E2T0 DVP

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Transcription:

29-5-26 5116868-E2T DVP-11363-1

ENGLISH Thank you for choosing Delta s DVP series PLC. DVP4TC-E2 temperature measurement module receives 4 points of external thermocouple temperature sensors (J-type, K-type, R-type, S-type, T-type, E-type, N-type, 8mV) and convert them into 16-bit digital signals. Users can select temperatures in Celsius (resolution:.1 C) or Fahrenheit (resolution:.1 F). In addition, you can access the data in the module by applying FROM/TO instructions or read the average value of channels directly by using MOV instruction (Please refer to allocation of special registers D99 ~ D9999). This instruction sheet provides only information on the electrical specification, general functions, installation and wiring. For detailed program design and applicable instructions, please refer to DVP-ES2 Operation Manual: Modules. For details of the optional peripheral, please refer to the instruction sheet enclosed in it. This is an OPEN TYPE I/O module 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 for operating the enclosure) in case danger and damage on the device may occur. DO NOT connect the input AC power supply to any of the I/O terminals; otherwise serious damage may occur. Check all the wiring again before switching on the power. Make sure the ground terminal is correctly grounded in order to prevent electromagnetic interference. Product Profile & Dimension Removable I/O terminal Model Name Power / A->D / Error indicators I/O module connection port 4TC-E2 4AI-TC Mounting slot (35mm) I/O module clip I/O module connection port I/O terminal No. Direct mounting hole [ Figure 1 ] 9 98 16 11 62 7 78 61.5 [ Figure 2 ] Unit: mm - 1 -

External Wiring Thermocouple + Voltage input -8mV~8mV Terminal of power module - Grounding (1 Shielded cable *1 Shielded cable *1 *2 System grounding or less) CH1 CH4-2 - I1+ I1 - I4+ I4-24V V Cold-Junction Compensation DC/ DC Converter Note 1: Wiring for analog input should adopt the connection cable or shielding cable of thermocouple temperature sensor J-type, K-type, R-type, S-type, T-type, E-type and N-type and should be separated from other power cable or wirings that may cause interference. Note 2: Connect the terminal on both power module and DVP4TC-E2 to the system grounding point then ground the point or connect it to the cover of power distribution cabinet. I/O Terminal Layout I1+ I1- I2+ I2- I3+ I3- I4+ I4- DVP4TC-E2 (4AI) 24V V Electrical Specifications DVP4TC-E2 Power supply voltage 24VDC (2.4VDC ~ 28.8VDC) (-15% ~ +2%) Max. rated power consumption Connector Operation/storage Vibration/shock immunity Series connection to DVP-PLC MPU 1.2W, supplied by external power source MUX 5V AG European standard removable terminal block (Pin pitch: 5mm) Operation: C~55 C (temp.), 5~95% (humidity), Pollution degree2 Storage: -25 C~7 C (temp.), 5~95% (humidity) International standards: IEC61131-2, IEC 68-2-6 (TEST Fc)/ IEC61131-2 & IEC 68-2-27 (TEST Ea) The modules are numbered from to 7 automatically by their distance from MPU. No. is the closest to MPU and No.7 is the furthest. Maximum 8 modules are allowed to connect to MPU and will not occupy any digital I/O points. Functions Specifications DVP4TC-E2 Celsius ( C) Fahrenheit ( F) Analog input channel 4 channels Digital data format Response time Overall accuracy Applicable sensor type 2 s complement of 16 bits 2ms / each channel Voltage input ±.3% when in full scale (25 C, 77 F) ±.6% when in full scale within the range of ~ 55 C, 32 ~ 131 F J-type, K-type, R-type, S-type, T-type, E-type, N-type thermocouple; ±8mV voltage input

