Instruction Manual for DELTA models including: DVP02DA-E2 ES2-EX2 Series Analog Input Output Module, DVP02DA-E2, ES2-EX2 Series Analog Input Output Module, Analog Input Output Module, Input Output Module, Output Module, Module
addition, you can access the data in the module by applying FROM/TO instructions or write the output value of channels directly by using MOV instruction ...
26 nov. 2024 — Thank you for choosing Delta's DVP series PLC. DVP02DA-E2 (DVP04DA-E2) analog output module receives 2 (4) groups of 16-bit digital data from the PLC MPU ...
File Info : application/pdf, 18 Pages, 840.24KB
DocumentDocumentDVP-0280230-01 20211108 ........................................................................... ENGLISH ........................................................................... Thank you for choosing Delta's DVP series PLC. DVP02DA-E2 (DVP04DA-E2) analog output module receives 2 (4) groups of 16-bit digital data from the PLC MPU and converts the digital data into 2 (4) points analog output signals (voltage or current). In addition, you can access the data in the module by applying FROM/TO instructions or write the output value of channels directly by using MOV instruction (Please refer to allocation of special registers D9900 ~ D9999). EN DVP02DA-E2 (DVP04DA-E2) is an OPEN-TYPE device. It should be installed in a control cabinet free of airborne dust, humidity, electric shock and vibration. To prevent non-maintenance staff from operating DVP02DA-E2 (DVP04DA-E2), or to prevent an accident from damaging DVP02DA-E2 (DVP04DA-E2), the control cabinet in which DVP02DA-E2 (DVP04DA-E2) is installed should be equipped with a safeguard. For example, the control cabinet in which DVP02DA-E2 (DVP04DA-E2) is installed can be unlocked with a special tool or key. EN DO NOT connect AC power to any of I/O terminals, otherwise serious damage may occur. Please check all wiring again before DVP02DA-E2 (DVP04DA-E2) is powered up. After DVP02DA-E2 (DVP04DA-E2) is disconnected, Do NOT touch any terminals in a minute. Make sure that the ground terminal on DVP02DA-E2 (DVP04DA-E2) is correctly grounded in order to prevent electromagnetic interference. FR DVP02DA-E2 (DVP04DA-E2) est un module OUVERT. Il doit être installé que dans une enceinte protectrice (boitier, armoire, etc.) saine, dépourvue de poussière, d'humidité, de vibrations et hors d'atteinte des chocs électriques. La protection doit éviter que les personnes non habilitées à la maintenance puissent accéder à l'appareil (par exemple, une clé ou un outil doivent être nécessaire pour ouvrir a protection). FR Ne pas appliquer la tension secteur sur les bornes d'entrées/Sorties, ou l'appareil DVP02DA-E2 (DVP04DA-E2) pourra être endommagé. Merci de vérifier encore une fois le câblage avant la mise sous tension du DVP02DA-E2 (DVP04DA-E2). Lors de la déconnection de l'appareil, ne pas toucher les connecteurs dans la minute suivante. Vérifier que la terre est bien reliée au connecteur de terre afin d'éviter toute interférence électromagnétique. Product Profile & Dimension Removable I/O terminal Model Name Power / D->A / Error indicators 02 DA-E 2 2A O I/O module connection port Mounting slot (35mm) I/O