remote ai (add 6 inputs/units, max 48 inputs/recorder)
DESCRIPTION
Remote AI (Add 6 inputs/units, Max 48 inputs/recorder). VM7000 Expand function. M ax: 4 8 point s Measurement value in 1(one) recorder. LAN cable. Configuration (Remote AI + VM7000 ). VM7000A. Ceramic Furnace. Remote AI. Sensor inputs: 6 points. DIN- rail. RS-485(Max 1200m). - PowerPoint PPT PresentationTRANSCRIPT
Remote AI (Add 6 inputs/units, Max 48 inputs/recorder)
VM7000A
RS-485(Max 1200m) Remote AI (Max: 6 units)
Recorder 12 CHRemote AI 6CH x 6unitsTTL: 48 channels
DIN- railDIN- rail
Sensor inputs: 6 Sensor inputs: 6 pointspoints
Max: 48 pointsMeasurement value in 1(one) recorder
LANLAN cable
VM7000 Expand function
Configuration
(Remote AI + VM7000 ) Remote AI
Ceramic Ceramic FurnaceFurnace
Dimensions
Specifications1. INPUT As VM7000 Number of input : 6 points Input type : Full multi range Accuracy : ±0.1 % ±1 digit Reference condition
:K,E,J,T,C,N,PLⅡ,U,L below ± 0.5℃ R,S,B,PR40-20,Au-Fe below ± 1.0℃
Measurement cycle
:100ms /all channels
Burnout function : Provided as standard for TC and mA voltage input Selectable Up scale or None
Scaling : Setting by VM7000
2. RECORDING Recording cycle :1 sec~
Recording point : Max 36 channels (Remote AI x 6units)
3 .COMMUNICATION Electrical specifications
: EIA RS-485 conformity
Communication mode
: Two-wire-system half-duplex, start-stop synchronous
Max connection : 6units/VM7000 Recorder
4. OTHERSRated supply voltage
:DC24V *Option: AC adapter (AC 100V/DC24V)
Withstand voltage :AC500V (1min)
between Power supply terminal and FG terminal Isolation resistance
: More than 100M Ω (DC500V)
between Power supply terminal and FG terminal Ambient temperature
:0~50℃
Ambient humidity :20~80%RH Mounting method :DIN -rail or screw
Measurement Range
Code
Range TypeMax
resolution
Accuracy
Note
000 -10.0 - +10.0 mV 10μV±
±0.1%+1digit
(Caution)Reference junction compensation accuracy is not included in digital display accuracy
Reference junction compensation accuracy:R,S,B,PR4020 :± 1℃K,E,J,T,G,C,N :±0.5℃
001 0.00 - +20.00 mV 10μV002 0.00 - +50.00 mV 10μV003 -200.0 - +200.0 mV 100μV004 -1.000 - +1.000 V 1 mV005 -10.00 - +10.00 V 10mV006 0.000 - +5.000 V 1 mV007 4.0 – 20.0 mA 0.01mA008 0.0 - 1760.0 R1 ℃ 0.1℃009 0.0 - 1200.0 R2 ℃ 0.1℃010 0.0 - 1760.0 S ℃ 0.1℃011 0.0 - 1820.0 B ℃ 0.1℃012 -200.0 – 1370.0 K1 ℃ 0.1℃013 -200.0 – 600.0 K2 ℃ 0.1℃014 -200.0 – 300.0 K3 ℃ 0.1℃015 -200.0 – 800.0 E1 ℃ 0. 1℃016 -200.0 – 300.0 E2 ℃ 0. 1℃017 -200.0 – 150.0 E3 ℃ 0. 1℃018 -200.0 – 1100.0 J1 ℃ 0.1℃019 -200.0 – 400.0 J2 ℃ 0.1℃020 -200.0 – 200.0 J3 ℃ 0.1℃021 -200.0 – 400.0 T1 ℃ 0.1℃022 -200.0 -200.0 T2 ℃ 0.1℃023 0.0 - 2320.0 C ℃ 0.1℃024 0.0 - 1300.0 N ℃ 0.1℃025 0.0 - 1880.0 PR4020 ℃ 0.1℃026 -200.0 – 400.0 U ℃ 0.1℃027 -200.0 – 900.0 L ℃ 0.1℃028 1.0 - 300.0 Au-Fe K 0.1℃029 0.0 - 1390.0 PLII ℃ 0.1℃030 -200.0 – 600.0 JPt100-1 ℃ 0.1℃031 -200.0 – 200.0 JPt100-2 ℃ 0.1℃032 -50.0 – 100.0 Pt100-1 ℃ 0.1℃033 -200.0 – 600.0 Pt100-2 ℃ 0.1℃