DVP4TC-E2 Celsius ( C) Fahrenheit ( F) Range of input Range of digital conversion J-type: -1 C ~1,15 C K-type: -1 C ~ 1,35 C R-type: C ~ 1,75 C S-type: C ~ 1,75 C T-type: -15 C ~ 39 C E-type: -15 C ~ 98 C N-type: -15 C ~ 1,28 C J-type: K-1, ~ K11,5 K- type: K-1, ~ K13,5 R-type: K- ~ K17,5 S-type: K ~ K17,5 T-type: K-1,5 ~ K3,9 E-type: K-1,5 ~ K9,8 N-type: K-1,5 ~ K12,8 J-type: -148 F ~ 2,12 F K-type: -148 F ~ 2,462 F R-type: 32 F ~ 3,182 F S-type: 32 F ~ 3,182 F T-type: -238 F ~734 F E-type: -238 F ~ 1,796 F N-type: -238 F ~2,336 F J-type: K-1,48 ~ K21,2 K-type: K-1,48 ~ K24,62 R-type: K32 ~ K31,82 S-type: K32 ~ K31,82 T-type: K-2,38 ~ K7,34 E-type: K-2,38 ~ K17,96 N-type: K-2,38 ~ K23,36 Resolution 16 bits (.1 C) 16bits (.1 F) Average function Voltage input ±8mV ±8, 16 bits (.1mV) Supported. Available for setting up sampling range in CR#8 ~ CR#11. Range: K1 ~ K1. Self-diagnosis Isolation Upper and lower bound detection in all channels Optical coupler isolation between digital circuits and analog circuits. Isolation between analog channels. 5VDC between digital circuits and Ground 5VDC between analog circuits and Ground 5VDC between analog circuits and digital circuits 5VDC between 24VDC and Ground 12VAC between analog channels Control Register CR# Attrib. Register content Description # O R Model name Set up by the system: DVP4TC-E2 model code = H 83 #1 O R Firmware version Display the current firmware version in hex. #2 O R/W CH1 Input mode setting #3 O R/W CH2 Input mode setting #4 O R/W CH3 Input mode setting #5 O R/W CH4 Input mode setting #7 O R/W Temperature unit setting #8 O R/W CH1 sampling range #9 O R/W CH2 sampling range #1 O R/W CH3 sampling range #11 O R/W CH4 sampling range #12 X R #13 X R Average temperature measured at CH1 Average temperature measured at CH2-3 - Input mode: Default = H. Take CH1 for example: Mode (H ): J-type (-1 C ~1,15 C) Mode 1 (H 1): K-type (-1 C ~ 1,35 C) Mode 2 (H 2): R-type ( C ~ 1,75 C) Mode 3 (H 3): S-type ( C ~ 1,75 C) Mode 4 (H 4): T-type (-15 C ~ 39 C) Mode 5 (H 5): E-type (-15 C ~ 98 C) Mode 6 (H 6): N-type (-15 C ~ 1,28 C) Mode 7 (H 7): -8mV~+8mV Mode -1(H FFFF): Close Select the temperature unit (Celsius C / Fahrenheit F). Default = H( C) Set sampling range at CH1 ~ CH4 Range = K1 ~ K1 Default = K1 Average temperature measured at CH1 ~ Ch2 Temperature unit: set in CR#7

