECH
5.6 WSD Command
WSD command is used to write data to a part of D-Register by consecutive address in sequence.
▣ Request Message Frame
bytes 1 2 3 1 2 1 4 1 4
Frame STX Address WSD ,
▣ Response Message Frame
bytes 1 2 3 1 2 2 1 1
Frame STX Address WSD , OK SUM CR LF
Count
Number
1 … 1 4 2 1 1
, … , Data - n SUM CR LF
, D-Reg. , Data - 1
▪ Count Number : 1 ~ 64
▪ Data : Hexa-decimal 16bit string 4 character with no decimal point
◈ Example
To write data to the D-Register FROM D0115 (TEMI.OP_H) TO D0116 (TEMI.OP_M) on FIX mode operation
- Setting TIME.OP_H : 99Hour → Hexadecimalize (0x0063)
- Setting TIME.OP_M : 50Min → Hexadecimalize (0x0032)
- Request : [stx]01WSD,02,0115,0063,0032[cr][lf]
- Request(with CheckSum) : [stx]01WSD,02,0115,0063,0032B6[cr][lf]
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SAMWONTECH
5.7 WRD Command
WRD Command is used to write data in arbitrary single D-Register.
▣ Request Message Frame
bytes 1 2 3 1 2 1 4 1 4
Frame STX Address WRD ,
1 … 1 4 1 4 2 1 1
, … , D-Reg. - n , Data - n SUM CR LF
▣ Response Message Frame
bytes 1 2 3 1 2 2 1 1
Frame STX Address WRD , OK SUM CR LF
Count
Number
, D-Reg.- 1 , Data - 1
▪ Count Number : 1 ~ 64
▪ Data : Hexa-decimal 16bit string 4 character with no decimal point
◈ Examlpe
To write 50.0 ℃ into the D0104(TSP) and 0.5 ℃ into the D0110(SLOPE) on FIX mode operation.
- Setting TSP : 50.0 ℃ → Remove decimal point (500) → Hexadecimalize (0x01F4)
- Setting SLOPE : 0.5 ℃ → Remove decimal point (5) → Hexadecimalize (0x0005)
- Request : [stx]01WRD,02,0104,01F4,0110,0005[cr][lf]
- Request (with CheckSum) : [stx]01WRD,02,0104,01F4,0110,0005B3[cr][lf]
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SAMWONTECH
5.8 STD Command
STD Command is used to list the D-Registers that is necessary to monitor frequently.
▣ Request Message Frame
bytes 1 2 3 1 2 1 4 1 4
Frame STX Address STD ,
1 … 1 4 1 4 2 1 1
, … , D-Reg. - (n-1) , D-Reg. - n SUM CR LF
▣ Response Message Frame
bytes 1 2 3 1 2 2 1 1
Frame STX Address STD , OK SUM CR LF
Count
Number
, D-Reg. - 1 , D-Reg. - 2
▪ Count Number : 1 ~ 64
◈ Example
To register D0001 (NPV), D0003 (NSP) and D0005 (MVOUT)
- Request : [stx]01STD,03,0001,0003,0005 [cr][lf]
- Request (with CheckSum) : [stx]01STD,03,0001,0003,0005A8[cr][lf]
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SAMWONTECH
5.9 CLD Command
CLD Command is used to read data in the address which had been registered by STD command.
▣ Request Message Frame
bytes 1 2 3 2 1 1
Frame STX Address CLD SUM CR LF
▣ Response Message Frame
byte 수 1 2 3 1 2 1 4 1 4
Frame STX Address CLD , OK , Data - 1 , Data - 2
1 … 1 4 1 4 2 1 1
, … , Data - (n-1) , Data - n SUM CR LF
▪ Count Number : 1 ~ 64
◈ Example
- Request : [stx]01CLD[cr][lf]
- Request (with CheckSum) : [stx]01CLD34[cr][lf]
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5.10 AMI Command
AMI Command is used to get the controller own-information.
▣ Request Message Frame
bytes 1 2 3 2 1 1
Frame STX Address AMI SUM CR LF
▣ Response Message Frame
bytes 1 2 3 1 2 1
Frame STX Address AMI , OK ,
9 2 7 2 1 1
Model Name SPACE Version-Revision SUM CR LF
◈ Example
- Request (with CheckSum) : [STX]01AMI38[CR][LF]
- Response (with CheckSum) : [stx]01AMI,OK,TEMP-2000[sp][sp]V00-R0024[cr][lf]
To confirm controller own information
- Request : [STX]01AMI[CR][LF]
- Response : [STX]01AMI,OK,TEMP-2000[sp][sp]V00-R00[CR][LF]
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6. MODBUS Protocol
6.1 The Frame Structure of MODBUS protocol
▣ Data Format
Item ASCII RTU
Protocol Header :(Colon) N/A
Protocol Tail [CR][LF] N/A
Data length 7-bit(Fixed) 8-bit(Fixed)
Data type ASCII Binary
Error detecting
Data time interval Under 1sec. Under 24-bit time
(Longitudinal Redundancy Check)
LRC
(Cyclic Redundancy Check)
▣ The Frame Structure of MODBUS protocol
▶ Modbus ASCII
Protocol Header Address Function Code Data LRC Check Protocol Tail
1 character 2 character 2 character N character 2 character
▶ Modbus RTU
Protocol Header Address Function Code Data LRC Check Protocol Tail
N/A 8-Bit 8-Bit N * 8-Bit 16-Bit N/A
▪ N : Number of Hexadecimal data
CRC-16
2 character
(CR+LF)
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6.2 Function Code
TEMP2500 MODBUS protocol provides two function code subsets for READ/WRITE of D-Register and Loop-Back
detecting test.
Function Code Description
03 Read data in consecutive D-Register in sequence
06 Write data to arbitrary single D-Register
08 Diagnostics(Loop-Back Test)
16 Write data to consecutive D-Register in sequence
When using MODBUS, D-Register has to be subtracted ‘1’ from the D-Register table we offer this
manual, because it starts ‘0’D-Register address on MODBUS protocol.
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6.3 Function code - 03
Function code-03 is used to read the data of consecutive D-Register block in sequence up to 64 registers.
▣ Request Message Frame
Factor ASCII RTU
Protocol Header :(Colon) -
Slave Address 2 characters 8-Bit
Function code-03
D-Register Hi
D-Register Lo
Address Count Hi
Address Count Lo
Error detecting
Protocol Tail 2 characters (CR+LF) -
◈ Exmaple
Request message to read the D-Register FROM D0001 (NPV) TO D0003 (NSP) should be
- MODBUS ASCII :010300000003F9[cr][lf]
- MODBUS RTU 01030000000305CB
2 characters
2 characters
2 characters
2 characters
2 characters
2 characters
☞ D-Register has to be subtracted ‘1’ from the designated address number on D-Register table in this manual.
▣ Response Message Frame
Factor ASCII RTU
Protocol Header :(Colon) -
Slave Address 2 characters 8-Bit
Function code-03
Data byte count
Data - 1 Hi
Data - 1 Lo
… … …
Data - n Hi
Data - n Lo
Error detecting
Protocol Tail 2 characters (CR+LF) -
◈ Exmaple
Response data will be same as below, when 49.3 of D0001 (NPV) and 10.8 of D0003 (NSP)
- MODBUS ASCII :01030601ED0000006C9C[cr][lf]
- MODBUS RTU 01030601ED0000006C8C9E
2 characters
2 characters
2 characters
2 characters
2 characters
2 characters
2 characters
8-Bit
8-Bit
8-Bit
8-Bit
8-Bit
16-Bit
8-Bit
8-Bit
8-Bit
8-Bit
8-Bit
8-Bit
16-Bit
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SAMWONTECH
6.4 Function code - 06
Function code-06 is used to write data in arbitrary single D-Register.
▣ Request Message Frame
Factor ASCII RTU
Protocol Header :(Colon) -
Slave Address 2 characters 8-Bit
Function code-06
D-Register Hi
D-Register Lo
Write Data Hi
Write Data Lo
Error detecting
Protocol Tail 2 characters (CR+LF) -
◈ Exmaple
Request message to write ‘2’ to D0100 (pattern number) should be
- MODBUS ASCII :01060063000294[cr][lf]
- MODBUS RTU 010600630002F815
2 characters
2 characters
2 characters
2 characters
2 characters
2 characters
☞ D-Register has to be subtracted ‘1’ from the designated address number on D-Register table in this manual.
▣ Response Message Frame
Factor ASCII RTU
Protocol Header :(Colon) -
Slave Address 2 characters 8-Bit
Function code-06
D-Register Hi
D-Register Lo
Write Data Hi
Write Data Lo
Error detecting
Protocol Tail 2 characters (CR+LF) -
◈ Exmaple
Without any trouble, response message will be.
- MODBUS ASCII :01060063000294[cr][lf]
- MODBUS RTU 010600630002F815
2 characters
2 characters
2 characters
2 characters
2 characters
2 characters
8-Bit
8-Bit
8-Bit
8-Bit
8-Bit
16-Bit
8-Bit
8-Bit
8-Bit
8-Bit
8-Bit
16-Bit
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6.5 Function code - 08
Function code-08 is used to test loopback for self-diagnosis.
▣ Request Message Frame
Factor ASCII RTU
Protocol Header :(Colon) -
Slave Address 2 characters 8-Bit
Function code-08
Diagnosis code Hi
Diagnosis code Lo
Data Hi
Data Lo
Error detecting
Protocol Tail 2 characters (CR+LF) -
◈ Exmaple
Request message to test loopback for self-diagnosis should be
- MODBUS ASCII :010800000002F5[cr][lf]
- MODBUS RTU 01080000000261CA
2 characters
2 characters
2 characters
2 characters
2 characters
2 characters
▣ Response Message Frame
Factor ASCII RTU
Protocol Header :(Colon) -
Slave Address 2 characters 8-Bit
Function code-08
Diagnosis code Hi
Diagnosis code Lo
Data Hi
Data Lo
Error detecting
Protocol Tail 2 characters (CR+LF) -
◈ Exmaple
Without any trouble, response message will be.
- MODBUS ASCII :010800000002F5[cr][lf]
- MODBUS RTU 01080000000261CA
2 characters
2 characters
2 characters
2 characters
2 characters
2 characters
8-Bit
8-Bit
8-Bit
8-Bit
8-Bit
16-Bit
8-Bit
8-Bit
8-Bit
8-Bit
8-Bit
16-Bit
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6.6 Function code - 16
Function code-16 is used to write the data into consecutive D-Register block in sequence up to 64 registers.
▣ Request Message Frame
Factor ASCII RTU
Protocol Header :(Colon) -
Slave address 2 characters 8-Bit
Function code-16
D-Register Hi
D-Register Lo
Address Count Hi
Address Count Lo
Data byte Count
Data - 1 Hi
Data - 1 Lo
… … …
Data - n Hi
Data - n Lo
Error detecting
Protocol Tail 2 characters (CR+LF) 16-Bit
◈ Example
Request message to write ‘99’ to the D0115(TEMI.OP_H) and ‘50’ to the D0116(TEMI.OP_M) on FIX mode
operation should be
- MODBUS ASCII :0110007200020400630032E2[cr][lf]
- MODBUS RTU 01100072000204006300320499
2 characters
2 characters
2 characters
2 characters
2 characters
2 characters
2 characters
2 characters
2 characters
2 characters
2 characters
▣ Response Message Frame
Factor ASCII RTU
Protocol Header :(Colon) -
Slave address 2 characters 8-Bit
Function code-16
D-Register Hi
D-Register Lo 2 characters 8-Bit
Address Count Hi
Address Count Lo
Error detecting 2 characters 16-Bit
Protocol Tail 2 characters (CR+LF) -
◈ Example
Without any trouble, response message will be.
- MODBUS ASCII :0110007200027B[cr][lf]
- MODBUS RTU 011000720002E1D3
2 characters
2 characters
2 characters
2 characters
8-Bit
8-Bit
8-Bit
8-Bit
8-Bit
8-Bit
8-Bit
8-Bit
8-Bit
8-Bit
-
8-Bit
8-Bit
8-Bit
8-Bit
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7. D-REGISTER Description
D-Register is group of communication data to monitor and control all status of TEMI2500.
D-Register is grouped by consecutive 100 addresses based on its concerned function as shown below.
D-Register address Group Name Description Read Write
D0001~D0099 PROCESS General operation process information ○ ◈
D0100~D0199 FUNCTION Operating Function setting ○ ○
D0200~D0299 RESERVATION Time & Reserve operation setting ○ △
D0300~D0399 ON/OFF SIGNAL ON/OFF signal setting ○ ○
D0400~D0499 INNER SIGNAL INNER signal setting ○ ○
D0500~D0599 ALARM SIGNAL ALARM signal setting ○ ○
D0600~D0699 SEG ALARM SIGNAL SEGMENT ALARM signal setting ○ ○
D0700~D0799 TIME SIGNAL TIME signal setting ○ ○
D0800~D0899 COMMUNICATION Communication concerned information ○ △
D0900~D0999 PICTURE USER SCREEN setting ○ ○
D1000~D1099 PID1 P.I.D setting-1 ○ ○
D1100~D1199 PID2 P.I.D setting-2 ○ ○
D1200~D1299 INPUT Sensor Input setting ○ ○
D1300~D1399 OUTPUT Control& retransmission Output setting ○ ○
D1400~D1499 DO CONFIG1 DO(Digital Output) Relay setting-1 ○ ○
D1500~D1599 DO CONFIG2 DO(Digital Output) Relay setting-2 ○ ○
D1600~D1699 DI CONFIG1 DI(Digital Input) setting ○ ○
D1700~D1799 DI CONFIG2 DI NAME input-1 ○ ○
D1800~D1899 DI CONFIG3 DI NAME input-2 ○ ○
D1900~D1999 INITIAL1 Initial system setting-1 ○ ○
D2000~D2099 INITIAL2 Initial system setting-2 ○ ◈
D2100~D2199 PROGRAM Program pattern profile setting ○ ○
D2200~D2299 PATTERN INFO Pattern profile information ○ ◈
D2300~D3999 FILE1 ~ FILE17 Recorded Trend file information ○ ◈
D-Register is composed of hexadecimal 4 digit (2-Byte).