module connection port I/O terminal No. Direct mounting hole I/O module clip [ Figure 1 ] - 1 - 90 98 106 11 0 62 61.5 70 78 [ Figure 2 ] Unit: mm External Wiring Voltage output *2 -10V~+10V CH1 VO1 IO1 AG AC drive, recorder, scale value... Isolation wire*1 FE CH1 Current output 0mA~20mA CH4 VO4 IO4 AG AC drive, recorder, scale value... Isolation wire*1 FE CH4 Terminal of power module *3 DC24V System 0V 24V grounding Class 3 grounding (100 or less) DC/DC converter +15V AG -15V [ Figure 3 ] Note 1: Please isolate analog output and other power wiring. Note 2: If noise interferes from loaded input wiring terminal is significant, please connect a capacitor with 0.1 ~ 0.47F 25V for noise filtering. Note 3: Please connect power module terminal and analog output module terminal to system earth point and make system earth point be grounded or connects to machine cover. I/O Terminal Layout DVP02DA-E2 DVP02DA-E2 (2AO) 24V 0V FE FE FE VO1 IO1 AG VO2 IO2 AG 1 2 3 4 5 6 7 8 9 10 11 12 DVP04DA-E2 1 2 3 4 5 6 7 8 9 10 11 12 VO1 IO1 AG FE VO2 IO2 AG FE VO3 IO3 AG FE DVP04DA-E2 (4AO) 24V 0V FE VO4 IO4 AG FE 12 3 4 5 6 7 8 Electrical Specifications Power supply voltage Digital/Analog module (02D/A & 04D/A) 24VDC (20.4VDC ~ 28.8VDC) (-15% ~ +20%) - 2 - Max. rated power consumption Digital/Analog module (02D/A & 04D/A) 02DA: 1.5W, 04DA: 3W, supply by external power source. Connector European standard removable terminal block (Pin pitch: 5mm) Protection Operation/storage temperature Vibration/shock immunity Series connection to DVP-PLC MPU Voltage output is protected by short circuit. Short circuit lasting for too long may cause damage on internal circuits. Current output can be open circuit. Operation: 0°C~55°C (temperature), 5~95% (humidity), Pollution degree2 Storage: -25°C~70°C (temperature), 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 0 to 7 automatically by their distance from MPU. Max. 8 modules are allowed to connect to MPU and will not occupy any digital I/O points. Functions Specifications Digital/Analog module Voltage output Current output Range of analog output -10V ~ 10V 0 ~ 20mA 4mA ~ 20mA Range of digital conversion Max./Min. range of digital data -32,000 ~ +32,000 -32,768 ~ +32,767 0 ~ +32,000 0 ~ +32,767 0 ~ +32,000 -6,400 ~ +32,767 Hardware Resolution 14 bits 14 bits 14 bits Max. output current 5mA Tolerance load impedance 1K ~ 2M 0 ~ 500 Analog output channel 2 channels or 4 channels / each module Output impedance 0.5 or lower Overall accuracy Response time 0.5% when in full scale (25°C, 77°F) 1% when in full scale within the range of 0 ~ 55°C (32 ~ 131°F) 400s / each channel Digital data format 2's complement of 16 bits Isolation method Optical coupler isolation between analog circuits and digital circuits. No isolation among analog channels. 