CR# Attrib. Register content Description #14 X R #15 X R #2 X R #21 X R #22 X R #23 X R Average temperature measured at CH3 Average temperature measured at CH4 Present temperature measured at CH1 Present temperature measured at CH2 Present temperature measured at CH3 Present temperature measured at CH4 #28 O R/W Adjusted Offset value of CH1 #29 O R/W Adjusted Offset value of CH2 #3 O R/W Adjusted Offset value of CH3 #31 O R/W Adjusted Offset value of CH4 Average temperature measured at CH3 ~ Ch4 Temperature unit: set in CR#7 Present temperature measured at CH1 ~ CH4 Temperature unit: set in CR#7 Set the adjusted Offset value of Ch1 ~ Ch4. Default = K Range: K-4 ~ K4 Temperature unit: set in CR#7 Definition of Offset at Ch1 ~ Ch4 in DVP4TC-E2: Deviation digital value from the target value. #4 O R/W #41 X R/W #42 X R/W #43 X R Error status #1 O R/W Function: Set value changing prohibited Function: Save all the set values Function: Return to default setting Function: Enable / Disable limit detection #11 X R/W Upper and lower bound status #12 O R/W Set value of CH1 upper bound #13 O R/W Set value of CH2 upper bound #14 O R/W Set value of CH3 upper bound #15 O R/W Set value of CH4 upper bound #18 O R/W Set value of CH1 lower bound #19 O R/W Set value of CH2 lower bound #11 O R/W Set value of CH3 lower bound #111 O R/W Set value of CH4 lower bound CR#43: Error status value. See the table below: Prohibit set value changing in CH1 ~ CH4 Save all the set values, Default =H Set all values to default setting, Default = H Register for storing all error status. See the table of error status for more information. Enable / Disable the upper and lower bound detection function. Default= H. Display the upper and lower bound value, Default =H Set value of CH1~CH4 upper bound. Default = K32. Set value of CH1~CH4 lower bound. Default = K-32. Description bit K1 (H 1) Power supply error bit6 K64 (H 4) CH4 Conversion error bit1 K2 (H 2) Hardware error bit9 K512(H 2) Mode setting error bit2 K4 (H 4) Upper / lower bound error bit1 K124(H 4) bit3 K8 (H 8) CH1 Conversion error bit11 K248(H 8) bit4 K16 (H 1) CH2 Conversion error bit12 K496(H 1) bit5 K32 (H 2) CH3 Conversion error bit13 K8192(H 2) Sampling range error Upper / lower bound setting error Set value changing prohibited Communication breakdown on next module - 4 -

Description Note: Each error status is determined by the corresponding bit (b ~ b13) and there may be more than 2 errors occurring at the same time. = normal; 1 = error PID Control Registers CR# CH1 CH2 CH3 CH4 #12 #14 #16 #18 O R/W Save Register content Description Set temperature value Please set the temperature value according to proper range of each sensor type. Default = K #121 #141 #161 #181 O R/W Sampling time (s) Range: K1 ~ K3 (s). Default = K2 #122 #142 #162 #182 O R/W K P Proportional control constant. Default = K121 #123 #143 #163 #183 O R/W K I Integral constant. Default = K2,98 #124 #144 #164 #184 O R/W K D Derivative constant. Default = K-29 #125 #145 #165 #185 O R/W Upper limit of I value Upper limit of I value. Default = K #126 #146 #166 #186 O R/W Lower limit of I value Lower limit of I value. Default = K #127 #147 #167 #187 X R I value Current accumulated offset value #128 #148 #168 #188 O R/W Heating/cooling : Heater, 1: Cooler. Default = K #129 #149 #169 #189 O R/W Upper limit of output Upper limit of output. Default = K32, #13 #15 #17 #19 O R/W Lower limit of output Lower limit of output. Default = K #131 #151 #171 #191 X R Output percentage Output percentage (Unit:.1%) #132 #152 #172 #192 X R Output width (ms) Width of control output. Unit: ms #133 #153 #173 #193 X R Output cycle (ms) Cycle of control output. Unit: ms #134 #154 #174 #194 X R Output volume Output volume #135 #155 #175 #195 X R/W PID_RUN/STOP : STOP, 1: RUN. Default = K #136 #156 #176 #196 X R/W Auto-tuning : Disabled, 1: Auto-tuning. Default = K Symbols: O: When CR#41 is set to H 5678, the set value of CR will be saved. X: set value will not be saved. R: able to read data by using FROM instruction. W: able to write data by using TO instruction. Explanation on Special Registers D99~D9999 When DVP-ES2 MPU is connected with modules, registers D99~D9999 will be reserved for storing values from modules. You can apply MOV instruction to operate values in D99~D9999. When DVP-ES2 MPU is connected with DVP4TC-E2, the configuration of special registers is as below: Module # Module #1 Module #2 Module #3 Module #4 Module #5 Module #6 Module #7 Description D132 D1321 D1322 D1323 D1324 D1325 D1326 D1327 Model Code D99 D991 D992 D993 D994 D995 D996 D997 D991 D9911 D9921 D9931 D9941 D9951 D9961 D9971 D992 D9912 D9922 D9932 D9942 D9952 D9962 D9972 D993 D9913 D9923 D9933 D9943 D9953 D9963 D9973 CH1 average temperature CH2 average temperature CH3 average temperature CH4 average temperature - 5 -

