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1 - DESCRIPTION
MT-543Ri LOG has three outputs of temperature control and a internal buzzer. Because of its
versatility, it allows that the second stage works as clyclical timer and the third as alarm, the second
stage can work with the first stage in systems that need minimum ventilation. The unit is equipped with a
clock and an internal memory (datalogger). The MT-543Ri LOG can store the temperature data
for certain periods of time, temperature variations and events such as sensor error, alarms and output
changes. It also has an internal rechargeable battery that permits data recording even during a power
outage.
Through the serial output RS-485, it permits communication with SITRAD software.
2 - APPLICATION
• Blood banks
• Multistage temperature system
• Air conditioning
• Data centers
3 - TECHNICAL SPECIFICATIONS
- Power Supply: MT-543Ri LOG: 90 ~ 264Vac (50/60Hz)
MT-543RiL LOG: 12/24 Vac/dc
- Control Temperature: NTC:-50 to 105°C(*) / -58 to 221°F(*)
- Dimensions: 71 x 28 x 71 mm
- Operating temperature: 0 to 50 ºC / 32 to 122ºF
- Operating humidity: 10 to 90% RH (without condensation)
- Maximum Load Current: OUT 1, OUT 2 and OUT 3 (NO) - 5(3)A / 250 Vac 1/8HP per output
OUT 3 (NC) - 3A/250Vac - Resistive load
- Digital input: Switch - input for detection of open door (dry contact type)
(*) This instrument can measure and control up to 200°C (392°F) temperatures, since used with
silicone cable sensor (ex.: SB59).
4 - CONFIGURATIONS
4.1 - Control temperature adjust (SETPOINT)
- Press
for 2 seconds unti
appears ,then release it.
SET
will be adjusted for the first stage.
- Use
and
to change the value and then press
- Adjust in the same way
(2nd estage) and
- The adjustment
and
will only be displayed if F07 and F17 are configured with 0 or 1 values.
- If the 3rd stage is configured as an alarm (F17 = 4, 5 or 6) and F26 = 1, the alarm time on
(
) will be permitted.
4.2 - Parameters table
Fun
Description
F01
Offset indication
F02
Operation mode of first stage
F03
Minimum setpoint allowed to the end user (first stage)
F04
Maximum setpoint allowed to the end user (first stage)
F05
Control differential (hysteresis) of first stage
F06
Minimum delay to turn on the first stage output
F07
Operation mode of second stage
F08
Minimum setpoint allowed to the end user (second stage)
F09
Maximum setpoint allowed to the end user (second stage)
F10
Control differential(hysteresis) of second stage
F11
Minimum delay to turn on the second stage output
F12
Time base of second stage cyclical timer
F13
Activation time for second stage cyclical timer
F14
Cyclical timer on second stage - time ON
F15
Cyclical timer on second stage - time OFF
F16
Operation mode of cyclical timer
F17
Operation mode of third stage
F18
Minimum setpoint allowed to the end user (third stage)
F19
Maximum setpoint allowed to the end user (third stage)
F20
Control differential (hysteresis) of third stage
F21
Minimum delay to turn on the third stage
F22
Delay to enable the alarm when the instrument is powered on
F23
Reactivation time of alarm when inhibited manually
F24
Alarm Time (on cycle)
F25
Alarm Time (off cycle)
F26
Enables F24 and F25 on easy access menu
Operation mode of Buzzer
F27
F28
Acting point of Buzzer (inferior limit)
F29
Acting point of Buzzer (superior limit)
Buzzer time on
F30
F31
Buzzer time off
F32
Inhibition time of Buzzer during electrical supply
Reactivation time of Buzzer when inhibited manually
F33
F34
T ime for the open door alarm
F35
Digital input operation mode
MT-543Ri LOG
THREE OUTPUT DIGITAL CONTROLLER
WITH ALARM, CYCLICAL TIMER AND
SERIAL COMMUNICATION
Ver.01
®
will appear and the temperature
when ready.
SET
(3rd stage).
CELSIUS
FAHRENHEIT
Standard
Min
Max
Unit
Min
Max
Unit
°C
°F
5.0
0.0
-9
9
-5.0
-
1
1
1
0
0
(*)
(*)
°C
°F
-50
105
-50
-58
221
(*)
°C
-58
(*)
°F
-50
105
105
221
°C
1
1
°F
0.1
20
36
sec.
0
0
999
sec.
0
999
-
4
0
0
4
0
(*)
ºC
(*)
ºF
-50
-58
221
-50
105
(*)
ºC
(*)
ºF
105
-58
221
-50
105
ºC
1
ºF
0.1
1
36
20
sec.
0
0
sec.
0
999
999
-
0
0
1
0
1
sec.
sec.
5
0
999
0
999
s/m
s/m
999
0
0
999
0
s/m
999
s/m
999
0
0
0
-
0
0
4
0
4
-
0
6
5
0
6
(*)
ºC
(*)
ºF
-50
105
21
-58
221
(*)
ºC
(*)
ºF
-50
105
27
-58
221
0.1
ºC
1
1
ºF
20
36
0
sec.
0
0
sec.
999
999
0
999
min.
0
0
999
min.
min.
min.
999
999
0
sec.
1
0
sec.
999
999
0
999
sec.
1
0
999
sec.
0
1
-
0
0
1
0
2
-
1
0
2
(*)
(*)
-50
105
ºC
21
-58
221
ºF
-50
(*)
27
-58
(*)
105
ºC
221
ºF
0
sec.