☞
▪ ○ : Available to read / write over all designated address range.
▪ △ : Available to read / write in part of designated address range.
▪ ◈ : Not available to read / write over all designated address range.
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7.1 PROCESS
PROCESS group consists of fundamental parameter information concerned with operation process and status.
Below table describes the detail Bit Map information of some parameter that indicates its status by Bit.
█ Bit Map information of TEMP2500
BIT
0 RESET IS1 TS1 ALM1 SEGALM1 T1 +OVER
1 FIX IS2 TS2 ALM2 SEGALM2 T2 -OVER
2 PROG IS3 TS3 ALM3 SEGALM3 T3 S.OPN
3 HOLD IS4 TS4 ALM4 SEGALM4 T4
4 WAIT IS5 TS5 T5
5 AT IS6 TS6 T6
6 IS7 TS7 T7
7 IS8 TS8
8
9
10
11
12
13
14
15
BIT
0 RUN RUN DO1 DO17 DI1 DISP.COMERR
1 WAIT WAIT DO2 DO18 DI2 IO.COMERR
2 UP UP DO3 DO19 DI3 SD.INSERT
3 DOWN DOWN DO4 DO20 DI4
4 SOAK SOAK DO5 DO21 DI5
5 FEND FEND DO6 DO22 DI6
6 PTEND PTEND DO7 DO23 DI7
7 1REF 1REF DO8 DO24 DI8
8 2REF 2REF DO9 DO25 DI9
9 DO10 DO26 DI10
10 DO11 DO27 DI11
11 DO12 DO28 DI12
12 DO13 DO29 DI13
13 DO14 DO30 DI14
14 DO15 DO31 DI15
15 DO16 DO32 DI16
NOW.STS IS.STS TS.STS ALM.STS SEGALM.STS ONOFF.STS ADERR.STS
(D0010) (D0012) (D0014) (D0016) (D0018) (D0020) (D0022)
DOCTR.STS CTR.STS DO.STS1 DO.STS2 DI.DATA SYS.STS
(D0024) (D0026) (D0028) (D0029) (D0030) (D0031)
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█ Bit Map status information D-Register
D-Reg. Symbol Descriptions
D0010 NOW.STS Current operation status information.
D0012 IS.STS INNER signal generating status information.
D0014 TS.STS TIME signal generating status information.
D0016 ALM.STS ALARM signal generating status information.
D0018 SEGALM.STS SEGMENT ALARM signal generating status information.
D0020 ONOFF.STS ON/OFF signal generating status information.
D0022 ADERR.STS Error status out of control range.
D0024 DOCTR.STS Other DO signal generating status information.
D0026 CTR.STS Displayed DO signal status information on 2nd Oper screen
D0028 DO.STS1
D0029 DO.STS2
D0030 DI.DATA DI Error outbreak status information.
D0031 SYS.STS
█ Common process information D-Register for both PROG / FIX
D-Reg. 기 호 내 용
D0001 NPV Current PV
D0003 NSP Current SP
D0005 MVOUT Current control output
D0007 CPIDNO Currently running PID number
D0034 RUN.TIME_H Process time (Hour)
D0035 RUN.TIME_M Process time (Minute)
D0036 RUN.TIME_S Process time (Second)
█ PROGRAM operation process information D-Register
D-Reg. 기 호 내 용
D0040 RUN.PTNO Currently running program pattern number
D0041 RUN.SEGNO Currently running program segment number
D0044 NOW.PT.RPT Count of current Repeat operation at running pattern
D0045 TOTAL.PT.RPT Total Programmed Count of Repeat op. at running pattern
D0048 NOW.SEG.RPT Count of current Repeat operation at running segment
D0049 TOTAL.SEG.RPT Total Programmed Count of Repeat op. at running segment
D0052 NOW.SEGTM_H Process time(High) of currently running segment
D0053 NOW.SEGTM_L Process time(Low) of currently running segment
D0054 TOTAL.SEGTM_H Programmed total time(High) of currently running segment
D0055 TOTAL.SEGTM_L Programmed total time(Low) of currently running segment
D0060 PREV.TSP Target Set Point of the preceding segment
D0061 NOW.TSP Target Set Point of the current segment
D0065 USED PATTERN Total number of programmed pattern
D0066 USED SEGMENT Total number of programmed segment
Actual generating Do signal status through I/O board
The main control and display or the main control and
I / O relay board Communication error occurs and the SD
card used in the information indicates.
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7.2 FUNCTION Group
FUNCTION group consists of setting parameter D-register related with operational function and process.
█ Common Operational Function setting D-Register for both PROG / FIX
D-Reg. Symbol Descriptions
D0112 FUZZY FUZZY Function (0:0FF, 1:ON)
D0121 KEYLOCK KEYLOCK Function (0:0FF, 1:ON)
D0126 DRAW.CYCLE Sampling time for recording on internal memory
D0127 PV.GRP_RECORD Activating to record on internal memory (0:0FF, 1:ON)
D0130 REC.OP Activating to record on SD memory card (0:0FF, 1:ON)
D0131 REC.CYCLE Sampling time for recording on SD memory card
D0132 BACK.ITEM BACKUP ITEM setting(0:PTN, 1:PARA, 2:ALL)
D0133 BACK.DIR BACKUP DIRECTION setting
D0136 AT Carrying out Auto-Tuning (0:0FF, 1:ON)
D0150 PV.FONT PV FONT select (0:HEAD, 1:NORM, 2:ART)
D0151 BUZ.ONOFF Buzzer sound ( 0: UNUSE, 1: USE )
D0152 LIGHT.OFFTM Backlight ON time
D0160 UTAG_USING Tags enable (0:OFF, 1:ON)
D0161 ~ D0163 UTAG.NAME1~ UTAG.NAME3 Tag name is set up to 6 digits.
█ PROGRAM Operation & Function setting D-Register
D-Reg. Symbol Descriptions
D0100 SET.PTNO Pattern Number to run program operation
D0140 WAIT.USE WAIT Function (0:UNUSE, 1:USE )
D0142 WAIT_ZONE WAIT ZONE setting
D0144 WAIT_TIME WAIT TIME setting
D0146 WAIT.METHOD Target of WAIT function (0:ALL, 1:SEG )
█ FIX Operation & Function setting D-Register
D-Reg. Symbol Descriptions
D0104 FIX.TSP Set Point on FIX operation
D0110 SLOPE UP/DOWN Setting the slope
D0114 TIME.OP TIME OPERATION (0:UNUSE, 1:USE)
D0115 TIME.OP_H HOUR setting for TIME OPERATION
D0116 TIME.OP_M MINUTE & SEC setting for TIME OPERATION
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█ OPERATION mode & performance setting D-Register
D-Reg. Symbol Process method Setting Description
RUN 1 Start running PROG/FIX Oper.
D0102 COM.OPMODE
D0106 OP.MODE
D0108 PWR.MODE
☞ To activate PROG operation RUN or FIX operation RUN, TEMP2500 should be in individual corresponding STOP(PROG
STOP/FIX STOP) state. For example, to activate PROG operation RUN from currently operating FIX RUN state,
convert the operation state to PROG STOP (D0106 = 0000, D0102 = 0004) first, then you can activate PROG
operation RUN.
HOLD 2 HOLD ON/OFF
STEP 3 Segment STEP
STOP 4 Stop PROG/FIX Operation
PROG 0 Set PROG Operation MODE
FIX 1 Set FIX Operation MODE
STOP 0 Not using Power-Mode
COLD 1 COLD MODE
HOT 2 HOT MODE
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7.3 RESERVATION Group
RESERVATION TEMP2500 hours of group identification, and book set, PROGRAM driver's start time and end time of
operation consists of related D-Register.
█ TIME setting and information D-Register
D-Reg. Symbol Description Read Write
D0202 NOW.YEAR Current YEAR installed in TEMP2500 ○ ×
D0203 NOW.MONTH Current MONTH installed in TEMP2500 ○ ×
D0204 NOW.DAY Current DAY installed in TEMP2500 ○ ×
D0205 NOW.AMPM Current TIME-AM/PM installed in TEMP2500 ○ ×
D0206 NOW.HOUR Current HOUR installed in TEMP2500 ○ ×
D0207 NOW.MIN Current MN. installed in TEMP2500 ○ ×
D0208 C.YEAR Current YEAR setting in TEMP2500 × ○
D0209 C.MONTH Current MONTH setting in TEMP2500 × ○
D0210 C.DAY Current DAY setting in TEMP2500 × ○
D0211 C.AMPM Current TIME-AM/PM setting in TEMP2500 × ○
D0212 C.HOUR Current HOUR setting in TEMP2500 × ○
D0213 C.MIN Current MN. setting in TEMP2500 × ○
D0214 R.YEAR YEAR setting for RESERVE Operation ○ ○
D0215 R.MONTH MONTH setting for RESERVE Operation ○ ○
D0216 R.DAY DAY setting for RESERVE Operation ○ ○
D0217 R.AMPM TIME-AM/PM setting for RESERVE Operation ○ ○
D0218 R.HOUR HOUR setting for RESERVE Operation ○ ○
D0219 R.MIN MIN. setting for RESERVE Operation ○ ○
RESERVE Operation
█
D-Reg. Symbol Operation Setting Description
D0200 RESERVE
█ PROGRAM Start time and end time running
D-Reg. Symbol Description
D0260 CH1_TIME_VALID Show start time and end time (0: Normal, 1:---.-)
D0261 CH1_START_YEAR Setting start time (Year)
D0262 CH1_START_MON Setting start time (Month)
D0263 CH1_START_DAY Setting start time (Day)
D0264 CH1_START_HOUR Setting start time (Hour)
D0265 CH1_START_MIN Setting start time (Min)
D0266 CH1_END_YEAR Setting end time (Year)
D0267 CH1_END_MON Setting end time (Month)
D0268 CH1_END_DAY Setting end time (Day)
D0269 CH1_END_HOUR Setting end time (Hour)
D0270 CH1_END_MIN Setting end time (Min)
OFF 0 Release RESERVE Oper.
ON 1 Set RESERVE Oper.
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7.4 ON/OFF SIGNAL Group
This setting parameter D-register group is used to establish 6 ON/OFF SIGNALs.
█ ON/OFF SIGNAL setting D-Register
D-Reg. Symbol Description
D0301 T1.LSP Low SP for ON/OFF SIGNAL T1
D0302 T1.MSP Middle SP for ON/OFF SIGNAL T1
D0303 T1.HSP High SP for ON/OFF SIGNAL T1
D0304 T1.HDV High zone Deviation for operating Point at High Zone T1
D0305 T1.LDV Low zone Deviation for operating Point at Low Zone T1
.
.
.
D0336 T6.LSP Low SP for ON/OFF SIGNAL T6
D0337 T6.MSP Middle SP for ON/OFF SIGNAL T6
D0338 T6.HSP High SP for ON/OFF SIGNAL T6
D0339 T6.HDV High zone Deviation for operating Point at High Zone T6
D0340 T6.LDV Low zone Deviation for operating Point at Low Zone T6
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7.5 INNER SIGNAL Group
This setting parameter D-register group is used to establish 8 INNER SIGNALs.
█ INNER SIGNAL setting D-Register
D-Reg. Symbol Descriptions
D0401 IS1.TYPE Object Type of Target of INNER SIGNAL1 (0:SP, 1:PV, 2:MV)
D0402 IS1.BAND Direction Band of INNER SIGNAL1 (0:IN-B, 1:OUT-B)
D0403 IS1.RH Range High of INNER SIGNAL1
D0404 IS1.RL Range Low of INNER SIGNAL1
D0405 IS1.DYT DELAY TIME of INNER SIGNAL1
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.
.
D0443 IS8.TYPE Object Type of Target of INNER SIGNAL8 (SP/PV/MV)
D0444 IS8.BAND Direction Band of INNER SIGNAL8 (IN-B/OUT-B)
D0445 IS8.RH Range High of INNER SIGNAL8
D0446 IS8.RL Range Low of INNER SIGNAL8
D0447 IS8.DYT DELAY TIME of INNER SIGNAL8
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7.6 ALARM SIGNAL Group
This setting parameter D-register group is used to establish 4 ALARM signals.
█ ALARM signal setting D-Register
D-Reg. Symbol Descriptions
D0501 ALM.OP Condition of ALARM Operation (0:RUN, 1:ALWAYS)
D0505 ALM1.TYPE Type of ALARM signal 1
D0506 ALM1.POINT Target Point of ALARM signal 1
D0507 ALM1.H_POINT Limit High point of ALARM signal 1
D0508 ALM1.L_POINT Limit Low point of ALARM signal 1
D0509 ALM1.HYS Hysteresis of ALARM signal 1
D0510 ALM1.DYT DELAY TIME of ALARM signal 1
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.