Note 1: D99 ~ D9999 are average input values of CH1 ~ CH4 and the sampling range is K1 ~ K1. When the sampling range is set to K1, the values displayed in D99~D9999 are current values. You can use: 1. ES_AIO Configuration Function of WPLSoft or 2. FROM/TO instructions (CR#8 ~ CR#11) to set the sampling range as K1. Adjust TC Conversion Curve Users can adjust the conversion curves according to the actual needs by changing the Offset value (CR#28 ~ CR#31). Offset in DVP4TC-E2: Deviation digital value from the target value. Equation for temperature measured Mode ~ Mode6:.1 X ( ) Y Offset. 1( ) Y=Digital output, X=Measured input Equation for voltage input Mode7:.1mV = 8mV/8 X (mv ) Y Offset. 1(m V ) Mode : J-type thermocouple Digital output +11,5 (+21,2) Y=Digital output, X=Voltage input Mode 1: K-type thermocouple +13,5 (+24,62) Digital output -1 C (-148 F) Measured temperature input -1 C (-148 F) Measured temperature input +1,15 C (+2,12 F) -1,(-1,48) +1,35 C (+2,462 F) -1,(-1,48) Mode 2: R-type thermocouple Mode 3: S-type thermocouple Digital output +17,5 (+31,82) Mode 4: T-type thermocouple Digital output +3,9 (+7,34) C (-32 F) Measured temperature input -15 C (-238 F) Measured temperature input (-32) +1,75 C (+3,182 F) +39 C (+734 F) -1,5(-2,38) Mode 5: E-type thermocouple Digital output +9,8 (+17,96) Mode 6: N-type thermocouple Digital output +12,8 (+23,36) -15 C (-238 F) Measured temperature input -15 C (-238 F) Measured input impedance +98 C (+1,796 F) -1,5(-2,38) +1,28 C (+2,336 F) -1,5(-2,38) - 6 -

Mode of CR#2~ CR#5-1 C ~ 115 C (-1~115) -148 F ~ 212 F (-148~212) Mode 1 of CR#2~ CR#5-1 C ~ 135 C (-1~135) -148 F ~ 2462 F (-148~2462) Mode 2, 3 of CR#2~ CR#5 C ~ 175 C (~175) 32 F ~ 3182 F (32~3182) Mode 4 of CR#2~ CR#5-15 C ~ 39 C (-15~39) -238 F ~ 734 F (-238~734) Mode 5 of CR#2~ CR#5-15 C ~ 98 C (-15~98) -238 F ~ 1796 F (-238~1796) Mode 6 of CR#2~ CR#5-15 C ~ 128 C (-15~128) -238 F ~ 2336 F (-238~2336) Offset (CR#34 ~ CR#37) Deviation digital value corresponds to C/ F Mode 7: +8, Digital output -8mV +8mV Voltage input -8, Mode 7 of CR#2~ CR#5-8mV ~ +8mV (-8~8) Offset (CR#34 ~ CR#37) Deviation digital value corresponds to mv - 7 -

DVP DVP4TC-E2 4 (J, K, R, S, T, E, N ) ±8mV 16 ( C) ( F).1 C.1 F FROM / TO MOV ( D99 ~ D9999 ) DVP-ES2 (OPEN TYPE) A->D I/O 4TC-E2 4A I-T C DIN (35mm) I/O I/O 1Figure2mm *1 CH1 I1+ I1- MUX -8mV~8mV *1 CH4 I4+ I4- *2 V 24V DC/ DC 5V AG ( 1 ) 1JKRSTEN - 8 -

