48 x 24mm PID temperature controller with autotune and
remote second setpoint selection option
Multi-sensor thermocouple and Pt100 input model
4-20mA input model
Relay, voltage pulse, analogue 4-20mA or 0-10VDC output
12-function temperature alarm with variable delayed action
Alarm hysteresis is adjustable from 0.0 to 100.0˚C or ˚F
Loop break alarm to detect insufficient temperature rise
within a set time
Alarm output energised/de-energised selection
Programmable ramp-rate control
Autotune threshold adjustment
3 levels of keypad security locking
Adjustable setpoint limits
% output power display
Adjustable PV filter to slow down response if required
Fully adjustable output power limit
RS232C or RS485 communications option
IP54 protection
48 x 24mm 4-Digit Display PID
Temperature Controller FCL
Options and ordering codes
Specifications
FCL-13A R–/
M SM 100-240VAC
48 x 24mm PID temperature
controller with one alarm
Relay output R
Signal voltage for SSR S
Current output A
Analogue voltage 0-10VDC
100-240VAC supply
24VAC/DC supply
Options
With RS232C
T/C+ Pt100 input
V
M
C
Remote 2nd setpoint
SM
With RS485
C5
Without options
4-20mA input APlease note: Option SM cannot be
supplied simultaneously with options C or C5
Input type
K-thermocouple J-thermocouple E-thermocouple PL-II thermocouple N-thermocouple DIN Pt100 RTD DIN Pt100 RTD J Pt100 RTD J Pt100 RTD
Rated scale
0 to 1370˚C 0 to 1000˚C 0 to 800˚C 0 to 1390˚C 0 to 1300˚C –199.9 to 850.0˚C –200 to 850˚C –199.9 to 500.0˚C –200 to 500˚C
Sensor resistance 100or less 10per wire or less
Accuracy ±0.3% of full scale ± 1 digit ±0.2% of full scale ±1 digit
Display 4-digit red LED, 8mm high
Control action User-selectable: PID with autotune, PD, On/Off
Proportional band 0 to rated scale maximum value. Factory set to 10˚C (20˚F)
Integral time 1 to 3600 secs (off when set to 0), Factory set to 200 secs
Derivative time 1 to 3600 secs (off when set to 0), Factory set to 50 secs
Anti-reset windup Automatic in PID modes
Reset range in PD action Within the proportional band
Hysteresis in On/Off action 0.1 to 100.0˚C (˚F)
Proportional cycle 1 to 120 seconds, Relay output type: Factory set to 30 secs; Signal voltage type: Factory set to 3 secs
Output: relay types SPNO: 250V, 3A resistive load; 250V, 1A inductive load, cos ø = 0.4
Output: signal voltage types 12VDC +2VDC/–0VDC 40mA, short-circuit protected
Output: analogue types 4 to 20mA DC - max. load resistance 500, 0-10VDC – output impedance 500
Temperature alarm Open collector output 24VDC 0.1A maximum
Loop break alarm time 0 to 200 minutes selectable
Loop break alarm temperature 0 to 100˚C selectable (˚F)
Delayed action alarm time 0 to 9999 secs
Rising/falling rate setting 0 to 9999˚C/minute selectable
Temperature alarms action ON/OFF action, hysteresis 0.1 to 100.0˚C (˚F), Factory set to 1.0˚C (˚F)
High limit alarm (1) Deviation from SV: scale span value to + scale span value
Low limit alarm (1) Deviation from SV: scale span value to + scale span value
High/low limits alarm (1) Deviation from SV: 1 to scale span value
High/low limit range alarm (1) Deviation from SV: 1 to scale span value
Absolute value (process) alarm (1) Input range minimum value to input range maximum value
Absolute (process) reverse alarm (1) Input range minimum value to input range maximum value
Sensor correction (input shift) –100.0 to 100.0˚C (˚F), Factory set to 0.0˚C (˚F)
Sensor break protection Upscale: Control output off
Supply voltage 85 to 264VAC 50/60Hz (100-240 VAC+10%–15%); 20 to 28 VDC/AC 50/60Hz
Power consumption 15VA approx.
