Inkbird ITC-100 Bedienungsanleitung


Lesen Sie kostenlos die 📖 deutsche Bedienungsanleitung für Inkbird ITC-100 (9 Seiten) in der Kategorie Temperaturregler. Dieser Bedienungsanleitung war für 12 Personen hilfreich und wurde von 2 Benutzern mit durchschnittlich 4.5 Sternen bewertet

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Safety warning …………………………………………………………………………………………………………………………………2
Product features .………………………………………………………………………………………………………………………………2
1.Technical parameters …………………………………………….…………………………………………………………………………2
2.Models and specifications ..…………………………………………………………………………………………………………………2
3.Diagram and installing size …………………………………………………………………………………………………………………2
4.Wiring diagram ………………………………………………………………………………………………………………………………2
4.1 Connecting sensors …….….……………………………………………………………………………………………………………3
4.1.1 Thermocouple ………………………...………………………………………………………………………………………………3
4.1.2 Dual lines PT100 sensor……….……..………………………………………………………………………………………………3
4.1.3 RTD sensor……….……………………………...……………………………………………………………………………………3
4.2 Power supply connection ……………..…………………………………………………………………………………………………3
4.3 connection for control signal output ……………………………………………………………………………………………………3
4.4 Connection for alarm control ……………………………………………………………………………………………………………3
5.Panel instruction ……………..………………………………………………………………………………………………………………3
6.Operation instruction ...………………………………………………………………………………………………………………………3
6.1Display status ……………..………………………………………………………………………………………………………………3
6.2 View output value ………………………………...………………………………………………………………………………………3
6.3 Automatic/Manual control switch ………………………………………………………………………………………………………3
6.4 Value setting ……………...………………………………………………………………………………………………………………3
6.5 Launch self-tuning function ……...………………………………………………………………………………………………………3
6.6 Workflow for setting …………………………………………………………………………………………………………………...…4
6.7 Parameters setting ………………………………………………………………………………………………………………………4
6.8 Parameters related to alarm output: “HiAL,LoAL,dHAL,dHAL,dF,ALP,CF” ……..……………….……………..……………………5
6.8.1 Alarm parameters: HiAL,LoAL,dHAL,dHAL …………………………….……………………………………………………….…5
6.8.2 Defining parameter for alarm ALP ………………………………………………………………………..………………………5
6.8.3 Hysteresis Band dF …………………………………………………………………………………………………………………5
6.8.4 Function parameter CF ……………………………………………………………………………………………………………..5
6.9 Parameters related to input “Sn,diP,diL,diH,DL,Sc” …………………………………………………………………….……………5
6.9.1 Sensor type input “Sn” …………………………………………………………………………………………………………...…5
6.9.2 Decimal point position“diP” …………………………………………………………………………………………………………5
6.9.3 Definition parameters "diH" and "diL" for linear input range …………………………..…………………………………………5
6.9.4 Filtering parameter“dL”………………………………………………………………………………………………………………5
6.9.5 Sensor Calibration“Sc”………………………………………………………………………………………………………………5
6.10 Parameters related to control output“oPI,oPL,oPH,CtrL” …………………………………………………………………...………5
6.10.1 Output mode parameters "oPI", "oPL" and "oPH" are used for limiting output …………………………………………..……5
6.10.2 Adjustment mode parameter "CtrL" ………………………………………………………………………………………………6
6.11 PID control parameters related to self-tuning “M50, P, t” and functional parameter “CtL”……………………………………..6
6.11.1 6.11.1 Holding parameter "M50" …………………………………………………………………………………………………..6
6.11.2 Rate parameter "P" ……………………………………………………………………………………….………………………6
6.11.3 Hysteresis time "t"…………………………………………………………………………………………………………..………6
6.11.4 Function parameter "CtL" ………………………………………………………………………………………………………….6
6.12 Communication parameter “Addr bAud” ……………………………………………………………………………………………6
6.13 Field parameter "EP1 - EP8" ……………………..……………………………………………………………………………………7
6.14 Permission for parameters “Loc”“LOC” ……………………………………………………………………………………………7
6.15 Common faults and handling methods ……………………………………………………………………………….………………7
7 Wiring instruction ……………………………………………………………………………………………………………………………7
7.1 Directly control load by the internal relay of the instrument ..…………………………………………………………………………7
7.2 Control the load via external contactor …………………………………………………………………………………………...……7
7.3 SSR control ……………………………….……………………………………………………………………………………………7
7.4 Solenoid valve or relay control ………..………………………………………………………………………………………………8
7.5 Control load via external contactor (24V) …………………………………………………………………………………………..…8
8.Field application example …………………………………………………………………………………………………………………..8
User Manual
ITC-100 PID Temperature Controller
V1.0 2015-6-30
Contents
1
© 2015 Inkbird Inc. All rights reserved.
www.ink-bird.com, CS@ink-bird.com
Table 1: Product models and specications
Never disassemble, ret and repair this product, or touch the inner components
by yourself, otherwise, there will be risk of electric shock, spark or malfunction.
If the replay was serving beyond its estimated lifetime, there will be risk of