2 DVP4TC-E2 2 DVP4TC E2 24VDC (2.4VDC ~ 28.8VDC) (-15% ~ +2%) DVP-PLC 1.2W (5mm) C ~ 55 C5 ~ 95% 2-25 C ~ 7 C 5 ~ 95% IEC61131-2IEC 68-2-6 (TEST Fc) / IEC61131-2 & IEC 68-2-27 (TEST Ea) 78 I/O DVP4TC-E2 ( C) ( F) 4 16 2ms /.3% (25 C, 77 F).6% ( ~ 55 C, 32 ~ 131 F) J-type, K-type, R-type, S-type, T-type, E-type, N-type ; ±8mV J-type: -1 C ~1,15 C K-type: -1 C ~ 1,35 C R-type: C ~ 1,75 C S-type: C ~ 1,75 C T-type: -15 C ~ 39 C E-type: -15 C ~ 98 C N-type: -15 C ~ 1,28 C J-type: K-1, ~ K11,5 K- type: K-1, ~ K13,5 R-type: K- ~ K17,5 S-type: K ~ K17,5 T-type: K-1,5 ~ K3,9 E-type: K-1,5 ~ K9,8 N-type: K-1,5 ~ K12,8 J-type: -148 F ~ 2,12 F K-type: -148 F ~ 2,462 F R-type: 32 F ~ 3,182 F S-type: 32 F ~ 3,182 F T-type: -238 F ~734 F E-type: -238 F ~ 1,796 F N-type: -238 F ~2,336 F J-type: K-1,48 ~ K21,2 K-type: K-1,48 ~ K24,62 R-type: K32 ~ K31,82 S-type: K32 ~ K31,82 T-type: K-2,38 ~ K7,34 E-type: K-2,38 ~ K17,96 N-type: K-2,38 ~ K23,36 16 bits (.1 C) 16 bits (.1 F) ±8mV ±8, 16 bits (.1mV) CR#8 ~ CR#11K1 ~ K1 / 5VDC - 9 -

DVP4TC-E2 ( C) ( F) 5VDC 5VDC 24VDC5VDC 12VAC CR CR# # O R DVP4TC-E2 = H 83 #1 O R 16 #2 O R/W CH1 #3 O R/W CH2 #4 O R/W CH3 #5 O R/W CH4 #7 O R/W #8 O R/W CH1 #9 O R/W CH2 #1 O R/W CH3 #11 O R/W CH4 : H CH1 (H ): J-type (-1 C ~ 115 C) 1 (H 1): K-type (-1 C ~ 135 C) 2 (H 2): R-type ( C ~ 1,75 C) 3 (H 3): S-type ( C ~ 1,75 C) 4 (H 4): T-type (-15 C ~ 39 C) 5 (H 5): E-type (-15 C ~ 98 C) 6 (H 6): N-type (-15 C ~ 1,28 C) 7 (H 7): -8mV ~ +8mV -1 (H FFFF): CH1 ( C / F) H( C) CH1 ~ CH4 K1 ~ K1 K1 #12 X R CH1 #13 X R CH2 #14 X R CH3 CH1 ~ CH4 CR#7 #15 X R CH4 #2 X R CH1 #21 X R CH2 #22 X R CH3 CH1 ~ CH4 CR#7 #23 X R CH4 #28 O R/W CH1Offset #29 O R/W CH2Offset #3 O R/W CH3Offset #31 O R/W CH4Offset CH1 ~ CH4 Offset K-4 ~ K4 K CR#7 Offset #4 O R/W CH1 ~ CH4 H #41 X R/W H #42 X R/W H #43 X R #1 O R/W / /H #11 X R/W H #12 O R/W CH1 #13 O R/W CH2 CH1 ~ CH2K32-1 -