Ambient temperature 0 to 50˚C
Ambient humidity 35 to 85% r.h. (non-condensing)
Insulation resistance (2) >10Mat 500VDC
Mounting Flush
Front panel Membrane sheet keyboard, IP54
Weight 100g approx
Case material Light grey polycarbonate, flame retardant and self-extinguishing
(1) All alarm types can be programmed to operate with or without ‘standby’ function (2) Do not apply voltage between sensor input terminals and control output terminals of FCL-13A-A, FCL-13A-S and FCL-13A-V models
Also available: Heater burnout alarm – cannot be supplied simultaneously with SM, C or C5, or with 4-20mA or 0-10V output models
New
Models
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FCL
W iring connections
Notes: For ease of connection, especially when using cable trunking, all the terminals are designed to accept wires from the left (when
looking from the rear of the unit).
If using a pre-wired, 2-wire Pt100 RTD, without connecting extension cables, a link should be added between terminals 2 and 7. If
using extension cables, a third wire should be added from point C, one of the joins, as in the diagram above and all three wires
should be the same gauge and length. If a simple link is added between terminals 2 and 7 in this case, no compensation for lead
length will be applied.
As there is no fuse inside the temperature controller, it is recommended that one is provided in the external wiring to the power
supply terminals.
The sensor wires should not be run adjacent to an AC power supply or the wires to the power supply terminals.
When using the relay contact output version it is recommended to provide an auxiliary relay to protect the contacts of the
temperature controller’s built-in relay, even if the intended load capacity is smaller than that of the built-in contacts.
1
271
27
..
.
.
.7
8
9
10
11
12
1
2
3
4
1
2
3
8
9
8
9
8
9
10
45
6
2-wire RTD 3-wire RTD
LINK
C
AB
Thermocouple
Relay contact
output Control
output
Event
output Open-collector
output
RS232C
TX RS485
YA
RX YB
COM COM
CT input
Heater
burnout Remote 2nd
setpoint selection
85 to 264VAC
or
20 to 28VAC/DC
B
+
+
+
+
Without
extension
cables
With
extension
cables Voltage
or
current
output
Features
3 Levels of Keypad Security Locking
To prevent unauthorised modifications to the programming, one of three levels of keypad security locking can be set, to give
partial or no access to change the parameters:
Level 1 – No setting values can be changed.
Level 2 – Only the setpoint can be changed, all others are locked.
Level 3 – All setting values can be changed temporarily. When the power is turned off and on again, all settings
return to their former values.
Adjustable Setpoint Limits
The setpoint can normally be programmed within the full range which varies according to the chosen sensor, e.g. 0 to +1370˚C
for type K thermocouples. The upper and lower limits can be restricted to prevent unauthorised or accidental changes beyond
these points, e.g. a restriction of 420 to 430 could be applied.
% Output Power Display
The FCL normally shows the actual process temperature or the required setpoint on the display, but can be programmed to
show the equivalent output power in % if required with a resolution of 0.1%. The decimal point flashes as a reminder that it is
not a setpoint. This value reflects the ON time of proportional control as a percentage of the total cycle time for the relay and
voltage output models, or the mA output as a percentage of full scale for the current output model.
Auto-tune Threshold Adjustment
The P, I and D values can be manually set through the front keypad or the autotune can be activated to calculate and program
them automatically, together with the ARW. The FCL has several pre-programmed algorithms within its microprocessor and
chooses the most suitable one to calculate the values according to when the autotune is activated.
For example, if autotune is started when the system is first turned on, an algorithm is chosen to set the P, I and D values that
give the minimum overshoot. If the autotune is started when approximately level control is achieved, a different algorithm is
chosen to ensure that the most accurate, stable temperature is maintained. The autotune is activated through the front keypad.
The levels at which the choice of algorithm is decided can be adjusted according to the application to ensure the best autotune
is achieved for the process.
Event Output
This is an open-collector output (24VDC 0.1A maximum), which can be user-selected as a 12-function alarm or a loop-break
alarm (or a heater burnout alarm if this option is purchased).
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Features (continued)
The first eight alarm types are deviation alarms. The alarm turns on if the PV (Process variable) deviates from the SV (Setpoint
value) by the amount programmed in the alarm, e.g. if a High Limit Alarm is set at 10˚C and SV = 40˚C, the alarm turns on
when PV rises above 50˚C. If the alarm is set at –10˚C and SV = 40˚C, the alarm turns on when PV rises above 30˚C.
In the four absolute alarms, the actual value of alarm required is programmed, e.g. to alarm at PV=50˚C, the alarm should be
set at 50˚C.
The standby function prevents the alarm from registering if an alarm condition exists when power is initially applied to the
controller. This also happens if the setpoint value, SV, is changed to a level which places the current PV into an alarm. When
PV has moved out of the alarm level into the normal control area, then any further alarms will be registered.