contact fusion and burning. It’s a must to always pay attention to the using
environment of relay, and using the relay within its rated load and estimated
lifetime. The estimated lifetime of the relay varies according to the output
Panel size: DIN(48×48mm)
Compatible with various temperature sensors (K, S, Wre, T, E,
J, B, N, CU50, PT100)
Wide control temperature range: -50 - 1300ºC ( type K thermocouple)
Display and control accuracy: 0.1 ºC,
high measuring precision: ±0.2%FS
PID control mode with high-performance self-tuning function
User-dened output and alarm modes
Adjustable digital ltering for reducing external interference
Self-calibration available for ensuring long term stability of the instrument
high luminance LED screen with height 0.39“ characters,
anti-dazzle panel, well visibility
Inbuilt switching power supply applicable for wide voltage range with
low power consumption
3.1 Insert temperature controller into the mounting hole in the panel, then put
on the xer from the rear and hold it temporarily, make sure there is no gap
among temperature controller, panel and xer. After that, x the temperature
controller with attached two bolts of the xer under torque of 0.29N to 0.39N.
3.2 Make sure the surrounding temperature is within the stipulated
temperature range, especially when there are two or more temperature
controllers.
AC/DC 12-24V
Figure 3: Panel Cutout
ITC-100VH
SSR control output
AC 100-240V
ITC-100RH
Relay control output
AC 100-240V
ITC-100RL
Relay control output
Storing temperature
Model
Control output
Voltage
Figure 2: Mounting Bracket
Figure 1: Shell Size
ITC-100VL
SSR control output
AC/DC 12-24V
Weight
About 140g
Relay output: AC 250V 3A (resistive load)
Alarm output
Figure 4:Wiring diagram
Working temperature
Working humidity
-25 - 65ºC (No ice or moisture condensation)
Safety warning
About 3W (12V - 24VDC)
85 to 100% of the rated voltage
About 5VA (100V - 240VAC)
About 4VA (12V - 24VAC)
It’s a must to use this product within its specification and using scope.
load and switching condition.
When power on, do not connect, disassemble and touch terminals, as those
may cause damage due to spark, malfunction or electric shock.
No metal fragment, wire thread or metal dusts produced during installation
are allowed to be inside the device, otherwise, there will be risk of electric
Please do not use this product in ammable and explosive locations,
Product features
Voltage output (for driving SSR): 12VDC, 30mA DC
Maximum load: 60
Power
Working voltage
±0.2%FS 0.1ºC( 1000ºC); 1ºC( 100C)< ≥
0.5 seconds
0-5C
Relay output: AC 250V 3A (resistive load)
Control output
Relay output: AC 250V 3A (resistive load)
AC 100-240V 50/60Hz
AC/DC 12-24V 50/60Hz
DC 12-24V
PV: high luminance LED screen with 4 digits of height
9.9mm displayed in red
SV: high luminance LED screen with 4 digits of height
8.0mm displayed in green
Sampling period
Display accuracy
Characters
Temperature
compensation
Electrical endurance of relay: 100,000 times
Rated Voltage
shock, re or malfunction.
otherwise, there will be risk of damage caused by explosion.
1.Technical parameters
RH 35-85%
-10 - 55ºC (No ice or moisture condensation)
2
© 2015 Inkbird Inc. All rights reserved.
www.ink-bird.com, CS@ink-bird.com
Please refer to the input sensor reference table to select sensor type and set
the code. The default setting of sensor type is type K thermocouple. If other type 6.1 Display status
sensor was adopted, it’s a must to reset the configuration. After power on, the instrument will conduct self-tuning, then enter measuring
If error occurred when some thermocouples are used in dierent environments, and monitoring status automatically. PV window displays current measured
press SC to calibrate as per the detailed stipulation in this manual. value, while SV window displays setting value; If “orAL” was displayed
alternately between PV and SV windows, it means input value exceeded
measuring range (or sensors in open loop), or input setting is incorrect.
#3 and #4 terminals are for connecting thermocouple. No inverse connection of When there was alarm output, SV window will alternately display characters
positive pole and negative pole are allowed. For common thermocouples, positive
related to the alarms:
pole is red, while negative pole is blue or green. If the poles were connected HiAL(alarm for high limit),LoAL(Alarm for low limit),
inversely, the measured value will be displayed inversely on the screen. dHAL(alarm for plus deviation),dLAL(alarm for minus deviation).
6.2 View output value
#3 and #4 terminals are the input ports for dual lines PT100 sensor, at the same Press “SET” key (no longer than 1 second), if SV window displays character
time #4 and #5 terminals should be connected together. “A”(for instance), it indicates automatic control mode, while if the displayed