CR# #14 O R/W CH3 #15 O R/W CH4 CH3 ~ CH4K32 #18 O R/W CH1 #19 O R/W CH2 #11 O R/W CH3 CH1 ~ CH4K-32 #111 O R/W CH4 CR#43 bit K1 (H 1) bit6 K64 (H 4) CH4 bit1 K2 (H 2) bit9 K512(H 2) bit2 K4 (H 4) bit1 K124(H 4) bit3 K8 (H 8) CH1 bit11 K248(H 8) bit4 K16 (H 1) CH2 bit12 K496(H 1) bit5 K32 (H 2) CH3 bit13 K8192(H 2) b ~ b13 1 PID CR# CH1 CH2 CH3 CH4 #12 #14 #16 #18 O R/W K #121 #141 #161 #181 O R/W (s) K1 ~ K3 (s)k2 #122 #142 #162 #182 O R/W K P K121 #123 #143 #163 #183 O R/W K I K2,98 #124 #144 #164 #184 O R/W K D K-29 #125 #145 #165 #185 O R/W K #126 #146 #166 #186 O R/W K #127 #147 #167 #187 X R #128 #148 #168 #188 O R/W H H 1 H #129 #149 #169 #189 O R/W #13 #15 #17 #19 O R/W K-32,76 ~ K32,76 K32, K-32,76 ~ K32,76 K #131 #151 #171 #191 X R K ~ K1,.1% #132 #152 #172 #192 X R (ms) ms #133 #153 #173 #193 X R (ms) ms #134 #154 #174 #194 X R #135 #155 #175 #195 X R/W PID_Run/Stop H StopH 1RunK #136 #156 #176 #196 X R/W Auto-tuning H H 1Auto-tuning K O CR#41H 5678X RFROMWTO - 11 -

D99 ~ D9999 DVP-ES2I/OD99 ~ D9999MOV D99 ~ D9999 DVP-ES2DVP4TC-E2 1 2 3 4 5 6 7 8 D132 D1321 D1322 D1323 D1324 D1325 D1326 D1327 D99 D991 D992 D993 D994 D995 D996 D997 D991 D9911 D9921 D9931 D9941 D9951 D9961 D9971 D992 D9912 D9922 D9932 D9942 D9952 D9962 D9972 D993 D9913 D9923 D9933 D9943 D9953 D9963 D9973 I/O CH1 CH2 CH3 CH4 D99 ~ D9999 WPLSoftFROM/TO (CR#8 ~ CR#11) 1 TC Offset(CR#28~CR#31) Offset ~ 6.1 7.1mV = 8mV/8 6 J-type +11,5 (+21,2) 1K-type +13,5 (+24,62) -1 C (-148 F) +1,15 C (+2,12 F) -1,(-1,48) 2R-type 3S-type +17,5 (+31,82) -1 C (-148 F) +1,35 C (+2,462 F) -1,(-1,48) 4T-type +3,9 (+7,34) C (-32 F) (-32) +1,75 C (+3,182 F) -15 C (-238 F) +39 C (+734 F) -1,5(-2,38) - 12 -

5E-type 6N-type +9,8 (+17,96) +12,8 (+23,36) -15 C (-238 F) +98 C (+1,796 F) -1,5(-2,38) -15 C (-238 F) +1,28 C (+2,336 F) -1,5(-2,38) of CR#2~ CR#5-1 C ~ 115 C (-1~115) -148 F ~ 212 F (-148~212) 1 of CR#2~ CR#5-1 C ~ 135 C (-1~135) -148 F ~ 2462 F (-148~2462) 2, 3 of CR#2~ CR#5 C ~ 175 C (~175) 32 F ~ 3182 F (32~3182) 4 of CR#2~ CR#5-15 C ~ 39 C (-15~39) -238 F ~ 734 F (-238~734) 5 of CR#2~ CR#5-15 C ~ 98 C (-15~98) -238 F ~ 1796 F (-238~1796) 6 of CR#2~ CR#5-15 C ~ 128 C (-15~128) -238 F ~ 2336 F (-238~2336) Offset (CR#34 ~ CR#37) 7-8mV +8, +8mV -8, 7 of CR#2~ CR#5-8mV~+8mV (-8~8) Offset (CR#34 ~ CR#37) mv - 13 -

DVP DVP4TC-E2 4 (J, K, R, S, T, E, N ) ±8mV 16 ( C) ( F).1 C.1 F FROM / TO MOV ( D99 ~ D9999 ) DVP-ES2 (OPEN TYPE) / / A->D I/O 4TC-E2 4A I-TC DIN (35mm) I/O I/O 1Figure2mm *1 CH1 I1+ I1- MUX -8mV~8mV *1 CH4 I4+ I4- *2 V 24V DC/ DC 5V AG 1 1JKRSTEN - 14 -