1
0
sec.
999
999
0
999
sec.
1
0
999
sec.
0
999
min.
0
0
999
min.
999
min.
999
min.
999
5
999
min.
min.
0
1
0
0
1
-
F36
Datalogger operation mode
F37
Datalogger sampling interval
F38
Variation of the temperature to force data recording
F39
Variation of the outputs to force data recording
F40
Overwrite records in the memory when it is full?
F41
Intensity of the digital filter
F42
Network address RS-485
(*) This parameter allows adjustments up to 200ºC (392°F), but to work on these conditions it has to be
used with silicone cable sensor (ex.: SB59).
5 PARAMETERS DESCRIPTION
-
F01 - Offset indication
It allows to compensate eventual shunting lines in the reading of ambient temperature proceeding from
the exchange of the sensor or cable lenght alteration.
F02 - Operation mode of first stage
- Refrigeration
- Heating
F03 - Minimum setpoint allowed to the end user (first stage)
F04 - Máximum setpoint allowed to the end user (first stage)
Electronic limits whose purpose is prevent that too high or too low setpoint temperatures are regulated.
F05 - Control differential (hysteresis) of first stage
It is the difference of temperature(hysteresis) between turn ON and turn OFF the OUT1 output.
F06 - Minimum delay to turn on the first stage output
It is the minimum time that OUT1 will keep turned off, it means, the amount of time between the last stop
and the next start.
F07 - Operation mode of second stage
- Refrigeration (controlled by
- Heating (controlled by
- Refrigeration (controlled by
- Heating (controlled by
- Cyclical timer
F08 - Minimum setpoint allowed to the end user (second stage)
and off
F09 - Maximum setpoint allowed to the end user (second stage)
Electronic limits whose purpose is prevent that too high or too low setpoint temperatures are regulated.
F10 - Control differential(hysteresis) of second stage
It is the difference of temperature(hysteresis) between turn ON and turn OFF the output OUT2.
F11 - Minimum delay to turn on the second stage output
Standard
the minimum time that the output OUT2 will remain turned off, in other words, the amount of time
0
between the last startup and the next startup. Only if programmed in F07 = 0, 1, 2 or 3.
-
1
-58
221
F12 -Time base of second stage cyclical timer
2
- seconds
0
- minutes
-
0
-58
F13 - Activation time of second stage cyclical timer
221
This function depends of F16. Every time that the temperature reach the configured value in
configured time in this function is respected, to be activated the cyclical timer after. To activate the timer
2
when
is reached just set "0" in this function.
0
-
0
F14 - Cyclical timer on second stage - time ON
It is the time that the timer will be turned ON.
5
0
F15 -Cyclical timer on second stage - time OFF
0
It is the time that the timer will be turned OFF.
-
0
F16 - Operation mode of cyclical timer
-
3
- Independent cyclical timer
70
- Cyclical timer started by the first stage setpoint
81
- First stage linked with cyclical timer (Timer starts ON)
2
- First stage linked with cyclical timer (Timer starts OFF)
- Cyclical timer output turned on whenever the the first stage output is turned ON
0
0
F17 - Operation mode of third stage
- Refrigeration (
1
- Heating (
- Refrigeration (
1
- Heating (
-
0
- Intra range alarm (F18 and F19)
-
1
- Extra range alarm (F18 and F19)
70
- Extra range alarm relative to the 1st stage setpoint (
considered the absolute values of F18 and F19.
81
1
F18 - Minimum setpoint allowed to the end user (third stage)
1
F19 - Maximum setpoint allowed to the end user (third stage)
0
Electronic limits whose purpose is prevent that too high or too low setpoint temperatures are regulated.
When the third stage is defined as alarm ( F17=4, 5 or 6 ), the acting points are defined in F18 and F19.
5
F20 - Control differential (hysteresis) of third stage
0
-
It is the difference temperature (hysteresis) between turn ON and turn OFF the output OUT3.
0
2
-
1
999
sec.
10
ºC
0
1
-
0
1
-
0
9
-
1
247
-
)
)
)
)
controlled by
)
controlled by
)
controlled by
)
controlled by
)
2
0
2
2
-
30
1
999
30
sec.
0
18
ºF
0
0
0
1
-
0
1
0
1
1
-
0
0
9
0
-
1
1
247
1
-
, the
- F18 and
+ F19), it is
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Related Manuals for Full Gauge Controls MT-543Ri LOG
Summary of Contents for Full Gauge Controls MT-543Ri LOG
- Page 1 SERIAL COMMUNICATION Ver.01 1 - DESCRIPTION Datalogger operation mode MT-543Ri LOG has three outputs of temperature control and a internal buzzer. Because of its Datalogger sampling interval sec. sec. versatility, it allows that the second stage works as clyclical timer and the third as alarm, the second ºC...
- Page 2 F21- Minimum delay to turn on the third stage A typical application requiring this filter is the freezer for ice cream or frozen goods, because when the It is the minimum time that the output OUT3 will keep turned off, it means, the amount of time between door is opened a hot air mass reaches the sensor directly, causing the indication of the measured the last stop and the next start.
- Page 3 3: Install transient suppresors (RC filters) parallel to the loads as to increase the product life of the relays. 10.2 - Clock The MT-543Ri LOG has an internal clock to record data in its memory. To continue operation, Schematic for the connection of supresors Schematic for the connection of supresors to even in the event of a power outage, the battery must be connected as described in item 10.1.