.
D0526 ALM4.TYPE Type of ALARM signal 4
D0527 ALM4.POINT Target Point of ALARM signal 4
D0528 ALM4.H_POINT Limit High point of ALARM signal 4
D0529 ALM4.L_POINT Limit Low point of ALARM signal 4
D0530 ALM4.HYS Hysteresis of ALARM signal 4
D0531 ALM4.DYT DELAY TIME of ALARM signal 4
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7.7 SEGMENT ALARM SIGNAL Group
This setting parameter D-register group is used to establish 8 SEGMENT ALARM signals.
█ SEGMENT ALARM signal setting D-Register
D-Reg. Symbol Descriptions
D0601 SA1.TYPE Type of SEGMENT ALARM signal 1
D0602 SA1.POINT Target Point of SEGMENT ALARM signal 1
D0603 SA1.H_POINT Limit High point of SEGMENT ALARM signal 1
D0604 SA1.L_POINT Limit Low point of SEGMENT ALARM signal 1
D0605 SA1.HYS Hysteresis of SEGMENT ALARM signal 1
D0606 SA1.DYT DELAY TIME of SEGMENT ALARM signal 1
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.
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D0643 SA8.TYPE Type of SEGMENT ALARM signal 8
D0644 SA8.POINT Target Point of SEGMENT ALARM signal 8
D0645 SA8.H_POINT Limit High point of SEGMENT ALARM signal 8
D0646 SA8.L_POINT Limit Low point of SEGMENT ALARM signal 8
D0647 SA8.HYS Hysteresis of SEGMENT ALARM signal 8
D0648 SA8.DYT DELAY TIME of SEGMENT ALARM signal 8
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7.8 TIME SIGNAL Group
This setting parameter D-register group is used to establish 19 TIME SIGNALs.
█ TIME SIGNAL setting D-Register
D-Reg. Symbol Descriptions
D0701 TS2DYTM_H DELAY TIME (HOUR) of generating TIME SIGNAL 2.
D0702 TS2DYTM_L DELAY TIME (MIN. & SEC.) of generating TIME SIGNAL 2.
D0703 TS2KPTM_H OPER.TIME (HOUR) to keep generating TIME SIGNAL 2.
D0704 TS2KPTM_L OPER.TIME (MIN. & SEC.) to keep generating TIME SIGNAL 2.
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.
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D0773 TS20DYTM_H DELAY TIME (HOUR) of generating TIME SIGNAL 20.
D0774 TS20DYTM_L DELAY TIME (MIN. & SEC.) of generating TIME SIGNAL 20.
D0775 TS20KPTM_H OPER.TIME (HOUR) to keep generating TIME SIGNAL 20.
D0776 TS20KPTM_L OPER.TIME (MIN. & SEC.) to keep generating TIME SIGNAL 20.
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7.9 COMMUNICATION Group
This group is consists of information parameter D-Register concerned communication.
█ COMMUNICATION concerned information D-Register
D-Reg. Symbol Descriptions
D0801 COM2.PROTOCOL [COM2] Communication Protocol information
D0802 COM2.BPS [COM2] Communication speed (Baud Rate) information.
D0803 COM2.PARITY [COM2] Parity information.
D0804 COM2.STOP.BIT [COM2] Stop Bit information.
D0805 COM2.DATA.LENGTH [COM2] Data Length information.
D0806 COM2.ADDRESS [COM2] Slave Address information.
D0807 COM2.RESPONSE [COM2] Response Time information.
D0808 COM4.BPS [COM4] Communication speed (Baud Rate) information.
D0809 SYNC.MST SYNC Master (0:OFF, 1:ON)
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7.10 PICTURE Group
PICTURE group consists of setting parameter D-Register for User Screen viewer.
█ PICTURE setting D-Register
D-Reg. Symbol Descriptions
D0901 VIEW.ROTATE Setting for using User Screen viewer.
D0902 R.ST_TIME START TIME by no key input to activate User Screen Viewer
D0903 R.INT_TIME INTERVAL TIME to display next image.
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7.11 PID Group
This setting parameter D-register group is used to establish 6 PID GROUP
█ PID setting D-Register
D-Reg. Symbol Descriptions
D1001 RP1
D1002 RP2
D1003 RP3
D1004 RP4
D1009 RHYS Selects hysteresis when ZONE PID.
D1010 RDEV Sets deviation for selecting deviation PID.
D1013 CMOD Select the control method. (0:D.PV, 1:D.DV)
D1015 AT.POINT Auto-tuning sets the reference value.
D1017 AT.DISPLAY Setting to display or hide AT KEY. (0:HIDE, 1:DISPLAY)
D1019 PID.OPMODE Select sets of PID. (0:SEG, 1:ZONE)
D1021 PID.APP ZONE PID sets of selection criteria. (0:PV, 1:SP)
D1101 1_P Proportional band of PID1
D1102 1_I Integral time of PID1
D1103 1_D Differential time of PID1
D1104 1_OH Control Output High limit of PID1
D1105 1_OL Control Output Low limit of PID1
D1106 1_MR Integral time of PID1 is set manually.
D1107 1_HHYS PID1 the ON / OFF control hysteresis High limit is set at.
D1108 1_LHYS PID1 the ON / OFF control hysteresis at the Low setting.
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D1141 6_P Proportional band of PID6
D1142 6_I Integral time of PID6
D1143 6_D Differential time of PID6
D1144 6_OH Control Output High limit of PID6
D1145 6_OL Control Output Low limit of PID6
D1146 6_MR Integral time of PID6 is set manually.
D1147 6_HHYS PID6 the ON / OFF control hysteresis High limit is set at.
D1148 6_LHYS PID6 the ON / OFF control hysteresis at the Low setting.
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Reference Point 1 (T1) to define PID ZONE.
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7.12 INPUT Group
This INPUT group is used for setting parameter D-Register for sensor and its bias.
█ INPUT setting D-Register
D-Reg. Symbol Descriptions
D1201 SENGP Select the sensor group. (0:T/C, 1:RTD, 2:DCV)
D1202 SENTP Sets the type of sensor.
D1203 UNIT Sets the sensor unit.
D1204 DP Set-point position.
D1205 TCSL T/C select show (0:T/C, 1:T/C+RJC, 2:RJC)
D1206 SOPN.SEL Sensors-open, pv select the direction. (0:UNSET, 1:UP, 2:DOWN)
D1207 INRH Sets the High limit range of use.
D1208 INRL Sets the Low limit range of use.
D1209 BIAS Sets the previous range revision value.
D1210 INFL
D1212 INSH Scale sets the High limit.
D1213 INSL Scale sets the Low limit.
D1231~D1238 BP1.DDV~BP8.DDV Sets revision temperature at each standard temperature.
D1239~D1246 BP1.DPV~BP8.DPV Sets each standard temperature.
Removes noise when measuring input includes noise of high
frequency.
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7.13 OUTPUT Group
This INPUT group is used for setting parameter D-Register for control output and retransmission.
█ Control output and retransmission setting D-Register
D-Reg. Symbol Descriptions
D1301 SSR1.OUT SSR1 Control OUTPUT type.
D1302 SSR2.OUT SSR2 Control OUTPUT type.
D1303 SCR1.OUT SCR1 Control OUTPUT type.
D1304 SCR2.OUT SCR2 Control OUTPUT type.
D1309 DIR Select the direction of behavior.(0:REV, 1:FWD)
D1311 ARW ARW(Anti Reset Wind-up) sets the value of prevention
D1313 UPOPR Change the setting up of the control output.
D1314 DNOPR Change the setting of control output is falling.
D1317 CT Sets the output cycle.
D1319 PO Output is in an emergency setting.
D1321 ATG Auto-Tuning GAIN value for Manual PID.
D1325 RETT Target object of transmission (0:PV, 1:SP, 2:MV)
D1327 RETH Range High of transmission
D1328 RETL Range Low of transmission
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7.14 DO CONFIG Group
DO CONFIG group consists of setting and information parameter D-Register related to establish RELAY number on
I/O board to generate signal and its sub setting for auxiliary Digital Output.
█ DO CONFIG setting and information D-Register
D-Reg. Symbol Descriptions
D1401~D1408 IS1.RLY~IS8.RLY RELAY No.on I/O for INNER SIGNAL.
D1417~D1424 TS1.RLY~TS8.RLY RELAY No.on I/O for TIME SIGNAL.
D1433~D1436 ALM1.RLY~ALM4.RLY RELAY No.on I/O ALARM SIGNAL.
D1441~D1444 SA1.RLY~SA4.RLY RELAY No.on I/O SEGMENT ALARM SIGNAL.
D1449~D1462 T1.RLY~T7.DYT RELAY No.on I/O and DELAY TIME for ON/OFF SIGNAL.
D1501,D1502 RUN.RLY,RUN.DYT RELAY No.on I/O and DELAY TIME for RUN SIGNAL.
D1505,D1506 SOPN.RLY,SOPN.KPT RLY No.on I/O and KEEP TIME for SENSOR-OPEN SIGNAL.
D1509,D1510 WAIT.RLY,WAIT.KPT REALY No.on I/O and KEEP TIME for WAIT SIGNAL.
D1513,D1514 UP.RLY,UP.DEV RELAY No.on I/O and DEVIATION for UP SIGNAL.
D1517,D1518 SOAK.RLY,SOAK.KPT REALY No.on I/O and KEEP TIME for SOAK SIGNAL.
D1521,D1522 DOWN.RLY,DOWN.DEV RELAY No.on I/O and DEVIATION for DOWN SIGNAL
D1525,D1526 FEND.RLY,FEND.KPT RLY No.on I/O and KEEP TIME for FIX-END SIGNAL.
D1529,D1530 PTEND.RLY,PTEND.KPT RLY No.on I/O and KEEP TIME for PROGRAM PTN-END SIGNAL.
D1533,D1534 1REF.RLY,1REF.DYT RELAY No.on I/O and DELAY TIME for 1st Refrigerator oper.
D1535,D1536 2REF.RLY,2REF.DYT RELAY No.on I/O and DELAY TIME for 2nd Refrigerator oper.
D1541,D1542 ERROR.RLY,ERROR.KPT REALY No.on I/O and KEEP TIME for ERROR SIGNAL.
D1543 UKEY.RLY RELAY No.on I/O for USER KEY SIGNAL.
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7.15 DI CONFIG Group
DI CONFIG group consists of setting parameter D-Register for DI ERROR and its name.
█ DI CONFIG setting D-Register
D-Reg. Symbol Descriptions
D1601 DISP.METHOD DISPLAY METHOD for DI ERROR. (0:TEXT, 1:PICTURE)
D1602 BUZ.TIME Sets time for DI Error buzzer.
D1603 DIDEC.TIME
D1606 DI1.OP_MODE
D1607 DI2.OP_MODE
D1608 DI3.OP_MODE
D1609 DI4.OP_MODE
D1618,D1619 DI1.OP,DI1.DYT DI 1 OPERATION after detecting and DELAY TIME
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D1648,D1649 DI16.OP,DI16.DYT DI 1 OPERATION after detecting and DELAY TIME
D1701~D1712 DI1.NAME1~DI1.NAME12 DI 1 ERROR NAME.
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D1785~D1796 DI16.NAME1~DI16.NAME12 DI 16 ERROR NAME
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.
.
DETECT TIME to recognize DI ERROR from actual
occurrence
OPERATION MODE when DI 1 ON.
(0:ERROR, 1:RUN/STOP)
OPERATION MODE when DI 2 ON.
(0:ERROR, 1:HOLD)
OPERATION MODE when DI 3 ON.
(0:EERROR, 1:STEP)
OPERATION MODE when DI 4 ~ 16 ON
(0:ERROR, 1:PATTERN SELECTION)
.
.
.
.
.
.
1th Edition of TEMP2000_Series IM : Dec. 15. 2008 Page 41 / 63
Page 44
SAMWONTECH
7.16 INITIAL Group
INITIAL group consists of setting parameter D-Register for system initial configuration.
█ INITIAL setting D-Register
D-Reg. Symbol Descriptions
D1901 LANGUAGE Language for using TEMP2500. (0:ENG, 1:KOR, 2:CHN)
DISPLAY MODE for ‘Initial Logo screen’ when PWR ON.
(0:TEXT, 1:PICTURE)
Name of INIT INFORMATION 1 when setting ‘TEXT’
on DISPLAY MODE.
.
.
.
Name of INIT INFORMATION 3 when setting ‘TEXT’
on DISPLAY MODE.
STATUS DISPLAY LAM.
D1906~D1918
D1932~D1944
D2001~D2051
D1902 DISP.MODE
D1903 UKEY.USE Setting for using USER KEY. (0:UNUSE, 1:USE)
INFORM1.NAME1
~INFORM1.NAME13
.
.
.
~INFORM3.NAME13
.
.
.
INFORM3.NAME1
CH1LAMP_IS1
~CH1LAMP_DI16
1th Edition of TEMP2000_Series IM : Dec. 15. 2008 Page 42 / 63
Page 45
SAMWONTECH
7.17 PROGRAM PATTERN Group and Setting
7.17.1 PROGRAM
PROGRAM group consists of parameter D-Register to arrange program PATTERN organized by each segment profile.
Each segment should be established step by step.