2 DVP4TC-E2 2 DVP4TC-E2 24VDC (2.4VDC ~ 28.8VDC) (-15% ~ +2%) DVP-PLC (5mm) 78 I/O C ~ 55 C5 ~ 95% 2-25 C ~ 7 C 5 ~ 95% IEC61131-2IEC 68-2-6 (TEST Fc) / IEC61131-2 & IEC 68-2-27 (TEST Ea) 24VDC (2.4VDC ~ 28.8VDC) (-15% ~ +2%)1.2W DVP4TC-E2 ( C) ( F) 4 16 2ms /.3% (25 C, 77 F).6% ( ~ 55 C, 32 ~ 131 F) J-type, K-type, R-type, S-type, T-type, E-type, N-type ±8mV J-type: -1 C ~1,15 C K-type: -1 C ~ 1,35 C R-type: C ~ 1,75 C S-type: C ~ 1,75 C T-type: -15 C ~ 39 C E-type: -15 C ~ 98 C N-type: -15 C ~ 1,28 C J-type: K-1, ~ K11,5 K- type: K-1, ~ K13,5 R-type: K- ~ K17,5 S-type: K ~ K17,5 T-type: K-1,5 ~ K3,9 E-type: K-1,5 ~ K9,8 N-type: K-1,5 ~ K12,8-15 - J-type: -148 F ~ 2,12 F K-type: -148 F ~ 2,462 F R-type: 32 F ~ 3,182 F S-type: 32 F ~ 3,182 F T-type: -238 F ~734 F E-type: -238 F ~ 1,796 F N-type: -238 F ~2,336 F J-type: K-1,48 ~ K21,2 K-type: K-1,48 ~ K24,62 R-type: K32 ~ K31,82 S-type: K32 ~ K31,82 T-type: K-2,38 ~ K7,34 E-type: K-2,38 ~ K17,96 N-type: K-2,38 ~ K23,36 16 bits (.1 C) 16 bits (.1 F) CR#8 ~ CR#11K1 ~ K1 / ±8mV ±8, 16 bits (.1mV) 5VDC

DVP4TC-E2 ( C) ( F) 5VDC 5VDC 24VDC5VDC 12VAC CR CR# # O R DVP4TC-E2 = H 83 #1 O R 16 #2 O R/W CH1 #3 O R/W CH2 #4 O R/W CH3 #5 O R/W CH4 #7 O R/W #8 O R/W CH1 #9 O R/W CH2 #1 O R/W CH3 #11 O R/W CH4 : H CH1 (H ): J-type (-1 C ~ 115 C) 1 (H 1): K-type (-1 C ~ 135 C) 2 (H 2): R-type ( C ~ 1,75 C) 3 (H 3): S-type ( C ~ 1,75 C) 4 (H 4): T-type (-15 C ~ 39 C) 5 (H 5): E-type (-15 C ~ 98 C) 6 (H 6): N-type (-15 C ~ 1,28 C) 7 (H 7): -8mV ~ +8mV -1 (H FFFF): CH1 ( C / F) H( C) CH1 ~ CH4 K1 ~ K1 K1 #12 X R CH1 #13 X R CH2 #14 X R CH3 CH1 ~ CH4 CR#7 #15 X R CH4 #2 X R CH1 #21 X R CH2 #22 X R CH3 CH1 ~ CH4 CR#7 #23 X R CH4 #28 O R/W CH1Offset #29 O R/W CH2Offset #3 O R/W CH3Offset #31 O R/W CH4Offset CH1 ~ CH4 Offset K-4 ~ K4 K CR#7 Offset #4 O R/W CH1 ~ CH4 H #41 X R/W H #42 X R/W H #43 X R #1 O R/W / /H #11 X R/W H #12 O R/W CH1 #13 O R/W CH2 CH1 ~ CH2 K32-16 -