500VDC between digital circuits and Ground 500VDC between analog circuits and Ground 500VDC between analog circuits and digital circuits 500VDC between 24VDC and Ground Control Register CR# Attrib. Register name #0 O R Model name #1 O R Firmware version #2 O R/W CH1 output mode setting Explanation Set up by the system, model code: DVP02DA-E2 = H'0041; DVP04DA-E2 = H'0081 Display the current firmware version in hex. Output mode: Default = H'0000. Take CH1 for example: - 3 - CR# Attrib. Register name Explanation #3 O R/W CH2 output mode setting #4 O R/W CH3 output mode setting #5 O R/W CH4 output mode setting Mode 0 (H'0000): Voltage output (10V) Mode 1 (H'0001): Current output (0~+20mA) Mode 2 (H'0002): Current output (+4~+20mA) Mode -1 (H'FFFF): All channels are unavailable #16 X R/W CH1 output signal value #17 X R/W CH2 output signal value #18 X R/W CH3 output signal value #19 X R/W CH4 output signal value Voltage output range: K-32,000~K32,000. Current output range: K0~K32,000. Default: K0. CR#18~CR#19 of DVP02DA-E2 are reserved. #28 O R/W Adjusted Offset value of CH1 #29 O R/W Adjusted Offset value of CH2 #30 O R/W Adjusted Offset value of CH3 #31 O R/W Adjusted Offset value of CH4 Set the adjusted Offset value of CH1 ~ CH4. Default = K0 Definition of Offset: The corresponding voltage (current) input value when the digital output value = 0 #34 O R/W Adjusted Gain value of CH1 #35 O R/W Adjusted Gain value of CH2 #36 O R/W Adjusted Gain value of CH3 #37 O R/W Adjusted Gain value of CH4 Set the adjusted Gain value of CH1 ~ CH4. Default = K16,000. Definition of Gain: The corresponding voltage (current) input value when the digital output value = 16,000 Adjusted Offset Value, Adjusted Gain Value: Note1: When using Mode 2, the channel do NOT provide setups for adjusted Offset or Gain value. Note2: When input mode changes, the adjusted Offset or Gain value automatically returns to defaults. #40 O R/W Function: Set value changing prohibited Prohibit set value changing in CH1 ~ CH4. Default= H'0000. #41 X R/W Function: Save all the set values Save all the set values. Default =H'0000. #43 X R Error status Register for storing all error status. Refer to table of error status for more information. #100 O R/W Function: Enable/Disable limit detection Upper and lower bound detection, b0~b3 corresponds to CH1~CH4 (0: Disable/ 1: Enable). Default= H'0000. #101 X R/W Upper and lower bound status Display the upper and lower bound status. (0: Not exceed /1: Exceeds upper or lower bound value), b0~b3 corresponds to Ch1~Ch4 for lower bound detection result; b8~b11 corresponds to CH1~CH4 for upper bound detection result.. #102 O R/W Set value of CH1 upper bound #103 O R/W Set value of CH2 upper bound Set value of CH1~CH4 upper bound. Default #104 O R/W Set value of CH3 upper bound = K32000. #105 O R/W Set value of CH4 upper bound #108 O R/W Set value of CH1 lower bound #109 O R/W Set value of CH2 lower bound Set value of CH1~CH4 lower bound. Default #110 O R/W Set value of CH3 lower bound = K-32000. #111 O R/W Set value of CH4 lower bound #114 O R/W Output update time of CH1 Set value of CH1~CH4 lower bound. Setting - 4 - CR# Attrib. Register name Explanation #115 O R/W Output update time of CH2 range:K0~K100. Default =H'0000. #116 O R/W Output update time of CH3 #117 O R/W Output update time of CH4 #118 O R/W LV output mode setting Set the output mode of CH1~CH4 when the power is at LV (low voltage) condition. Default= H'0000. 