█ Program PATTERN setting D-Register
D-Reg. Symbol Range Description
D2101 COM_PTNO 1~80 Program PATTERN number to Read or Write
D2102 COM_SEGNO
D2103 PTCOPY_START - First target (START) pattern number to paste
D2104 PTCOPY_END - Last target (END) pattern number to paste
D2105 PTDEL_START - First target (START) pattern number to delete
D2106 PTDEL_END - Last target (END) pattern number to delete
D2107 TRIGGER
D2108 ANSWER
D2111~D2122 PATTERN_NAME1~12 - Pattern NAME to Read or Write
D2126 TSP - Target Set Point(TSP) to Read or Write
D2127 SEG.TIME_H - Target Process time (HOUR) of segment to Read or Write
D2128 SEG.TIME_L - Target Process time (MIN & SEC) of segment to Read or Write
D2129 TS1 - TS1 to Read or Write
D2130 TS2 - TS2 to Read or Write
D2131 TS3 - TS3 to Read or Write
D2132 TS4 - TS4 to Read or Write
D2133 TS5 - TS5 to Read or Write
D2134 TS6 - TS6 to Read or Write
D2135 TS7 - TS7 to Read or Write
D2136 TS8/AUX_OUT - TS8 or AUX to Read or Write
D2137 SEGAL1 - SEGMENT ALARM1 to Read or Write
D2138 SEGAL2 - SEGMENT ALARM2 to Read or Write
D2139 SEGAL3 - SEGMENT ALARM3 to Read or Write
D2140 SEGAL4 - SEGMENT ALARM4 to Read or Write
D2141 SEG_PID - SEGMENT PID to Read or Write
0 To Read or Write in D2145~D2167
1~99 Segment number to Read or Write
1 INIT : Initialize D2101~D2108 to '0'
2 READ : Read profiles in D2101 and D2102
3 WRITE : Write profiles in D2101 and D2102
4 PT COPY : Copy PTN in D2101 to PTN designated in D2103~2104
5 PT DEL : Delete PTN designated in D2105~D2106
6 PT NAME READ : Read PTN NAME in D2101
7 PT NAME WRITE : Write PTN NAME in D2101
8 ALL PT : Write pattern profile at D2101 into D2300
0 FULL : Excessive number of pattern or segment setting
1 DONE : Normally accessed of D2107(TRIGGER) command
2 PT EMPTY : No profile in designated pattern
3 SEG EMPTY : No profile in designated segment
4 PT RUN : Program RUN state of designated PTN
5 PARA ERROR : Program setting Error of D2101~D2107
1th Edition of TEMP2000_Series IM : Dec. 15. 2008 Page 43 / 63
Page 46
SAMWONTECH
█ PROGRAM and its REPEAT operation setting D-Register
D-Reg. Symbol Descriptions
D2145 START.CODE START CODE for operation (0:TPV, 1:SPV, 2:SSP)
D2146 START.SP START SSP
D2150 PT.RPT Count number for PATTERN REPEAT (0:Infinitely, 1 ~ 999)
D2151 PT.EMOD PATTERN END MODE (0:RESET, 1:SEG HOLD, 2:LINK RUN )
D2152 LINK.PT LINK PATTERN ( 1 ~ 80 )
D2156 SEG_RPT.S1 SEGMENT REPEAT START-1
D2157 SEG_RPT.E1 SEGMENT REPEAT END-1
D2158 SEG_RPT.C1 SEGMENT REPEAT COUNT-1
D2159 SEG_RPT.S2 SEGMENT REPEAT START-2
D2160 SEG_RPT.E2 SEGMENT REPEAT END-2
D2161 SEG_RPT.C2 SEGMENT REPEAT COUNT-2
D2162 SEG_RPT.S3 SEGMENT REPEAT START-3
D2163 SEG_RPT.E3 SEGMENT REPEAT END-3
D2164 SEG_RPT.C3 SEGMENT REPEAT COUNT-3
D2165 SEG_RPT.S4 SEGMENT REPEAT START-4
D2166 SEG_RPT.E4 SEGMENT REPEAT END-4
D2167 SEG_RPT.C4 SEGMENT REPEAT COUNT-4
1th Edition of TEMP2000_Series IM : Dec. 15. 2008 Page 44 / 63
Page 47
SAMWONTECH
7.17.2 How to READ program PATTERN
▶ Below describes process step to read programmed PATTERN profile in TEMP2500.
Above process step ① ~ ⑤ is used to read ‘ONE SEGMENT’profile among all in programmed pattern.
To read many segments, reiterate ① ~ ⑤ process step by changing segment number.
Setting ‘0’in D2102 at process step ② will read profile in D2145~D2167.
⑤ Reads profile(TSP of temp.& humi. process time etc.)in D2126~D2141
① Write PATTERN number to read profile in D2101
② Write SEGMENT number to read profile in D2102
③ Write READ TRIGGER('2') in D2107
④ Stay until reading D2108 response DONE('1')
1th Edition of TEMP2000_Series IM : Dec. 15. 2008 Page 45 / 63
Page 48
SAMWONTECH
7.17.3 How to WRITE program PATTERN
▶ Below describes process step to write programming PATTERN profile in TEMP2500.
Above process step ① ~ ⑤ is used to write ‘ONE SEGMENT’profile among all in programmed pattern.
Reiterate ① ~ ⑤ process step by changing segment number to write many segments.
① Write PATTERN number to program in D2101
② Write SEGMENT number to program in D2102
③ Write profile(TSP of process time etc.)in D2126~D2141
④ Write WRITE TRIGGER('3') in D2107
⑤ Stay until reading D2108 response DONE('1')
1th Edition of TEMP2000_Series IM : Dec. 15. 2008 Page 46 / 63
Page 49
SAMWONTECH
▶ Below describes process step to write program in D2145~D2167.
① Write PATTERN number to program in D2101
② Write '0' of SEGMENT number to D2102
③ Write profile(TSP of process time etc.)in D2145~D2467
④ Write WRITE TRIGGER('3') in D2107
⑤ Stay until reading D2108 response DONE('1')
1th Edition of TEMP2000_Series IM : Dec. 15. 2008 Page 47 / 63
Page 50
SAMWONTECH
7.17.4 FILE EDIT (PATTERN COPY / DELETE)
▶ Below describes step to copy pattern.
▶ Below describes step to delete pattern.
① Write SOURCE PATTERN number to copy in D2101
② Write TARGET PATTERN number to paste in D2103~D2104
③ Write PT COPY TRIGGER('4') in D2107
④ Stay until reading D2108 response DONE('1')
① Write PATTERN number to delete in D2105~D2106
② Write PT DEL TRIGGER('5') in D2107
③ Stay until reading D2108 response DONE('1')
1th Edition of TEMP2000_Series IM : Dec. 15. 2008 Page 48 / 63
Page 51
SAMWONTECH
7.18 PATTERN INFO
PATTERN INFO group consists of programmed pattern and segment information parameter D-Register.
█
Programmed pattern and segment information D-Register
D-Reg. Symbol Descriptions
D2201 NPT1 The number of programmed SEGMENT in PATTERN no.1
.
.
.
D2280 NPT80 The number of programmed SEGMENT in PATTERN no.80
.
.
.
.
.
.
7.19 FILE
FILE group consists of profile information of programmed pattern parameter D-Register.
█ FILE information D-Register
D-Reg. Symbol Descriptions
D2301~D2399 C.TSP1~C.TSP99 SP in reading pattern.
D2501~D2599 C.SRTIME_H1~C.SRTIME_H99 Total operation time (Hour) in reading pattern.
D2601~D2699 C.SRTIME_L1~C.SRTIME_L99 Total operation time (Minute&Second) in reading pattern.
D2701~D2799 C.TS1_1~C.TS1_99 TS1 in reading pattern.
D2801~D2899 C.TS2_1~C.TS2_99 TS2 in reading pattern.
D2901~D2999 C.TS3_1~C.TS3_99 TS3 in reading pattern.
D3001~D3099 C.TS4_1~C.TS4_99 TS4 in reading pattern.
D3101~D3199 C.TS5_1~C.TS5_99 TS5 in reading pattern.
D3201~D3299 C.TS6_1~C.TS6_99 TS6 in reading pattern.
D3301~D3399 C.TS7_1~C.TS7_99 TS7 in reading pattern.
D3401~D3499 C.TS8_1~C.TS8_99 TS8 or AUX in reading pattern.
D3501~D3599 C.SEGAL1_1~C.SEGAL1_99 SEGMENT ALARM1 in reading pattern.
D3601~D3699 C.SEGAL2_1~C.SEGAL2_99 SEGMENT ALARM2 in reading pattern.
D3701~D3799 C.SEGAL3_1~C.SEGAL3_99 SEGMENT ALARM3 in reading pattern.
D3801~D3899 C.SEGAL4_1~C.SEGAL4_99 SEGMENT ALARM4 in reading pattern.
D3901~D3999 C.SEGPID_1~C.SEGPID_99 SEGMENT PID in reading patten.
1th Edition of TEMP2000_Series IM : Dec. 15. 2008 Page 49 / 63
Page 52
SAMWONTECH
D-Register 0000 ~ 0599 : Read Only
D-Reg.
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24 DOCTR.STS T4.HSP ALM3.DYT
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
PROCESS FUNCTION RESERVATION ON/OFF SIGNAL INNER SIGNAL ALARM SIGNAL
0 100 200 300 400 500
SET.PTNO
NPV T1.LSP IS1.TYPE ALM.OP
COM.OPMODE NOW.YEAR T1.MSP IS1.BAND
NSP NOW.MONTH T1.HSP IS1.RH
FIX.TSP NOW.DAY T1.HDV IS1.RL
MVOUT NOW.AMPM T1.LDV IS1.DYT ALM1.TYPE
OP.MODE
CPIDNO NOW.MIN IS2.TYPE ALM1.H_POINT
PWR.MODE C.YEAR T2.LSP IS2.BAND ALM1.L_POINT
C.MONTH T2.MSP IS2.RH ALM1.HYS
NOW.STS SLOPE C.DAY T2.HSP IS2.RL ALM1.DYT
C.AMPM T2.HDV IS2.DYT
IS.STS FUZZY C.HOUR T2.LDV ALM2.TYPE
C.MIN IS3.TYPE ALM2.POINT
TS.STS TIME.OP R.YEAR IS3.BAND ALM2.H_POINT
TIME.OP_H R.MONTH T3.LSP IS3.RH ALM2.L_POINT
ALM.STS TIME.OP_M R.DAY T3.MSP IS3.RL ALM2.HYS
R.AMPM T3.HSP IS3.DYT ALM2.DYT
SEGALM.STS R.HOUR T3.HDV
R.MIN T3.LDV IS4.TYPE ALM3.TYPE
ONOFF.STS IS4.BAND ALM3.POINT
KEYLOCK IS4.RH ALM3.H_POINT
ADERR.STS T4.LSP IS4.RL ALM3.L_POINT
T4.MSP IS4.DYT ALM3.HYS
T4.HDV IS5.TYPE
CTR.STS DRAW.CYCLE T4.LDV IS5.BAND ALM4.TYPE
PV.GRP_RECORD IS5.RH ALM4.POINT
DO.STS1 IS5.RL ALM4.H_POINT
DO.STS2 T5.LSP IS5.DYT ALM4.L_POINT
DI.DATA REC.OP T5.MSP ALM4.HYS
SYS.STS REC.CYCLE T5.HSP IS6.TYPE ALM4.DYT
BACK.ITEM T5.HDV IS6.BAND
BACK.DIR T5.LDV IS6.RH
RUN.TIME_H IS6.RL
RUN.TIME_M IS6.DYT
RUN.TIME_S AT T6.LSP
T6.MSP IS7.TYPE
T6.HSP IS7.BAND
T6.HDV IS7.RH
RUN.PTNO WAIT.USE T6.LDV IS7.RL
RUN.SEGNO IS7.DYT
WAIT_ZONE
IS8.TYPE
NOW.PT.RPT WAIT_TIME IS8.BAND
TOTAL.PT.RPT IS8.RH
WAIT.METHOD IS8.RL
IS8.DYT
NOW.SEG.RPT
TOTAL.SEG.RPT
RESERVE
NOW.HOUR ALM1.POINT
1th Edition of TEMP2000_Series IM : Dec. 15. 2008 Page 50 / 63
Page 53
SAMWONTECH
D-Reg.
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
PROCESS FUNCTION RESERVATION ON/OFF SIGNAL INNER SIGNAL ALARM SIGNAL
0 100 200 300 400 500
PV.FONT
BUZ.ONOFF
NOW.SEGTM_H LIGHT.OFFTM
NOW.SEGTM_L
TOTAL.SEGTM_H
TOTAL.SEGTM_L
PREV.TSP UTAG_USING TIME_VALID
NOW.TSP UTAG.NAME1 START_YEAR
UTAG.NAME2 START_MON
UTAG.NAME3 START_DAY
START_HOUR
USED PATTERN START_MIN
USED SEGMENT END_YEAR
END_MON
END_DAY
END_HOUR
END_MIN
1th Edition of TEMP2000_Series IM : Dec. 15. 2008 Page 51 / 63
Page 54
SAMWONTECH
D-Register 0600 ~ 1199
SEG ALARM SIGNAL TIME SIGNAL COMMUNICATION PICTURE PID1 PID2
D-Reg.
