Field Parameter "Ep1 - Ep8 - Inkbird ITC-100 User Manual

6.13 Field parameter "EP1 - EP8"

After setting the instrument, most parameters don't need to be amended
at field. Besides, operators generally don't understand many parameters,
and there is risk of fault caused by wrong setting by operators.
Generally, intelligent instrument has parameter lock (Loc) function. Common
parameter lock will lock all the parameters. Sometimes, certain parameters
need to be amended or adjusted at field by the operators. For example,
parameters such as alarm high limit or alarm low limit. In parameter table,
EP1 - EP 8 are 8 field parameters for operators. The value of parameter
EP is other parameters, such as HiAL and LoAL. When Loc=0 or 1,
selected parameters will be displayed, other parameters won't be displayed
and amended. This function can speed up the amendment, and avoid
important parameters (such as input and output parameters) been
amended incorrectly.
There are maximum 8 field parameters available for parameter EP1- EP2.
If field parameters are less than 8 (sometime none), they should be defined
orderly from EP1 to EP8. Vacant field parameters are defined as nonE.
6.14 Permission for parameters "Loc"
Protection function Loc: when Loc is set as value except 2, 40, 808, the
instrument only display the filed parameters (EP1 - EP8) and Loc. Only if
set Loc as 2, 40 or 808, all the parameters can be amended.
When Loc=0, field parameters (EP1 - EP8)and temperature setting
value can be amended.
When Loc=1, field parameters can't be amended (except Loc).
When Loc=2, 40 or 808, all the parameters and temperature setting
value can be amended.
6.15 Common faults and handling methods
Table 5:Error and handling
Faults Reasons
Check whether the input voltage is in
Wrong input
accordance with the specification of
voltage
the instrument
Power cable is
PV and SV Check whether the power cable is
not well
screen not work bad or wrongly connected
connected
Instrument fault Contact manufacturer or dealer
Check whether sensor is connected
Sensor fault
correctly
orAL displayed Wrong
Select correct graduation mark in
on the
graduation
accordance with input signal
instrument
mark selected
Wrong
Connect signal cable correctly
connection for
sensors
Wrong
Select correct graduation mark in
graduation
accordance with input signal
Wrong mark selected
measured value
Wrong
Connect signal cable correctly
connection for
sensors
Wrong setting Refer to the alarm instruction in the
Malfunction of
for control user manual to selected required
relay
output alarm mode
Wrong wiring
No control Connect control output cable
for control
output correctly
output
Handling methods
7. Wiring instruction
7.1 Directly control load by the internal relay of the instrument.
Figure 8:ITC-100RH
Control the heater by the internal relay of the instrument, no external control
circuit is needed. This mode is only applicable for heater whose maximum
load is 250V/3A or 120V/6A.
The internal control of alarm is relay output control which controls the power
supply of the speaker. User can use bulb to replace with the speaker as alarm.
7.2 Control the load via external contactor
Figure 9:ITC-100RH
Instrument control output via external relay or contactor. With this method,
the user can select external relay or contactor based on the power of heater,
avoid output limitation of the internal relay of the instrument, and improve the
lifetime of the instrument.
7.3 SSR control
Figure 10:ITC-100VH Wiring diagram
ITC-100VH's output control signal is DC12V voltage for controlling external
SSR to control the heater. User can select SSR based on the power of the
heater. SSR is a kind of electronic switch without contactor, which can be
used for higher frequency control than relay, featuring more stable temperature
control for heater and long lifetime.
7
Wiring diagram
Wiring diagram
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