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. CR#43: Error status value. See the table below: Description bit0 K1 (H'1) Power supply error bit11 K2048(H'0800) Upper / lower bound setting error bit1 K2 (H'2) Reserved bit12 K4096(H'1000) Set value changing prohibited bit2 K4 (H'4) Upper / lower bound error Communication bit13 K8192(H'2000) breakdown on next module bit9 K512(H'0200) Mode setting error Note: Each error status is determined by the corresponding bit (b0 ~ b13) and there may be more than 2 errors occurring at the same time. 0 = normal; 1 = error Module Reset (available for firmware V1.12 or above): When modules need reset, write H'4352 to CR#0, then wait for one second and then power off and restart. The instruction initializes all parameter setups. To avoid the resetting process affecting the normal operation of other modules, it is recommended to connect only one module at a time. Explanation on Special Registers D9900~D9999 When DVP-ES2 MPU is connected with modules, registers D9900~D9999 will be reserved for storing values from modules. You can apply MOV instruction to operate values in D9900~D9999. When ES2 MPU is connected with DVP02DA-E2/DVP04DA-E2, the configuration of special registers is as below: Module Module Module Module Module Module Module Module #0 #1 #2 #3 #4 #5 #6 #7 Description D1320 D1321 D1322 D1323 D1324 D1325 D1326 D1327 Model Code D9900 D9910 D9920 D9930 D9940 D9950 D9960 D9970 CH1 output value D9901 D9911 D9921 D9931 D9941 D9951 D9961 D9971 CH2 output value D9902 D9912 D9922 D9932 D9942 D9952 D9962 D9972 CH3 output value D9903 D9913 D9923 D9933 D9943 D9953 D9963 D9973 CH4 output value Adjust D/A Conversion Curve Users can adjust the conversion curves according to the actual needs by changing the Offset value (CR#28 ~ CR#31) and Gain value (CR#34 ~ CR#37). Gain: The corresponding voltage/current input value when the digital output value = 16,000. Offset: The corresponding voltage/current input value when the digital output value = 0. Equation for voltage output Mode0: 0.3125mV = 20V/64,000 - 5 - Y V X Gain Offset 16000 Offset 10(V ) 32000 Y=Voltage output, X=Digital input Equation for current output Mode1: 0.625A = 20mA/32,000 Y mA X Gain Offset 16000 Offset 20(mA) 32000 Y=Current output, X=Digital input Equation for current output Mode2: 0.5A = 16mA/32,000 Adopt the equation of current output mode 1, substitute Gain for 19,200(12mA) and Offset for 6,400(4mA) Y mA X 19200 16000 6400 6400 20(mA) 32000 Voltage output mode 0: Y=Current output, X=Digital input Vo lt a ge output 10V Gain 5V -32000 -32768 0 +32767 +16000 +32000 Offset -5V Digital input -10V Mode 0 (CR#2 ~ CR#5) -10V ~ +10VGain = 5V (16,000)Offset = 0V (0) Range of digital data -32,000 ~ +32,000 Max./Min. range of digital data -32,768 ~ +32,767 Current output mode 1: 20mA Current output 10mA Gain 0 +16000 Offset +32767 +32000 Mode 1 (CR#2 ~ CR#5) Digital input 0mA ~ +20mAGain = 10mA (16,000)Offset = 0mA (0) Range of digital data 0 ~ +32,000 Max./Min. range of digital data 0 ~ +32,767 Current output mode 2: - 6 - Current output 20mA 12mA Gain 4mA -6400 0 +16000 Offset +32767 +32000 Mode 2 (CR#2 ~ CR#5) Digital input 4mA ~ +20mAGain = 12mA (19,200)Offset = 4mA (6,400) Range of digital data 0 ~ +32,000 Max./Min. range of digital data -6400 ~ +32,767 - 7 - ........................................................................ .................................................................................... DVP DVP02DA-E2 DVP04DA-E2 PLC 2 4 16 2 4 () FROM / TO MOV ( D9900 ~ D9999 ) DVP-ES2 (OPEN TYPE) / / D->A 0 2 DA- E 2 2A O I/O DIN (35mm) I/O 1 Figure2mm I/O *2 -10V~+10V ... *1 CH1 VO1 IO1 AG FE 0mA~20mA ... *1 CH4 VO4 IO4 AG FE *3 DC24V 0V 24V ( 100 ) CH1 CH4 DC/DC +15V AG -15V - 8 - 1 2 0.1 ~ 0.47F 25V 3 DA / 2 / (02D/A & 04D/A) 24VDC (20.4VDC ~ 28.8VDC) (-15% ~ +20%) 02DA1.5W04DA3W (5mm) 0°C ~ 55°C5 ~ 95% 2 -25°C ~ 70°C 5 ~ 95% IEC61131-2IEC 68-2-6 (TEST Fc) / IEC61131-2 & IEC 68-2-27 (TEST Ea) DVP-PLC 0 7 8 I/O / -10V ~ 10V 0 ~ 20mA 4mA ~ 20mA -32,000 ~ +32,000 0 ~ +32,000 0 ~ +32,000 -32,768 ~ +32,767 0 ~ +32,767 -6,400 ~ +32,767 14 bits 14 bits 14 bits 5mA 1K ~ 2M 0 ~ 500 2 4 / 0.5 or 0.5% (25°C, 77°F) 1% (0 ~ 55°C, 32 ~ 131°F) 400s / 16 500VDC 500VDC 500VDC 24VDC 500VDC CR - 9 - CR# #0 O R DVP02DA-E2 = H'0041DVP04DA-E2 = H'0081 #1 O R 16 #2 O R/W CH1 #3 O R/W CH2 #4 O R/W CH3 #5 O R/W CH4 H'0000 CH1 0 (H'0000)(10V). 1 (H'0001) (0 ~ +20mA). 2 (H'0002) (+4 ~ +20mA). -1 (H'FFFF) CH1 #16 X R/W CH1 #17 X R/W CH2 #18 X R/W CH3 #19 X R/W CH4 K-32,000 ~ K32,000 K0 ~ K32,000 K0 DVP02DA-E2 CR#18~CR#19 #28 O R/W CH1 Offset #29 O R/W CH2 Offset #30 O R/W CH3 Offset #31 O R/W CH4 Offset CH1 ~ CH4 Offset K0 Offset 0 () #34 O R/W CH1 Gain #35 O R/W CH2 Gain #36 O R/W CH3 Gain #37 O R/W CH4 Gain CH1 ~ CH4 Gain K16,000 Gain 16,000 () Offset Gain 1 2 Offset Gain 2 Offset Gain #40 O R/W CH1 ~ CH4 H'0000 #41 X R/W H'0000 #43 X R #100 O R/W / b0~b3 CH1~CH4 (0Disable / 1Enable) H'0000 #101 X R/W (0/1 /)b0~b3 CH1~CH4 b8~b11 CH1~CH4 #102 O R/W CH1 #103 O R/W CH2 #104 O R/W CH3 CH1 ~ CH4 K32000 #105 O R/W CH4 #108 O R/W CH1 #109 O R/W CH2 #110 O R/W CH3 CH1 ~ CH4 K-32000 #111 O R/W CH4 #114 O R/W CH1 #115 O R/W CH2 #116 O R/W CH3 CH1 ~ CH4 K0~K100 H'0000 #117 O R/W CH4 #118 O R/W LV H'0000 - 10 - CR# O CR#41 H'5678 X R FROM W TO CR#43 bit0 K1 (H'1) bit11 K2048(H'0800) bit1 K2 (H'2) bit12 K4096(H'1000) bit2 K4 (H'4) bit13 K8192(H'2000) bit9 K512(H'0200) b0 ~ b13 0 1 ( V1.12 ) H'4352 CR#0 1 D9900 ~ D9999 DVP-ES2 I/O D9900 ~ D9999 MOV D9900 ~ D9999 DVP-ES2 DVP02DA-E2DVP04DA-E2 1 2 3 4 5 6 7 8 I/O D1320 D1321 D1322 D1323 D1324 D1325 D1326 D1327 D9900 D9901 D9902 D9903 D9910 D9911 D9912 D9913 D9920 D9921 D9922 D9923 D9930 D9931 D9932 D9933 D9940 D9941 D9942 D9943 D9950 D9951 D9952 D9953 D9960 D9961 D9962 D9963 D9970 CH1 D9971 CH2 D9972 CH3 D9973 CH4 D/A Offset (CR#28 ~ CR#31) Gain (CR#34 ~ CR#37) Gain 16,000 () Offset 0 () 0 0.3125mV = 20V/64,000 1 0.625A = 20mA/32,000 2 0.5A = 16mA/32,000 1 Gain = 12mA (19,200)Offset = 4mA (6,400) 5 - 11 - - 0 10V Gain 5V -32000 -32768 0 +16000 Offset +32767 +32000 -5V -10V 0 (CR#2 ~ CR#5) -10V ~ +10VGain = 5V (16,000)Offset = 0V (0) -32,000 ~ +32,000 -32,768 ~ +32,767 - 1 20mA 10mA Gain 1 (CR#2 ~ CR#5) 0 +16000 Offset +32767 +32000 0mA ~ +20mAGain = 10mA (16,000)Offset = 0mA (0) 0 ~ +32,000 0 ~ +32,767 - 2 2 (CR#2 ~ CR#5) 20mA Gain 12mA 4mA -6400 0 +16000 Offset +32767 +32000 4mA ~ +20mAGain = 12mA (19,200)Offset = 4mA (6,400) 0 ~ +32,000 -6400 ~ +32,767 - 12 - ........................................................................... .............................................................................. DVP DVP02DA-E2 DVP04DA-E2 PLC 2 4 16 2 4 () FROM / TO MOV ( D9900 ~ D9999 ) DVP-ES2 (OPEN TYPE) / / D-> A 0 2 DA-E 2 2A O I/O DIN (35mm) I/O 1 Figure2mm I/O *2 -10V~+10V . . . *1 CH1 VO1 IO1 AG FE 0mA~20mA . . . *1 CH4 VO4 IO4 AG FE *3 DC24V 0V 24V ( 100 ) 1 CH1 CH4 DC/DC +15V AG -15V - 13 - 2 0.1 ~ 0.47F 25V 3 DA 2 / (02D/A & 04D/A) 24VDC (20.4VDC ~ 28.8VDC) (-15% ~ +20%) 02DA1.5W04DA3W (5mm) DVP-PLC 0°C ~ 55°C5 ~ 95% 2 -25°C ~ 70°C5 ~ 95% IEC61131-2IEC 68-2-6 (TEST Fc) / IEC61131-2 & IEC 68-2-27 (TEST Ea) 0 7 8 I/O / -10V ~ 10V 0 ~ 20mA 4mA ~ 20mA -32,000 ~ +32,000 0 ~ +32,000 0 ~ +32,000 -32,768 ~ +32,767 0 ~ +32,767 -6,400 ~ +32,767 14 bits 14 bits 14 bits 5mA 1K ~ 2M 0 ~ 500 2 4 / 0.5 or 0.5% (25°C, 77°F) 1% (0 ~ 55°C, 32 ~ 131°F) 400s / 16 500VDC 500VDC 500VDC 24VDC 500VDC CR CR# #0 O R DVP02DA-E2 = H'0041DVP04DA-E2 = H'0081 - 14 - CR# #1 O R 16 #2 O R/W CH1 #3 O R/W CH2 #4 O R/W CH3 #5 O R/W CH4 H'0000 CH1 0 (H'0000)(10V). 1 (H'0001) (0 ~ +20mA). 2 (H'0002) (+4 ~ +20mA). -1 (H'FFFF) CH1 #16 X R/W CH1 #17 X R/W CH2 #18 X R/W CH3 #19 X R/W CH4 K-32,000 ~ K32,000 K0 ~ K32,000 K0 DVP02DA-E2 CR#18~CR#19 #28 O R/W CH1 Offset #29 O R/W CH2 Offset #30 O R/W CH3 Offset #31 O R/W CH4 Offset CH1 ~ CH4 Offset K0 Offset 0 () #34 O R/W CH1 Gain #35 O R/W CH2 Gain #36 O R/W CH3 Gain #37 O R/W CH4 Gain CH1 ~ CH4 Gain K16,000 Gain 16,000 () Offset Gain 1 2 Offset Gain 2 Offset Gain #40 O R/W CH1 ~ CH4 H'0000 #41 X R/W H'0000 #43 X R #100 #101 O R/W / X R/W b0~b3 CH1~CH4 (0Disable / 1Enable) H'0000 (0/1 /)b0~b3 CH1~CH4 b8~b11 CH1~CH4 #102 O R/W CH1 #103 O R/W CH2 #104 O R/W CH3 CH1 ~ CH4 K32000 #105 O R/W CH4 #108 O R/W CH1 #109 O R/W CH2 #110 O R/W CH3 CH1 ~ CH4 K-32000 #111 O R/W CH4 #114 O R/W CH1 #115 O R/W CH2 #116 O R/W CH3 CH1 ~ CH4 K0~K100 H'0000 #117 O R/W CH4 #118 O R/W LV H'0000 O CR#41 H'5678 X R FROM W TO - 15 - CR#43 bit0 K1 (H'1) bit1 K2 (H'2) bit2 K4 (H'4) bit11 K2048(H'0800) bit12 K4096(H'1000) bit13 K8192(H'2000) bit9 K512(H'0200) b0 ~ b13 0 1 ( V1.12 ) H'4352 CR#0 1 D9900 ~ D9999 DVP-ES2 I/O , D9900 ~ D9999 , MOV D9900 ~ D9999 DVP-ES2 DVP02DA-E2DVP04DA-E2 1 D1320 2 D1321 3 D1322 4 D1323 5 D1324 6 D1325 7 D1326 8 I/O D1327 D9900 D9901 D9902 D9903 D9910 D9911 D9912 D9913 D9920 D9921 D9922 D9923 D9930 D9931 D9932 D9933 D9940 D9941 D9942 D9943 D9950 D9951 D9952 D9953 D9960 D9961 D9962 D9963 D9970 CH1 D9971 CH2 D9972 CH3 D9973 CH4 D/A Offset (CR#28 ~ CR#31) Gain (CR#34 ~ CR#37) Gain 16,000 () Offset 0 () 0 20V/64,000 = 0.3125mV 1 20mA/32,000 = 0.625A 2 16mA/32,000 = 0.5A 1 Gain = 12mA (19,200)Offset = 4mA (6,400) 5 - 16 - - 0 -32000 -32768 10V Gain 5V 0 +16000 Offset +32767 +32000 -5V -10V 0 (CR#2 ~ CR#5) -10V ~ +10VGain = 5V (16,000)Offset = 0V (0) -32,000 ~ +32,000 -32,768 ~ +32,767 - 1 20mA 10mA Gain 1 (CR#2 ~ CR#5) 0 +16000 Offset +32767 +32000 0mA ~ +20mAGain = 10mA (16,000)Offset = 0mA (0) 0 ~ +32,000 0 ~ +32,767 - 2 2 (CR#2 ~ CR#5) 20mA Gain 12mA 4mA +32767 -6400 0 +16000 +32000 Offset 4mA ~ +20mAGain = 12mA (19,200)Offset = 4mA (6,400) 0 ~ +32,000 -6400 ~ +32,767 - 17 -Acrobat Distiller 19.0 (Windows)