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24 SA4.DYT TS7KPTM_L 3_LHYS
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
600 700 800 900 1000 1100
SA1.TYPE TS2DYTM_H
SA1.POINT TS2DYTM_L
SA1.H_POINT TS2KPTM_H
SA1.L_POINT TS2KPTM_L
SA1.HYS TS3DYTM_H
SA1.DYT TS3DYTM_L
SA2.TYPE TS3KPTM_H
SA2.POINT TS3KPTM_L
SA2.H_POINT TS4DYTM_H SYNC.MST RHYS 2_P
SA2.L_POINT TS4DYTM_L RDEV 2_I
SA2.HYS TS4KPTM_H 2_D
SA2.DYT TS4KPTM_L 2_OH
SA3.TYPE TS5DYTM_H CMOD 2_OL
SA3.POINT TS5DYTM_L 2_MR
SA3.H_POINT TS5KPTM_H AT.POINT 2_HHYS
SA3.L_POINT TS5KPTM_L 2_LHYS
SA3.HYS TS6DYTM_H AT.DISPLAY 3_P
SA3.DYT TS6DYTM_L 3_I
SA4.TYPE TS6KPTM_H PID.OPMODE 3_D
SA4.POINT TS6KPTM_L 3_OH
SA4.H_POINT TS7DYTM_H PID.APP 3_OL
SA4.L_POINT TS7DYTM_L 3_MR
SA4.HYS TS7KPTM_H 3_HHYS
SA5.TYPE TS8DYTM_H 4_P
SA5.POINT TS8DYTM_L 4_I
SA5.H_POINT TS8KPTM_H 4_D
SA5.L_POINT TS8KPTM_L 4_OH
SA5.HYS TS9DYTM_H 4_OL
SA5.DYT TS9DYTM_L 4_MR
SA6.TYPE TS9KPTM_H 4_HHYS
SA6.POINT TS9KPTM_L 4_LHYS
SA6.H_POINT TS10DYTM_H 5_P
SA6.L_POINT TS10DYTM_L 5_I
SA6.HYS TS10KPTM_H 5_D
SA6.DYT TS10KPTM_L 5_OH
SA7.TYPE TS11DYTM_H 5_OL
SA7.POINT TS11DYTM_L 5_MR
SA7.H_POINT TS11KPTM_H 5_HHYS
SA7.L_POINT TS11KPTM_L 5_LHYS
SA7.HYS TS12DYTM_H 6_P
SA7.DYT TS12DYTM_L 6_I
SA8.TYPE TS12KPTM_H 6_D
SA8.POINT TS12KPTM_L 6_OH
SA8.H_POINT TS13DYTM_H 6_OL
SA8.L_POINT TS13DYTM_L 6_MR
SA8.HYS TS13KPTM_H 6_HHYS
SA8.DYT TS13KPTM_L 6_LHYS
TS14DYTM_H
COM2.PROTOCOL VIEW.ROTATE RP1 1_P
COM2.BPS R.ST_TIME RP2 1_I
COM2.PARITY R.INT_TIME RP3 1_D
COM2.STOP.BIT RP4 1_OH
COM2.DATA.LENGTH 1_OL
COM2.ADDRESS 1_MR
COM2.RESPONSE 1_HHYS
COM4.BPS 1_LHYS
1th Edition of TEMP2000_Series IM : Dec. 15. 2008 Page 52 / 63
Page 55
SAMWONTECH
D-Reg.
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74 TS20DYTM_L
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
600 700 800 900 1000 1100
TS14DYTM_L
TS14KPTM_H
TS14KPTM_L
TS15DYTM_H
TS15DYTM_L
TS15KPTM_H
TS15KPTM_L
TS16DYTM_H
TS16DYTM_L
TS16KPTM_H
TS16KPTM_L
TS17DYTM_H
TS17DYTM_L
TS17KPTM_H
TS17KPTM_L
TS18DYTM_H
TS18DYTM_L
TS18KPTM_H
TS18KPTM_L
TS19DYTM_H
TS19DYTM_L
TS19KPTM_H
TS19KPTM_L
TS20DYTM_H
TS20KPTM_H
TS20KPTM_L
SEG ALARM SIGNAL TIME SIGNAL COMMUNICATION PICTURE PID1 PID2
1th Edition of TEMP2000_Series IM : Dec. 15. 2008 Page 53 / 63
Page 56
SAMWONTECH
D-Register 1200 ~ 1799
D-Reg.
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24 TS8.RLY DI4.OP DI2.NAME12
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
INPUT OUTPUT DO CONFIG1 DO CONFIG2 DI CONFIG1 DI CONFIG2
1200 1300 1400 1500 1600 1700
SENGP SSR1.OUT IS1.RLY RUN.RLY DISP.METHOD DI1.NAME1
SENTP SSR2.OUT IS2.RLY RUN.DYT BUZ.TIME DI1.NAME2
UNIT SCR1.OUT IS3.RLY DIDET.TIME DI1.NAME3
DP SCR2.OUT IS4.RLY DI1.NAME4
TCSL IS5.RLY SOPN.RLY DI1.NAME5
SOPN.SEL IS6.RLY SOPN.KPT DI1.OP_MODE DI1.NAME6
INRH IS7.RLY DI2.OP_MODE DI1.NAME7
INRL IS8.RLY DI3.OP_MODE DI1.NAME8
BIAS DIR WAIT.RLY DI4.OP_MODE DI1.NAME9
INFL WAIT.KPT DI1.NAME10
ARW DI1.NAME11
INSH DI1.NAME12
INSL UPOPR UP.RLY DI2.NAME1
DNOPR UP.DEV DI2.NAME2
DI2.NAME3
DI2.NAME4
CT TS1.RLY SOAK.RLY DI2.NAME5
TS2.RLY SOAK.KPT DI1.OP DI2.NAME6
PO TS3.RLY DI1.DVT DI2.NAME7
TS4.RLY DI2.OP DI2.NAME8
ATG TS5.RLY DOWN.RLY DI2.DVT DI2.NAME9
TS6.RLY DOWN.DEV DI3.OP DI2.NAME10
TS7.RLY DI3.DVT DI2.NAME11
RETT FEND.RLY DI4.DVT DI3.NAME1
FEND.KPT DI5.OP DI3.NAME2
RETH DI5.DVT DI3.NAME3
RETL DI6.OP DI3.NAME4
PTEND.RLY DI6.DVT DI3.NAME5
PTEND.KPT DI7.OP DI3.NAME6
BP1.DDV DI7.DVT DI3.NAME7
BP2.DDV DI8.OP DI3.NAME8
BP3.DDV ALM1.RLY 1REF.RLY DI8.DVT DI3.NAME9
BP4.DDV ALM2.RLY 1REF.DYT DI9.OP DI3.NAME10
BP5.DDV ALM3.RLY 2REF.RLY DI9.DVT DI3.NAME11
BP6.DDV ALM4.RLY 2REF.DYT DI10.OP DI3.NAME12
BP7.DDV DI10.DVT DI4.NAME1
BP8.DDV DI11.OP DI4.NAME2
BP1.DPV DI11.DVT DI4.NAME3
BP2.DPV DI12.OP DI4.NAME4
BP3.DPV SA1.RLY ERROR.RLY DI12.DVT DI4.NAME5
BP4.DPV SA2.RLY ERROR.KPT DI13.OP DI4.NAME6
BP5.DPV SA3.RLY UKEY.RLY DI13.DVT DI4.NAME7
BP6.DPV SA4.RLY DI14.OP DI4.NAME8
BP7.DPV DI14.DVT DI4.NAME9
BP8.DPV DI15.OP DI4.NAME10
DI15.DVT DI4.NAME11
DI16.OP DI4.NAME12
T1.RLY DI16.DVT DI5.NAME1
1th Edition of TEMP2000_Series IM : Dec. 15. 2008 Page 54 / 63
Page 57
SAMWONTECH
D-Reg.
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74 DI7.NAME2
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
INPUT OUTPUT DO CONFIG1 DO CONFIG2 DI CONFIG1 DI CONFIG2
1200 1300 1400 1500 1600 1700
T1.DYT DI5.NAME2
T2.RLY DI5.NAME3
T2.DYT DI5.NAME4
T3.RLY DI5.NAME5
T3.DYT DI5.NAME6
T4.RLY DI5.NAME7
T4.DYT DI5.NAME8
T5.RLY DI5.NAME9
T5.DYT DI5.NAME10
T6.RLY DI5.NAME11
T6.DYT DI5.NAME12
T7.RLY DI6.NAME1
T7.DYT DI6.NAME2
DI6.NAME3
DI6.NAME4
DI6.NAME5
DI6.NAME6
DI6.NAME7
DI6.NAME8
DI6.NAME9
DI6.NAME10
DI6.NAME11
DI6.NAME12
DI7.NAME1
DI7.NAME3
DI7.NAME4
DI7.NAME5
DI7.NAME6
DI7.NAME7
DI7.NAME8
DI7.NAME9
DI7.NAME10
DI7.NAME11
DI7.NAME12
DI8.NAME1
DI8.NAME2
DI8.NAME3
DI8.NAME4
DI8.NAME5
DI8.NAME6
DI8.NAME7
DI8.NAME8
DI8.NAME9
DI8.NAME10
DI8.NAME11
DI8.NAME12
1th Edition of TEMP2000_Series IM : Dec. 15. 2008 Page 55 / 63
Page 58
SAMWONTECH
D-Register 1800 ~ 2399
DI CONFIG3 INITIAL1 INITIAL2 PROGRAM PATTERN INFO FILE1
D-Reg.
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24 DI10.NAME12 INFORM2.NAME6 LAMP_SAL4 NPT24 C.TSP24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
1800 1900 2000 2100 2200 2300
DI9.NAME1 LANGUAGE LAMP_IS1 COM_PTNO NPT1 C.TSP1
DI9.NAME2 DISP.MODE LAMP_IS2 COM_SEGNO NPT2 C.TSP2
DI9.NAME3 UKEY.USE LAMP_IS3 PTCOPY_START NPT3 C.TSP3
DI9.NAME4 LAMP_IS4 PTCOPY_END NPT4 C.TSP4
DI9.NAME5 LAMP_IS5 PTDEL_START NPT5 C.TSP5
DI9.NAME6 INFORM1.NAME1 LAMP_IS6 PTDEL_END NPT6 C.TSP6
DI9.NAME7 INFORM1.NAME2 LAMP_IS7 TRIGGER NPT7 C.TSP7
DI9.NAME8 INFORM1.NAME3 LAMP_IS8 ANSWER NPT8 C.TSP8
DI9.NAME9 INFORM1.NAME4 LAMP_TS1 NPT9 C.TSP9
DI9.NAME10 INFORM1.NAME5 LAMP_TS2 NPT10 C.TSP10
DI9.NAME11 INFORM1.NAME6 LAMP_TS3 PATTERN_NAME1 NPT11 C.TSP11
DI9.NAME12 INFORM1.NAME7 LAMP_TS4 PATTERN_NAME2 NPT12 C.TSP12
DI10.NAME1 INFORM1.NAME8 LAMP_TS5 PATTERN_NAME3 NPT13 C.TSP13
DI10.NAME2 INFORM1.NAME9 LAMP_TS6 PATTERN_NAME4 NPT14 C.TSP14
DI10.NAME3 INFORM1.NAME10 LAMP_TS7 PATTERN_NAME5 NPT15 C.TSP15
DI10.NAME4 INFORM1.NAME11 LAMP_TS8 PATTERN_NAME6 NPT16 C.TSP16
DI10.NAME5 INFORM1.NAME12 LAMP_AL1 PATTERN_NAME7 NPT17 C.TSP17
DI10.NAME6 INFORM1.NAME13 LAMP_AL2 PATTERN_NAME8 NPT18 C.TSP18
DI10.NAME7 INFORM2.NAME1 LAMP_AL3 PATTERN_NAME9 NPT19 C.TSP19
DI10.NAME8 INFORM2.NAME2 LAMP_AL4 PATTERN_NAME10 NPT20 C.TSP20
DI10.NAME9 INFORM2.NAME3 LAMP_SAL1 PATTERN_NAME11 NPT21 C.TSP21
DI10.NAME10 INFORM2.NAME4 LAMP_SAL2 PATTERN_NAME12 NPT22 C.TSP22
DI10.NAME11 INFORM2.NAME5 LAMP_SAL3 NPT23 C.TSP23
DI11.NAME1 INFORM2.NAME7 LAMP_T1 NPT25 C.TSP25
DI11.NAME2 INFORM2.NAME8 LAMP_T2 TSP NPT26 C.TSP26
DI11.NAME3 INFORM2.NAME9 LAMP_T3 SEG.TIME_H NPT27 C.TSP27
DI11.NAME4 INFORM2.NAME10 LAMP_T4 SEG.TIME_L NPT28 C.TSP28
DI11.NAME5 INFORM2.NAME11 LAMP_T5 TS1 NPT29 C.TSP29
DI11.NAME6 INFORM2.NAME12 LAMP_T6 TS2 NPT30 C.TSP30
DI11.NAME7 INFORM2.NAME13 LAMP_T7 TS3 NPT31 C.TSP31
DI11.NAME8 INFORM3.NAME1 LAMP_RUN TS4 NPT32 C.TSP32
DI11.NAME9 INFORM3.NAME2 LAMP_1REF TS5 NPT33 C.TSP33
DI11.NAME10 INFORM3.NAME3 LAMP_2REF TS6 NPT34 C.TSP34
DI11.NAME11 INFORM3.NAME4 LAMP_SD TS7 NPT35 C.TSP35
DI11.NAME12 INFORM3.NAME5 LAMP_DI1 TS8 NPT36 C.TSP36
DI12.NAME1 INFORM3.NAME6 LAMP_DI2 SEGAL1 NPT37 C.TSP37
DI12.NAME2 INFORM3.NAME7 LAMP_DI3 SEGAL2 NPT38 C.TSP38
DI12.NAME3 INFORM3.NAME8 LAMP_DI4 SEGAL3 NPT39 C.TSP39
DI12.NAME4 INFORM3.NAME9 LAMP_DI5 SEGAL4 NPT40 C.TSP40
DI12.NAME5 INFORM3.NAME10 LAMP_DI6 SEG_PID NPT41 C.TSP41
DI12.NAME6 INFORM3.NAME11 LAMP_DI7 AUX_OUT NPT42 C.TSP42
DI12.NAME7 INFORM3.NAME12 LAMP_DI8 NPT43 C.TSP43
DI12.NAME8 INFORM3.NAME13 LAMP_ DI9 NPT44 C.TSP44
DI12.NAME9 LAMP_ DI10 START.CODE NPT45 C.TSP45
DI12.NAME10 LAMP_ DI11 START.SP NPT46 C.TSP46
DI12.NAME11 LAMP_ DI12 NPT47 C.TSP47
DI12.NAME12 LAMP_ DI13 NPT48 C.TSP48
DI13.NAME1 LAMP_ DI14 NPT49 C.TSP49
1th Edition of TEMP2000_Series IM : Dec. 15. 2008 Page 56 / 63
Page 59
SAMWONTECH
DI CONFIG3 INITIAL1 INITIAL2 PROGRAM PATTERN INFO FILE1
D-Reg.