High limit alarm action High limit alarm action with standby function Low limit alarm action Low limit alarm action with standby function
High/low limits alarm action High/low limits alarm action with standby function High/low limit range alarm action High/low limit range alarm with standby
Absolute value alarm function Absolute value alarm with standby Absolute value reverse alarm Absolute value reverse with standby
Hysteresis
SV setting Alarm setting
ON
OFF
Hysteresis
SV setting Alarm setting
ON
OFF
Hysteresis
Alarm setting Alarm setting Alarm setting Alarm setting
ON
OFF
Hysteresis Hysteresis
Hysteresis
Hysteresis
Hysteresis
Hysteresis
Hysteresis
SV setting Alarm setting SV settingAlarm setting
SV setting Alarm setting
ON
OFF
ON
OFF
SV settingAlarm setting
SV setting Alarm setting
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
Hysteresis
Hysteresis
SV setting Alarm setting
ON
OFF
ON
OFF
In parts, the standby function operates.
FCL
Alarm Output Ener gised/De-ener gised Selection
The event output can be programmed for normally off (turning on for an alarm condition) or normally on (turning off for
alarm).
The normally on mode is suitable for fail safe applications (in the event of power failure), as the alarm condition is the same as
that for power failure.
The normally off mode is suitable for standard applications where the output is required to turn on when an alarm occurs.
Loop Break Alarm
This is a programmable alarm of temperature rise or fall against time. The time setting is 0 to 200 minutes and the temperature
span is 0 to 100˚C (0.0 to 100.0˚C for ranges with a decimal point). If the PV does not rise by the span or greater within the set
time after the output power reaches 100% (or does not fall by the span or greater within the set time after the output power falls
to 0%), then the alarm is activated.
This can be used to check that: • mobile infra-red heaters are placed close enough to the target.
• multiple element heaters are all functioning.
Delayed Action Alar m
The alarm can be set as a delayed type. The time is adjustable from 0 to 9999 seconds. If short transient alarm conditions occur,
they will be ignored, unless they exist for at least the set time.
Wide Alarm Setting Adjustment
The setting values of the two alarms are programmed independently and are variable over the full scale span, e.g. for type K
thermocouples:Deviation alarms ±1370˚C or ±2500˚F
Absolute alarms 0 to +1370˚C or 0 to +2500˚F
Adjustable Alar m Hyster esis
The hysteresis between the points at which the alarm turns on and resets can be adjusted in 0.1˚C or ˚F increments between
0.1 and 100.0˚C or ˚F.
Alar m – Pr ogrammable With 12 Functions
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Features (continued)
Dimensions (mm)
Auto Reset in PD Control
If the FCL is set for PD control action, a reset function
is available to correct the inherent offset associated
with this form of control.
W ide Adjustment of P, I and D Values
P – Proportional Band 0 to full scale value
I – Integral time 1 to 3600 seconds
D – Derivative time 1 to 3600 seconds
Fully Variable Pr oportional Cycle
Proportional Cycle 1 to 120 seconds
Remote Second Setpoint Selection
If this option is purchased with the FCL, a second setpoint can be selected by shorting the appropriate two terminals on the
rear of the instrument.
This can be useful for processes that need to heat to a specific level and then cool to a second setting or pre-heat to one level
before final heating to a higher setting.
Main Setting Value Rising and Falling Rates
The rising and falling rates can be independently programmed to ensure that the rise or fall is controlled linearly. In this way,
the temperature can be increased at a controlled rate for more delicate applications.
This applies when the power is turned on, i.e. the first temperature rise and also if the setpoint is changed to another value.
Control Output Off
If the control is required to stop, or one of several FCL models in a process is not used, the control action can be turned off,
with the PV display showing ‘OFF’ as a clear indication. This setting is retained, even if power is turned off and on again, until it
is cancelled.
Sensor Correction (Input Shift)
This function can be used when a sensor cannot be located at the ideal position for control and is placed where the
temperature may deviate from that in the ideal position. Also, when using several temperature controllers, this function can be
used to correct the apparent temperature difference due to the tolerances of the sensors and the controllers.
PV Filter T ime Constant Setting
If the PV is found to fluctuate due to external disturbances to systems with short time constants then the PV filter feature of
the FCL can be used to slow down the response of the whole system (not just the display).
Auto Reset applied
Offset is corrected automatically
Time
Offset
Setpoint value
Temperature
FCL
48 110
24
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