character is “M” (for instance: ), it indicates the manual control mode.
When connecting three lines RTD sensor, #3 terminal is for red wire, #4 and #5
are for other two blue lines. For some sensors, #4 and #5 terminals should be
6.3 Automatic/Manual control switch
connected together. Press “«” key (no longer than 1 second), the temperature controller can
switch between automatic and manual control mode without interference to
#9 and #10 terminals are for connecting power supply, polarity is indierent when the operation. Under automatic control mode, RUN indicating light will o;
connecting. Before installation, it’s a must to confirm the compliance of the input and under manual control mode, RUN indicating light will on.
voltage to product specication, otherwise, there will be risks of abnormal usage, (remarks: if the running status of the function setting is “2: forbid manual
electric shock and re. mode”, above operation is invalid).
4.3.1 The output driving voltage and current of Model ITC-100V are 12VDC and
30mA respectively, while #6 output terminal is for negative pole, and #8 terminal 6.4 Value setting
is for positive pole. It can drive SSR (Solid-state replay). Please note that the
When SV window displays setting value, press ” key (“ ” key) to increase︽ ︾
positive pole and negative pole shouldn’t be connected inversely. (decrease) setting value. Press “«” key to move cursor to required numerical
4.3.2 Model ITC-100R output relay control signals. COM7 is public port,
position. Keeping “” key or ” key to be pressed could increase or
COM6(NC) is normally closed, COM8 (NO) is normally opened. It could directly decrease the value quickly.
control load of AC250V, <3A; for controlling load of AC250V, >3A, external high
capacity controller is needed. 6.5 Launch self-tuning function
When use the instrument for the first time, it’s a must to use the self-tuning
Alarm is controlled by relay signals. COM12 (COM) is public port, COM1 is function of the instrument to determine control parameters (M50, P and t)
normally closed, COM11 is normally opened, maximum load is AC250/3A for an ideal control effect. Press “«” key for over 2 seconds, then the SV
(resistive load). window will display characters “A” and “T” alternately, and the system will
enter self-tuning mode. When self-tuning, the temperature controller will
conduct digital adjustment. After oscillation for 2 to 5 times, the instrument
will automatically set the PID control parameters (parameters M50, P and T).
PV window displays
After self-tuning, the system will return to PID automatic control mode.
measured value or set functional symbols During self-tuning, press “«” key for over 2 seconds to cancel self-tuning,
SV window displays then the characters “AT” displayed in SV window will disappear.
setting value or set value to be read Attentions: for temperature controller which had run self-tuning before,
Working indicating light
it’s a must to set parameter CtrL as “2 before launching another self-tuning
OUT: Indicati ng control signal output (please refer to section “parameters setting and definition” in this manual
AL1: Indicating AL1 alarm for detailed operation). The control parameter value will vary according to
AL2: Indicating AL2 alarm setting temperature, therefore, it’s a must to run self-tuning with the most
RUN: Manual indication frequently used setting value of the system. If the setting value often
“INCREASE” key: when setting val ue, press“ ” key to i ncreasechanges, run self-tuning with the middle value of setting values.
value, keeping this key to be pressed can increase value quickly.
“DECREASE”key: when setting value, press ” key to decrease
value, keeping this key to be pressed can decrease value quickly.
“MOVE“ key: when setting temperature value or parameters,
use this key to move cursor to required numerical posi tion.
“SELF-TUNING” key: when in normal display mode, long
press this key for over 2 seconds to start or stop self-tuning.
“SWITCHINGkey: when in normal displ ay mode, press this
key for less than 1 second to switch automatic and manual mode.
“SET” key: when in normal display mode, press this key to view setting value for control
signal output; long press for over 2 seconds to enter parameters setting mode.
6. Operation instruction
4.4 Connection for alarm control
Figure 5
4.1 Connecting sensors
4.1.2 Dual lines PT100 sensor
5. Panel instruction
4.3 Connection for control signal output
4.2 Power supply connection
4.1.3 RTD sensor
4.1.1 Thermocouple
3
© 2015 Inkbird Inc. All rights reserved.
www.ink-bird.com, CS@ink-bird.com


Produktspezifikationen

Marke: Inkbird
Kategorie: Temperaturregler
Modell: ITC-100

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