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74 DI15.NAME2 NPT74 C.TSP74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
1800 1900 2000 2100 2200 2300
DI13.NAME2 LAMP_ DI15 PT.RPT NPT50 C.TSP50
DI13.NAME3 LAMP_ DI16 PT.EMOD NPT51 C.TSP51
DI13.NAME4 LINK.PT NPT52 C.TSP52
DI13.NAME5 NPT53 C.TSP53
DI13.NAME6 NPT54 C.TSP54
DI13.NAME7 NPT55 C.TSP55
DI13.NAME8 SEG_RPT.S1 NPT56 C.TSP56
DI13.NAME9 SEG_RPT.E1 NPT57 C.TSP57
DI13.NAME10 SEG_RPT.C1 NPT58 C.TSP58
DI13.NAME11 SEG_RPT.S2 NPT59 C.TSP59
DI13.NAME12 SEG_RPT.E2 NPT60 C.TSP60
DI14.NAME1 SEG_RPT.C2 NPT61 C.TSP61
DI14.NAME2 SEG_RPT.S3 NPT62 C.TSP62
DI14.NAME3 SEG_RPT.E3 NPT63 C.TSP63
DI14.NAME4 SEG_RPT.C3 NPT64 C.TSP64
DI14.NAME5 SEG_RPT.S4 NPT65 C.TSP65
DI14.NAME6 SEG_RPT.E4 NPT66 C.TSP66
DI14.NAME7 SEG_RPT.C4 NPT67 C.TSP67
DI14.NAME8 NPT68 C.TSP68
DI14.NAME9 NPT69 C.TSP69
DI14.NAME10 NPT70 C.TSP70
DI14.NAME11 NPT71 C.TSP71
DI14.NAME12 NPT72 C.TSP72
DI15.NAME1 NPT73 C.TSP73
DI15.NAME3 NPT75 C.TSP75
DI15.NAME4 NPT76 C.TSP76
DI15.NAME5 NPT77 C.TSP77
DI15.NAME6 NPT78 C.TSP78
DI15.NAME7 NPT79 C.TSP79
DI15.NAME8 NPT80 C.TSP80
DI15.NAME9 C.TSP81
DI15.NAME10 C.TSP82
DI15.NAME11 C.TSP83
DI15.NAME12 C.TSP84
DI16.NAME1 C.TSP85
DI16.NAME2 C.TSP86
DI16.NAME3 C.TSP87
DI16.NAME4 C.TSP88
DI16.NAME5 C.TSP89
DI16.NAME6 C.TSP90
DI16.NAME7 C.TSP91
DI16.NAME8 C.TSP92
DI16.NAME9 C.TSP93
DI16.NAME10 C.TSP94
DI16.NAME11 C.TSP95
DI16.NAME12 C.TSP96
C.TSP97
C.TSP98
C.TSP99
1th Edition of TEMP2000_Series IM : Dec. 15. 2008 Page 57 / 63
Page 60
SAMWONTECH
D-Register 2400 ~ 2999
D-Reg.
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24 C.SRTIME_H24 C.SRTIME_L24 C.TS1_24 C.TS2_24 C.TS3_24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
FILE2 FILE3 FILE4 FILE5 FILE6 FILE7
2400 2500 2600 2700 2800 2900
C.SRTIME_H1 C.SRTIME_L1 C.TS1_1 C.TS2_1 C.TS3_1
C.SRTIME_H2 C.SRTIME_L2 C.TS1_2 C.TS2_2 C.TS3_2
C.SRTIME_H3 C.SRTIME_L3 C.TS1_3 C.TS2_3 C.TS3_3
C.SRTIME_H4 C.SRTIME_L4 C.TS1_4 C.TS2_4 C.TS3_4
C.SRTIME_H5 C.SRTIME_L5 C.TS1_5 C.TS2_5 C.TS3_5
C.SRTIME_H6 C.SRTIME_L6 C.TS1_6 C.TS2_6 C.TS3_6
C.SRTIME_H7 C.SRTIME_L7 C.TS1_7 C.TS2_7 C.TS3_7
C.SRTIME_H8 C.SRTIME_L8 C.TS1_8 C.TS2_8 C.TS3_8
C.SRTIME_H9 C.SRTIME_L9 C.TS1_9 C.TS2_9 C.TS3_9
C.SRTIME_H10 C.SRTIME_L10 C.TS1_10 C.TS2_10 C.TS3_10
C.SRTIME_H11 C.SRTIME_L11 C.TS1_11 C.TS2_11 C.TS3_11
C.SRTIME_H12 C.SRTIME_L12 C.TS1_12 C.TS2_12 C.TS3_12
C.SRTIME_H13 C.SRTIME_L13 C.TS1_13 C.TS2_13 C.TS3_13
C.SRTIME_H14 C.SRTIME_L14 C.TS1_14 C.TS2_14 C.TS3_14
C.SRTIME_H15 C.SRTIME_L15 C.TS1_15 C.TS2_15 C.TS3_15
C.SRTIME_H16 C.SRTIME_L16 C.TS1_16 C.TS2_16 C.TS3_16
C.SRTIME_H17 C.SRTIME_L17 C.TS1_17 C.TS2_17 C.TS3_17
C.SRTIME_H18 C.SRTIME_L18 C.TS1_18 C.TS2_18 C.TS3_18
C.SRTIME_H19 C.SRTIME_L19 C.TS1_19 C.TS2_19 C.TS3_19
C.SRTIME_H20 C.SRTIME_L20 C.TS1_20 C.TS2_20 C.TS3_20
C.SRTIME_H21 C.SRTIME_L21 C.TS1_21 C.TS2_21 C.TS3_21
C.SRTIME_H22 C.SRTIME_L22 C.TS1_22 C.TS2_22 C.TS3_22
C.SRTIME_H23 C.SRTIME_L23 C.TS1_23 C.TS2_23 C.TS3_23
C.SRTIME_H25 C.SRTIME_L25 C.TS1_25 C.TS2_25 C.TS3_25
C.SRTIME_H26 C.SRTIME_L26 C.TS1_26 C.TS2_26 C.TS3_26
C.SRTIME_H27 C.SRTIME_L27 C.TS1_27 C.TS2_27 C.TS3_27
C.SRTIME_H28 C.SRTIME_L28 C.TS1_28 C.TS2_28 C.TS3_28
C.SRTIME_H29 C.SRTIME_L29 C.TS1_29 C.TS2_29 C.TS3_29
C.SRTIME_H30 C.SRTIME_L30 C.TS1_30 C.TS2_30 C.TS3_30
C.SRTIME_H31 C.SRTIME_L31 C.TS1_31 C.TS2_31 C.TS3_31
C.SRTIME_H32 C.SRTIME_L32 C.TS1_32 C.TS2_32 C.TS3_32
C.SRTIME_H33 C.SRTIME_L33 C.TS1_33 C.TS2_33 C.TS3_33
C.SRTIME_H34 C.SRTIME_L34 C.TS1_34 C.TS2_34 C.TS3_34
C.SRTIME_H35 C.SRTIME_L35 C.TS1_35 C.TS2_35 C.TS3_35
C.SRTIME_H36 C.SRTIME_L36 C.TS1_36 C.TS2_36 C.TS3_36
C.SRTIME_H37 C.SRTIME_L37 C.TS1_37 C.TS2_37 C.TS3_37
C.SRTIME_H38 C.SRTIME_L38 C.TS1_38 C.TS2_38 C.TS3_38
C.SRTIME_H39 C.SRTIME_L39 C.TS1_39 C.TS2_39 C.TS3_39
C.SRTIME_H40 C.SRTIME_L40 C.TS1_40 C.TS2_40 C.TS3_40
C.SRTIME_H41 C.SRTIME_L41 C.TS1_41 C.TS2_41 C.TS3_41
C.SRTIME_H42 C.SRTIME_L42 C.TS1_42 C.TS2_42 C.TS3_42
C.SRTIME_H43 C.SRTIME_L43 C.TS1_43 C.TS2_43 C.TS3_43
C.SRTIME_H44 C.SRTIME_L44 C.TS1_44 C.TS2_44 C.TS3_44
C.SRTIME_H45 C.SRTIME_L45 C.TS1_45 C.TS2_45 C.TS3_45
C.SRTIME_H46 C.SRTIME_L46 C.TS1_46 C.TS2_46 C.TS3_46
C.SRTIME_H47 C.SRTIME_L47 C.TS1_47 C.TS2_47 C.TS3_47
C.SRTIME_H48 C.SRTIME_L48 C.TS1_48 C.TS2_48 C.TS3_48
C.SRTIME_H49 C.SRTIME_L49 C.TS1_49 C.TS2_49 C.TS3_49
1th Edition of TEMP2000_Series IM : Dec. 15. 2008 Page 58 / 63
Page 61
SAMWONTECH
D-Reg.
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74 C.SRTIME_H74 C.SRTIME_L74 C.TS1_74 C.TS2_74 C.TS3_74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
FILE2 FILE3 FILE4 FILE5 FILE6 FILE7
2400 2500 2600 2700 2800 2900
C.SRTIME_H50 C.SRTIME_L50 C.TS1_50 C.TS2_50 C.TS3_50
C.SRTIME_H51 C.SRTIME_L51 C.TS1_51 C.TS2_51 C.TS3_51
C.SRTIME_H52 C.SRTIME_L52 C.TS1_52 C.TS2_52 C.TS3_52
C.SRTIME_H53 C.SRTIME_L53 C.TS1_53 C.TS2_53 C.TS3_53
C.SRTIME_H54 C.SRTIME_L54 C.TS1_54 C.TS2_54 C.TS3_54
C.SRTIME_H55 C.SRTIME_L55 C.TS1_55 C.TS2_55 C.TS3_55
C.SRTIME_H56 C.SRTIME_L56 C.TS1_56 C.TS2_56 C.TS3_56
C.SRTIME_H57 C.SRTIME_L57 C.TS1_57 C.TS2_57 C.TS3_57
C.SRTIME_H58 C.SRTIME_L58 C.TS1_58 C.TS2_58 C.TS3_58
C.SRTIME_H59 C.SRTIME_L59 C.TS1_59 C.TS2_59 C.TS3_59
C.SRTIME_H60 C.SRTIME_L60 C.TS1_60 C.TS2_60 C.TS3_60
C.SRTIME_H61 C.SRTIME_L61 C.TS1_61 C.TS2_61 C.TS3_61
C.SRTIME_H62 C.SRTIME_L62 C.TS1_62 C.TS2_62 C.TS3_62
C.SRTIME_H63 C.SRTIME_L63 C.TS1_63 C.TS2_63 C.TS3_63
C.SRTIME_H64 C.SRTIME_L64 C.TS1_64 C.TS2_64 C.TS3_64
C.SRTIME_H65 C.SRTIME_L65 C.TS1_65 C.TS2_65 C.TS3_65
C.SRTIME_H66 C.SRTIME_L66 C.TS1_66 C.TS2_66 C.TS3_66
C.SRTIME_H67 C.SRTIME_L67 C.TS1_67 C.TS2_67 C.TS3_67
C.SRTIME_H68 C.SRTIME_L68 C.TS1_68 C.TS2_68 C.TS3_68
C.SRTIME_H69 C.SRTIME_L69 C.TS1_69 C.TS2_69 C.TS3_69
C.SRTIME_H70 C.SRTIME_L70 C.TS1_70 C.TS2_70 C.TS3_70
C.SRTIME_H71 C.SRTIME_L71 C.TS1_71 C.TS2_71 C.TS3_71
C.SRTIME_H72 C.SRTIME_L72 C.TS1_72 C.TS2_72 C.TS3_72
C.SRTIME_H73 C.SRTIME_L73 C.TS1_73 C.TS2_73 C.TS3_73
C.SRTIME_H75 C.SRTIME_L75 C.TS1_75 C.TS2_75 C.TS3_75
C.SRTIME_H76 C.SRTIME_L76 C.TS1_76 C.TS2_76 C.TS3_76
C.SRTIME_H77 C.SRTIME_L77 C.TS1_77 C.TS2_77 C.TS3_77
C.SRTIME_H78 C.SRTIME_L78 C.TS1_78 C.TS2_78 C.TS3_78
C.SRTIME_H79 C.SRTIME_L79 C.TS1_79 C.TS2_79 C.TS3_79
C.SRTIME_H80 C.SRTIME_L80 C.TS1_80 C.TS2_80 C.TS3_80
C.SRTIME_H81 C.SRTIME_L81 C.TS1_81 C.TS2_81 C.TS3_81
C.SRTIME_H82 C.SRTIME_L82 C.TS1_82 C.TS2_82 C.TS3_82
C.SRTIME_H83 C.SRTIME_L83 C.TS1_83 C.TS2_83 C.TS3_83
C.SRTIME_H84 C.SRTIME_L84 C.TS1_84 C.TS2_84 C.TS3_84
C.SRTIME_H85 C.SRTIME_L85 C.TS1_85 C.TS2_85 C.TS3_85
C.SRTIME_H86 C.SRTIME_L86 C.TS1_86 C.TS2_86 C.TS3_86
C.SRTIME_H87 C.SRTIME_L87 C.TS1_87 C.TS2_87 C.TS3_87
C.SRTIME_H88 C.SRTIME_L88 C.TS1_88 C.TS2_88 C.TS3_88
C.SRTIME_H89 C.SRTIME_L89 C.TS1_89 C.TS2_89 C.TS3_89
C.SRTIME_H90 C.SRTIME_L90 C.TS1_90 C.TS2_90 C.TS3_90
C.SRTIME_H91 C.SRTIME_L91 C.TS1_91 C.TS2_91 C.TS3_91
C.SRTIME_H92 C.SRTIME_L92 C.TS1_92 C.TS2_92 C.TS3_92
C.SRTIME_H93 C.SRTIME_L93 C.TS1_93 C.TS2_93 C.TS3_93
C.SRTIME_H94 C.SRTIME_L94 C.TS1_94 C.TS2_94 C.TS3_94
C.SRTIME_H95 C.SRTIME_L95 C.TS1_95 C.TS2_95 C.TS3_95
C.SRTIME_H96 C.SRTIME_L96 C.TS1_96 C.TS2_96 C.TS3_96
C.SRTIME_H97 C.SRTIME_L97 C.TS1_97 C.TS2_97 C.TS3_97
C.SRTIME_H98 C.SRTIME_L98 C.TS1_98 C.TS2_98 C.TS3_98
C.SRTIME_H99 C.SRTIME_L99 C.TS1_99 C.TS2_99 C.TS3_99
1th Edition of TEMP2000_Series IM : Dec. 15. 2008 Page 59 / 63
Page 62
SAMWONTECH
D-Register 3000 ~ 3599
D-Reg.