CR# #14 O R/W CH3 #15 O R/W CH4 CH3 ~ CH4 K32 #18 O R/W CH1 #19 O R/W CH2 #11 O R/W CH3 CH1 ~ CH4K-32 #111 O R/W CH4 CR#43 bit K1 (H 1) bit6 K64 (H 4) CH4 bit1 K2 (H 2) bit9 K512(H 2) bit2 K4 (H 4) bit1 K124(H 4) bit3 K8 (H 8) CH1 bit11 K248(H 8) bit4 K16 (H 1) CH2 bit12 K496(H 1) bit5 K32 (H 2) CH3 bit13 K8192(H 2) b ~ b13 1 PID CR# CH1 CH2 CH3 CH4 #12 #14 #16 #18 O R/W K #121 #141 #161 #181 O R/W (s) K1 ~ K3 (s)k2 #122 #142 #162 #182 O R/W K P K121 #123 #143 #163 #183 O R/W K I K2,98 #124 #144 #164 #184 O R/W K D K-29 #125 #145 #165 #185 O R/W K #126 #146 #166 #186 O R/W K #127 #147 #167 #187 X R #128 #148 #168 #188 O R/W #129 #149 #169 #189 O R/W #13 #15 #17 #19 O R/W H H 1 H K-32,76 ~ K32,76 K32, K-32,76 ~ K32,76 K #131 #151 #171 #191 X R K ~ K1,.1% #132 #152 #172 #192 X R (ms) ms #133 #153 #173 #193 X R (ms) ms #134 #154 #174 #194 X R #135 #155 #175 #195 X R/W PID_Run/Stop H StopH 1RunK #136 #156 #176 #196 X R/W Auto-tuning H H 1Auto-tuning K O CR#41H 5678X RFROMWTO - 17 -

D99 ~ D9999 DVP-ES2I/OD99 ~ D9999MOV D99 ~ D9999 DVP-ES2DVP4TC-E2 1 2 3 4 5 6 7 8 D132 D1321 D1322 D1323 D1324 D1325 D1326 D1327 D99 D991 D992 D993 D994 D995 D996 D997 D991 D9911 D9921 D9931 D9941 D9951 D9961 D9971 D992 D9912 D9922 D9932 D9942 D9952 D9962 D9972 D993 D9913 D9923 D9933 D9943 D9953 D9963 D9973 I/O CH1 CH2 CH3 CH4 D99 ~ D9999 WPLSoftFROM/TO (CR#8 ~ CR#11) 1 TC Offset(CR#28~CR#31) Offset ~ 6.1 7.1mV = 8mV/8 6 J-type 1K-type +11,5 (+21,2) +13,5 (+24,62) -1 C (-148 F) +1,15 C (+2,12 F) -1,(-1,48) 2R-type 3S-type +17,5 (+31,82) -1 C (-148 F) +1,35 C (+2,462 F) -1,(-1,48) 4T-type +3,9 (+7,34) C (-32 F) (-32) +1,75 C (+3,182 F) -15 C (-238 F) +39 C (+734 F) -1,5(-2,38) - 18 -

5E-type +9,8 (+17,96) 6N-type +12,8 (+23,36) -15 C (-238 F) +98 C (+1,796 F) -1,5(-2,38) -15 C (-238 F) +1,28 C (+2,336 F) -1,5(-2,38) of CR#2~ CR#5-1 C ~ 115 C (-1~115) -148 F ~ 212 F (-148~212) 1 of CR#2~ CR#5-1 C ~ 135 C (-1~135) -148 F ~ 2462 F (-148~2462) 2, 3 of CR#2~ CR#5 C ~ 175 C (~175) 32 F ~ 3182 F (32~3182) 4 of CR#2~ CR#5-15 C ~ 39 C (-15~39) -238 F ~ 734 F (-238~734) 5 of CR#2~ CR#5-15 C ~ 98 C (-15~98) -238 F ~ 1796 F (-238~1796) 6 of CR#2~ CR#5-15 C ~ 128 C (-15~128) -238 F ~ 2336 F (-238~2336) Offset (CR#34 ~ CR#37) 7 +8, -8mV 7 of CR#2~ CR#5-8mV~+8mV (-8~8) +8mV -8, Offset (CR#34 ~ CR#37) mv - 19 -

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