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24 C.TS4_24 C.TS5_24 C.TS6_24 C.TS7_24 C.TS8_24 C.SEGAL1_24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
FILE8 FILE9 FILE10 FILE11 FILE12 FILE13
3000 3100 3200 3300 3400 3500
C.TS4_1 C.TS5_1 C.TS6_1 C.TS7_1 C.TS8_1 C.SEGAL1_1
C.TS4_2 C.TS5_2 C.TS6_2 C.TS7_2 C.TS8_2 C.SEGAL1_2
C.TS4_3 C.TS5_3 C.TS6_3 C.TS7_3 C.TS8_3 C.SEGAL1_3
C.TS4_4 C.TS5_4 C.TS6_4 C.TS7_4 C.TS8_4 C.SEGAL1_4
C.TS4_5 C.TS5_5 C.TS6_5 C.TS7_5 C.TS8_5 C.SEGAL1_5
C.TS4_6 C.TS5_6 C.TS6_6 C.TS7_6 C.TS8_6 C.SEGAL1_6
C.TS4_7 C.TS5_7 C.TS6_7 C.TS7_7 C.TS8_7 C.SEGAL1_7
C.TS4_8 C.TS5_8 C.TS6_8 C.TS7_8 C.TS8_8 C.SEGAL1_8
C.TS4_9 C.TS5_9 C.TS6_9 C.TS7_9 C.TS8_9 C.SEGAL1_9
C.TS4_10 C.TS5_10 C.TS6_10 C.TS7_10 C.TS8_10 C.SEGAL1_10
C.TS4_11 C.TS5_11 C.TS6_11 C.TS7_11 C.TS8_11 C.SEGAL1_11
C.TS4_12 C.TS5_12 C.TS6_12 C.TS7_12 C.TS8_12 C.SEGAL1_12
C.TS4_13 C.TS5_13 C.TS6_13 C.TS7_13 C.TS8_13 C.SEGAL1_13
C.TS4_14 C.TS5_14 C.TS6_14 C.TS7_14 C.TS8_14 C.SEGAL1_14
C.TS4_15 C.TS5_15 C.TS6_15 C.TS7_15 C.TS8_15 C.SEGAL1_15
C.TS4_16 C.TS5_16 C.TS6_16 C.TS7_16 C.TS8_16 C.SEGAL1_16
C.TS4_17 C.TS5_17 C.TS6_17 C.TS7_17 C.TS8_17 C.SEGAL1_17
C.TS4_18 C.TS5_18 C.TS6_18 C.TS7_18 C.TS8_18 C.SEGAL1_18
C.TS4_19 C.TS5_19 C.TS6_19 C.TS7_19 C.TS8_19 C.SEGAL1_19
C.TS4_20 C.TS5_20 C.TS6_20 C.TS7_20 C.TS8_20 C.SEGAL1_20
C.TS4_21 C.TS5_21 C.TS6_21 C.TS7_21 C.TS8_21 C.SEGAL1_21
C.TS4_22 C.TS5_22 C.TS6_22 C.TS7_22 C.TS8_22 C.SEGAL1_22
C.TS4_23 C.TS5_23 C.TS6_23 C.TS7_23 C.TS8_23 C.SEGAL1_23
C.TS4_25 C.TS5_25 C.TS6_25 C.TS7_25 C.TS8_25 C.SEGAL1_25
C.TS4_26 C.TS5_26 C.TS6_26 C.TS7_26 C.TS8_26 C.SEGAL1_26
C.TS4_27 C.TS5_27 C.TS6_27 C.TS7_27 C.TS8_27 C.SEGAL1_27
C.TS4_28 C.TS5_28 C.TS6_28 C.TS7_28 C.TS8_28 C.SEGAL1_28
C.TS4_29 C.TS5_29 C.TS6_29 C.TS7_29 C.TS8_29 C.SEGAL1_29
C.TS4_30 C.TS5_30 C.TS6_30 C.TS7_30 C.TS8_30 C.SEGAL1_30
C.TS4_31 C.TS5_31 C.TS6_31 C.TS7_31 C.TS8_31 C.SEGAL1_31
C.TS4_32 C.TS5_32 C.TS6_32 C.TS7_32 C.TS8_32 C.SEGAL1_32
C.TS4_33 C.TS5_33 C.TS6_33 C.TS7_33 C.TS8_33 C.SEGAL1_33
C.TS4_34 C.TS5_34 C.TS6_34 C.TS7_34 C.TS8_34 C.SEGAL1_34
C.TS4_35 C.TS5_35 C.TS6_35 C.TS7_35 C.TS8_35 C.SEGAL1_35
C.TS4_36 C.TS5_36 C.TS6_36 C.TS7_36 C.TS8_36 C.SEGAL1_36
C.TS4_37 C.TS5_37 C.TS6_37 C.TS7_37 C.TS8_37 C.SEGAL1_37
C.TS4_38 C.TS5_38 C.TS6_38 C.TS7_38 C.TS8_38 C.SEGAL1_38
C.TS4_39 C.TS5_39 C.TS6_39 C.TS7_39 C.TS8_39 C.SEGAL1_39
C.TS4_40 C.TS5_40 C.TS6_40 C.TS7_40 C.TS8_40 C.SEGAL1_40
C.TS4_41 C.TS5_41 C.TS6_41 C.TS7_41 C.TS8_41 C.SEGAL1_41
C.TS4_42 C.TS5_42 C.TS6_42 C.TS7_42 C.TS8_42 C.SEGAL1_42
C.TS4_43 C.TS5_43 C.TS6_43 C.TS7_43 C.TS8_43 C.SEGAL1_43
C.TS4_44 C.TS5_44 C.TS6_44 C.TS7_44 C.TS8_44 C.SEGAL1_44
C.TS4_45 C.TS5_45 C.TS6_45 C.TS7_45 C.TS8_45 C.SEGAL1_45
C.TS4_46 C.TS5_46 C.TS6_46 C.TS7_46 C.TS8_46 C.SEGAL1_46
C.TS4_47 C.TS5_47 C.TS6_47 C.TS7_47 C.TS8_47 C.SEGAL1_47
C.TS4_48 C.TS5_48 C.TS6_48 C.TS7_48 C.TS8_48 C.SEGAL1_48
C.TS4_49 C.TS5_49 C.TS6_49 C.TS7_49 C.TS8_49 C.SEGAL1_49
1th Edition of TEMP2000_Series IM : Dec. 15. 2008 Page 60 / 63
Page 63
SAMWONTECH
D-Reg.
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74 C.TS4_74 C.TS5_74 C.TS6_74 C.TS7_74 C.TS8_74 C.SEGAL1_74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
FILE8 FILE9 FILE10 FILE11 FILE12 FILE13
3000 3100 3200 3300 3400 3500
C.TS4_50 C.TS5_50 C.TS6_50 C.TS7_50 C.TS8_50 C.SEGAL1_50
C.TS4_51 C.TS5_51 C.TS6_51 C.TS7_51 C.TS8_51 C.SEGAL1_51
C.TS4_52 C.TS5_52 C.TS6_52 C.TS7_52 C.TS8_52 C.SEGAL1_52
C.TS4_53 C.TS5_53 C.TS6_53 C.TS7_53 C.TS8_53 C.SEGAL1_53
C.TS4_54 C.TS5_54 C.TS6_54 C.TS7_54 C.TS8_54 C.SEGAL1_54
C.TS4_55 C.TS5_55 C.TS6_55 C.TS7_55 C.TS8_55 C.SEGAL1_55
C.TS4_56 C.TS5_56 C.TS6_56 C.TS7_56 C.TS8_56 C.SEGAL1_56
C.TS4_57 C.TS5_57 C.TS6_57 C.TS7_57 C.TS8_57 C.SEGAL1_57
C.TS4_58 C.TS5_58 C.TS6_58 C.TS7_58 C.TS8_58 C.SEGAL1_58
C.TS4_59 C.TS5_59 C.TS6_59 C.TS7_59 C.TS8_59 C.SEGAL1_59
C.TS4_60 C.TS5_60 C.TS6_60 C.TS7_60 C.TS8_60 C.SEGAL1_60
C.TS4_61 C.TS5_61 C.TS6_61 C.TS7_61 C.TS8_61 C.SEGAL1_61
C.TS4_62 C.TS5_62 C.TS6_62 C.TS7_62 C.TS8_62 C.SEGAL1_62
C.TS4_63 C.TS5_63 C.TS6_63 C.TS7_63 C.TS8_63 C.SEGAL1_63
C.TS4_64 C.TS5_64 C.TS6_64 C.TS7_64 C.TS8_64 C.SEGAL1_64
C.TS4_65 C.TS5_65 C.TS6_65 C.TS7_65 C.TS8_65 C.SEGAL1_65
C.TS4_66 C.TS5_66 C.TS6_66 C.TS7_66 C.TS8_66 C.SEGAL1_66
C.TS4_67 C.TS5_67 C.TS6_67 C.TS7_67 C.TS8_67 C.SEGAL1_67
C.TS4_68 C.TS5_68 C.TS6_68 C.TS7_68 C.TS8_68 C.SEGAL1_68
C.TS4_69 C.TS5_69 C.TS6_69 C.TS7_69 C.TS8_69 C.SEGAL1_69
C.TS4_70 C.TS5_70 C.TS6_70 C.TS7_70 C.TS8_70 C.SEGAL1_70
C.TS4_71 C.TS5_71 C.TS6_71 C.TS7_71 C.TS8_71 C.SEGAL1_71
C.TS4_72 C.TS5_72 C.TS6_72 C.TS7_72 C.TS8_72 C.SEGAL1_72
C.TS4_73 C.TS5_73 C.TS6_73 C.TS7_73 C.TS8_73 C.SEGAL1_73
C.TS4_75 C.TS5_75 C.TS6_75 C.TS7_75 C.TS8_75 C.SEGAL1_75
C.TS4_76 C.TS5_76 C.TS6_76 C.TS7_76 C.TS8_76 C.SEGAL1_76
C.TS4_77 C.TS5_77 C.TS6_77 C.TS7_77 C.TS8_77 C.SEGAL1_77
C.TS4_78 C.TS5_78 C.TS6_78 C.TS7_78 C.TS8_78 C.SEGAL1_78
C.TS4_79 C.TS5_79 C.TS6_79 C.TS7_79 C.TS8_79 C.SEGAL1_79
C.TS4_80 C.TS5_80 C.TS6_80 C.TS7_80 C.TS8_80 C.SEGAL1_80
C.TS4_81 C.TS5_81 C.TS6_81 C.TS7_81 C.TS8_81 C.SEGAL1_81
C.TS4_82 C.TS5_82 C.TS6_82 C.TS7_82 C.TS8_82 C.SEGAL1_82
C.TS4_83 C.TS5_83 C.TS6_83 C.TS7_83 C.TS8_83 C.SEGAL1_83
C.TS4_84 C.TS5_84 C.TS6_84 C.TS7_84 C.TS8_84 C.SEGAL1_84
C.TS4_85 C.TS5_85 C.TS6_85 C.TS7_85 C.TS8_85 C.SEGAL1_85
C.TS4_86 C.TS5_86 C.TS6_86 C.TS7_86 C.TS8_86 C.SEGAL1_86
C.TS4_87 C.TS5_87 C.TS6_87 C.TS7_87 C.TS8_87 C.SEGAL1_87
C.TS4_88 C.TS5_88 C.TS6_88 C.TS7_88 C.TS8_88 C.SEGAL1_88
C.TS4_89 C.TS5_89 C.TS6_89 C.TS7_89 C.TS8_89 C.SEGAL1_89
C.TS4_90 C.TS5_90 C.TS6_90 C.TS7_90 C.TS8_90 C.SEGAL1_90
C.TS4_91 C.TS5_91 C.TS6_91 C.TS7_91 C.TS8_91 C.SEGAL1_91
C.TS4_92 C.TS5_92 C.TS6_92 C.TS7_92 C.TS8_92 C.SEGAL1_92
C.TS4_93 C.TS5_93 C.TS6_93 C.TS7_93 C.TS8_93 C.SEGAL1_93
C.TS4_94 C.TS5_94 C.TS6_94 C.TS7_94 C.TS8_94 C.SEGAL1_94
C.TS4_95 C.TS5_95 C.TS6_95 C.TS7_95 C.TS8_95 C.SEGAL1_95
C.TS4_96 C.TS5_96 C.TS6_96 C.TS7_96 C.TS8_96 C.SEGAL1_96
C.TS4_97 C.TS5_97 C.TS6_97 C.TS7_97 C.TS8_97 C.SEGAL1_97
C.TS4_98 C.TS5_98 C.TS6_98 C.TS7_98 C.TS8_98 C.SEGAL1_98
C.TS4_99 C.TS5_99 C.TS6_99 C.TS7_99 C.TS8_99 C.SEGAL1_99
1th Edition of TEMP2000_Series IM : Dec. 15. 2008 Page 61 / 63
Page 64
SAMWONTECH
D-Register 3600 ~ 4199
D-Reg.
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24 C.SEGAL2_24 C.SEGAL3_24 C.SEGAL4_24 C.SEGPID_24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
FILE14 FILE15 FILE16 FILE17 RESERVED RESERVED
3600 3700 3800 3900 4000 4100
C.SEGAL2_1 C.SEGAL3_1 C.SEGAL4_1 C.SEGPID_1
C.SEGAL2_2 C.SEGAL3_2 C.SEGAL4_2 C.SEGPID_2
C.SEGAL2_3 C.SEGAL3_3 C.SEGAL4_3 C.SEGPID_3
C.SEGAL2_4 C.SEGAL3_4 C.SEGAL4_4 C.SEGPID_4
C.SEGAL2_5 C.SEGAL3_5 C.SEGAL4_5 C.SEGPID_5
C.SEGAL2_6 C.SEGAL3_6 C.SEGAL4_6 C.SEGPID_6
C.SEGAL2_7 C.SEGAL3_7 C.SEGAL4_7 C.SEGPID_7
C.SEGAL2_8 C.SEGAL3_8 C.SEGAL4_8 C.SEGPID_8
C.SEGAL2_9 C.SEGAL3_9 C.SEGAL4_9 C.SEGPID_9
C.SEGAL2_10 C.SEGAL3_10 C.SEGAL4_10 C.SEGPID_10
C.SEGAL2_11 C.SEGAL3_11 C.SEGAL4_11 C.SEGPID_11
C.SEGAL2_12 C.SEGAL3_12 C.SEGAL4_12 C.SEGPID_12
C.SEGAL2_13 C.SEGAL3_13 C.SEGAL4_13 C.SEGPID_13
C.SEGAL2_14 C.SEGAL3_14 C.SEGAL4_14 C.SEGPID_14
C.SEGAL2_15 C.SEGAL3_15 C.SEGAL4_15 C.SEGPID_15
C.SEGAL2_16 C.SEGAL3_16 C.SEGAL4_16 C.SEGPID_16
C.SEGAL2_17 C.SEGAL3_17 C.SEGAL4_17 C.SEGPID_17
C.SEGAL2_18 C.SEGAL3_18 C.SEGAL4_18 C.SEGPID_18
C.SEGAL2_19 C.SEGAL3_19 C.SEGAL4_19 C.SEGPID_19
C.SEGAL2_20 C.SEGAL3_20 C.SEGAL4_20 C.SEGPID_20
C.SEGAL2_21 C.SEGAL3_21 C.SEGAL4_21 C.SEGPID_21
C.SEGAL2_22 C.SEGAL3_22 C.SEGAL4_22 C.SEGPID_22
C.SEGAL2_23 C.SEGAL3_23 C.SEGAL4_23 C.SEGPID_23
C.SEGAL2_25 C.SEGAL3_25 C.SEGAL4_25 C.SEGPID_25
C.SEGAL2_26 C.SEGAL3_26 C.SEGAL4_26 C.SEGPID_26
C.SEGAL2_27 C.SEGAL3_27 C.SEGAL4_27 C.SEGPID_27
C.SEGAL2_28 C.SEGAL3_28 C.SEGAL4_28 C.SEGPID_28
C.SEGAL2_29 C.SEGAL3_29 C.SEGAL4_29 C.SEGPID_29
C.SEGAL2_30 C.SEGAL3_30 C.SEGAL4_30 C.SEGPID_30
C.SEGAL2_31 C.SEGAL3_31 C.SEGAL4_31 C.SEGPID_31
C.SEGAL2_32 C.SEGAL3_32 C.SEGAL4_32 C.SEGPID_32
C.SEGAL2_33 C.SEGAL3_33 C.SEGAL4_33 C.SEGPID_33
C.SEGAL2_34 C.SEGAL3_34 C.SEGAL4_34 C.SEGPID_34
C.SEGAL2_35 C.SEGAL3_35 C.SEGAL4_35 C.SEGPID_35
C.SEGAL2_36 C.SEGAL3_36 C.SEGAL4_36 C.SEGPID_36
C.SEGAL2_37 C.SEGAL3_37 C.SEGAL4_37 C.SEGPID_37
C.SEGAL2_38 C.SEGAL3_38 C.SEGAL4_38 C.SEGPID_38
C.SEGAL2_39 C.SEGAL3_39 C.SEGAL4_39 C.SEGPID_39
C.SEGAL2_40 C.SEGAL3_40 C.SEGAL4_40 C.SEGPID_40
C.SEGAL2_41 C.SEGAL3_41 C.SEGAL4_41 C.SEGPID_41
C.SEGAL2_42 C.SEGAL3_42 C.SEGAL4_42 C.SEGPID_42
C.SEGAL2_43 C.SEGAL3_43 C.SEGAL4_43 C.SEGPID_43
C.SEGAL2_44 C.SEGAL3_44 C.SEGAL4_44 C.SEGPID_44
C.SEGAL2_45 C.SEGAL3_45 C.SEGAL4_45 C.SEGPID_45
C.SEGAL2_46 C.SEGAL3_46 C.SEGAL4_46 C.SEGPID_46
C.SEGAL2_47 C.SEGAL3_47 C.SEGAL4_47 C.SEGPID_47
C.SEGAL2_48 C.SEGAL3_48 C.SEGAL4_48 C.SEGPID_48
C.SEGAL2_49 C.SEGAL3_49 C.SEGAL4_49 C.SEGPID_49
1th Edition of TEMP2000_Series IM : Dec. 15. 2008 Page 62 / 63
Page 65
SAMWONTECH
D-Reg.
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74 C.SEGAL2_74 C.SEGAL3_74 C.SEGAL4_74 C.SEGPID_74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
FILE14 FILE15 FILE16 FILE17 RESERVED RESERVED
3600 3700 3800 3900 4000 4100
C.SEGAL2_50 C.SEGAL3_50 C.SEGAL4_50 C.SEGPID_50
C.SEGAL2_51 C.SEGAL3_51 C.SEGAL4_51 C.SEGPID_51
C.SEGAL2_52 C.SEGAL3_52 C.SEGAL4_52 C.SEGPID_52
C.SEGAL2_53 C.SEGAL3_53 C.SEGAL4_53 C.SEGPID_53
C.SEGAL2_54 C.SEGAL3_54 C.SEGAL4_54 C.SEGPID_54
C.SEGAL2_55 C.SEGAL3_55 C.SEGAL4_55 C.SEGPID_55
C.SEGAL2_56 C.SEGAL3_56 C.SEGAL4_56 C.SEGPID_56
C.SEGAL2_57 C.SEGAL3_57 C.SEGAL4_57 C.SEGPID_57
C.SEGAL2_58 C.SEGAL3_58 C.SEGAL4_58 C.SEGPID_58
C.SEGAL2_59 C.SEGAL3_59 C.SEGAL4_59 C.SEGPID_59
C.SEGAL2_60 C.SEGAL3_60 C.SEGAL4_60 C.SEGPID_60
C.SEGAL2_61 C.SEGAL3_61 C.SEGAL4_61 C.SEGPID_61
C.SEGAL2_62 C.SEGAL3_62 C.SEGAL4_62 C.SEGPID_62
C.SEGAL2_63 C.SEGAL3_63 C.SEGAL4_63 C.SEGPID_63
C.SEGAL2_64 C.SEGAL3_64 C.SEGAL4_64 C.SEGPID_64
C.SEGAL2_65 C.SEGAL3_65 C.SEGAL4_65 C.SEGPID_65
C.SEGAL2_66 C.SEGAL3_66 C.SEGAL4_66 C.SEGPID_66
C.SEGAL2_67 C.SEGAL3_67 C.SEGAL4_67 C.SEGPID_67
C.SEGAL2_68 C.SEGAL3_68 C.SEGAL4_68 C.SEGPID_68
C.SEGAL2_69 C.SEGAL3_69 C.SEGAL4_69 C.SEGPID_69
C.SEGAL2_70 C.SEGAL3_70 C.SEGAL4_70 C.SEGPID_70
C.SEGAL2_71 C.SEGAL3_71 C.SEGAL4_71 C.SEGPID_71
C.SEGAL2_72 C.SEGAL3_72 C.SEGAL4_72 C.SEGPID_72
C.SEGAL2_73 C.SEGAL3_73 C.SEGAL4_73 C.SEGPID_73
C.SEGAL2_75 C.SEGAL3_75 C.SEGAL4_75 C.SEGPID_75
C.SEGAL2_76 C.SEGAL3_76 C.SEGAL4_76 C.SEGPID_76
C.SEGAL2_77 C.SEGAL3_77 C.SEGAL4_77 C.SEGPID_77
C.SEGAL2_78 C.SEGAL3_78 C.SEGAL4_78 C.SEGPID_78
C.SEGAL2_79 C.SEGAL3_79 C.SEGAL4_79 C.SEGPID_79
C.SEGAL2_80 C.SEGAL3_80 C.SEGAL4_80 C.SEGPID_80
C.SEGAL2_81 C.SEGAL3_81 C.SEGAL4_81 C.SEGPID_81
C.SEGAL2_82 C.SEGAL3_82 C.SEGAL4_82 C.SEGPID_82
C.SEGAL2_83 C.SEGAL3_83 C.SEGAL4_83 C.SEGPID_83
C.SEGAL2_84 C.SEGAL3_84 C.SEGAL4_84 C.SEGPID_84
C.SEGAL2_85 C.SEGAL3_85 C.SEGAL4_85 C.SEGPID_85
C.SEGAL2_86 C.SEGAL3_86 C.SEGAL4_86 C.SEGPID_86
C.SEGAL2_87 C.SEGAL3_87 C.SEGAL4_87 C.SEGPID_87
C.SEGAL2_88 C.SEGAL3_88 C.SEGAL4_88 C.SEGPID_88
C.SEGAL2_89 C.SEGAL3_89 C.SEGAL4_89 C.SEGPID_89
C.SEGAL2_90 C.SEGAL3_90 C.SEGAL4_90 C.SEGPID_90
C.SEGAL2_91 C.SEGAL3_91 C.SEGAL4_91 C.SEGPID_91
C.SEGAL2_92 C.SEGAL3_92 C.SEGAL4_92 C.SEGPID_92
C.SEGAL2_93 C.SEGAL3_93 C.SEGAL4_93 C.SEGPID_93
C.SEGAL2_94 C.SEGAL3_94 C.SEGAL4_94 C.SEGPID_94
C.SEGAL2_95 C.SEGAL3_95 C.SEGAL4_95 C.SEGPID_95
C.SEGAL2_96 C.SEGAL3_96 C.SEGAL4_96 C.SEGPID_96
C.SEGAL2_97 C.SEGAL3_97 C.SEGAL4_97 C.SEGPID_97
C.SEGAL2_98 C.SEGAL3_98 C.SEGAL4_98 C.SEGPID_98
C.SEGAL2_99 C.SEGAL3_99 C.SEGAL4_99 C.SEGPID_99
1th Edition of TEMP2000_Series IM : Dec. 15. 2008 Page 63 / 63
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