Instruction Manual for Autonics models including: LCD Display PID Temperature Controller, TX SERIES

TX SERIES

Caution Failure to follow these instructions may result in personal injury or product damage. ※The symbols used on the product and instruction manual represent ...

Термоконтролер TX4L-14R 100~240VAC -50~1200°C - ВИКИВАТ

Термоконтролер TX4M-24R 100~240VAC -50~1200°C - ВИКИВАТ

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DRW170805AE
LCD Display PID Temperature Controller
TX SERIES
INSTRUCTION MANUAL

Thank you for choosing our Autonics product. Please read the following safety considerations before use.
Safety Considerations
Please observe all safety considerations for safe and proper product operation to avoid hazards. Safety considerations are categorized as follows.
Warning Failure to follow these instructions may result in serious injury or death. Caution Failure to follow these instructions may result in personal injury or product damage. The symbols used on the product and instruction manual represent the following
symbol represents caution due to special circumstances in which hazards may occur.

Warning
1. Fail-safe device must be installed when using the unit with machinery that may cause serious injury or substantial economic loss. (e.g. nuclear power control, medical equipment, ships, vehicles, railways, aircraft, combustion apparatus, safety equipment, crime/disaster prevention devices, etc.) Failure to follow this instruction may result in fire, personal injury, or economic loss.
2. Install on a device panel to use. Failure to follow this instruction may result in electric shock.
3. Do not connect, repair, or inspect the unit while connected to a power source. Failure to follow this instruction may result in electric shock or fire.
4. Check 'Connections' before wiring. Failure to follow this instruction may result in fire.
5. Do not disassemble or modify the unit. Failure to follow this instruction may result in electric shock or fire.
Caution
1. When connecting the power input and relay output, use AWG 20 (0.50mm2) cable or over and tighten the terminal screw with a tightening torque of 0.74 to 0.90N m. When connecting the sensor input and communication cable without dedicated cable, use AWG 28 to 16 cable and tighten the terminal screw with a tightening torque of 0.74 to 0.90N m. Failure to follow this instruction may result in fire or malfunction due to contact failure.
2. Use the unit within the rated specifications. Failure to follow this instruction may result in fire or product damage.
3. Use dry cloth to clean the unit, and do not use water or organic solvent. Failure to follow this instruction may result in electric shock or fire.
4. Do not use the unit in the place where flammable/explosive/corrosive gas, humidity, direct sunlight, radiant heat, vibration, impact, or salinity may be present. Failure to follow this instruction may result in fire or explosion.
5. Keep metal chip, dust, and wire residue from flowing into the unit. Failure to follow this instruction may result in fire or product damage.

Ordering Information

TX 4 S

1 4R
R Control output
S
C Power supply
4

1

Option output

2

A

B

S

Size

M

H

L Digit
4
Item TX

Relay output SSR drive output Selectable current output or SSR drive output
100-240VAC 50/60Hz
Alarm output 1 Alarm output 1+Alarm output 2 Alarm output 1+Alarm output 2+Trans. output Alarm output 1+Alarm output 2+RS485 com. output
DIN W48×H48mm DIN W72×H72mm DIN W48×H96mm DIN W96×H96mm
9999(4-digit)
LCD display PID temperature controller

Input Type and Range

Input type Thermocouple RTD

K (CA)
J (IC)
L (IC)
T (CC) R (PR) S (PR) DPt 100 Cu50

Decimal point 1 0.1 1 0.1 1 0.1 1 0.1 1 1 1 0.1 1 0.1

Display KCaH KCaL JIcH JIcL LIcH LIcL TCcH TCcL RPR SPR DPtH DPtL CUsH CUsL

Input range() -50 to 1200
-50.0 to 999.9 -30 to 800
-30.0 to 800.0 -40 to 800
-40.0 to 800.0 -50 to 400
-50.0 to 400.0 0 to 1700 0 to 1700
-100 to 400 -100.0 to 400.0
-50 to 200 -50.0 to 200.0

Input range() -58 to 2192
-58.0 to 999.9 -22 to 1472
-22.0 to 999.9 -40 to 1472
-40.0 to 999.9 -58 to 752
-58.0 to 752.0 32 to 3092 32 to 3092
-148 to 752 -148.0 to 752.0
-58 to 392 -58.0 to 392.0

The above specifications are subject to change and some models may be discontinued without notice. Be sure to follow cautions written in the instruction manual and the technical descriptions (catalog,
homepage).

Specifications

Series

TX4S

TX4M

TX4H

TX4L

Power supply

100-240VAC 50/60Hz

Allowable voltage range 90 to 110% of rated voltage

Power consumption Display method

Max. 8VA 11-segments (PV: white, SV: green), other display (yellow) with LCD method1

Character PV(W×H) 7.2×14mm

size

SV(W×H) 3.9×7.6mm

10.7×17.3mm 6.8×11mm

7.2×15.8mm 6.2×13.7mm

16×26.8mm 10.7×17.8mm

Input type

RTD TC

DPt100, Cu50 (permissible line resistance max. 5) K (CA), J (IC), L (IC), T (CC), R (PR), S(PR)

Display RTD accuracy2 TC

At room temperature: (23±5): (PV ±0.3% or ±1, select the higher one) ±1-digit Out of room temperature: (PV ±0.5% or ±2, select the higher one) ±1-digit

Control output

Relay SSR Current

250VAC 3A, 30VDC 3A, 1a Max. 12VDC ±2V 20mA Max. 13VDC ±3V 20mA DC4-20mA or DC0-20mA (load resistance max. 500)

Option output

Alarm output AL1, AL2: 250VAC 3A , 30VDC 3A 1a Trans. output DC4-20mA (load resistance max. 500, output accuracy: ±0.3%F.S.) Com. output RS485 communication output (Modbus RTU method)

Control method Hysteresis Proportional band(P) Integral time(I)

ON/OFF control, P, PI, PD, PID control 1 to 100/ (0.1 to 50.0/) variable 0.1 to 999.9/ 0 to 9999 sec

Derivative time(D)

0 to 9999 sec

Control period(T)

0.5 to 120.0 sec

Manual reset

0.0 to 100.0%

Sampling period

50ms

Dielectric strength

3,000VAC 50/60Hz for 1 min (between primary circuit and secondary circuit)

Vibration

0.75mm amplitude at frequency 5 to 55Hz (for 1 min) in each X, Y, Z direction for 2 hours

Relay

Mechanical OUT, AL1/2: min 5,000,000 operations

life cycle Electrical OUT, AL1/2: min 200,000 (250VAC 3A resistance load)

Insulation resistance Min. 100M (at 500VDC megger)

Noise resistance Memory retention

Square shaped noise by noise simulator (pulse width 1) ±2kV R-phase, S-phase Approx. 10 years (non-volatile semiconductor memory type)

Environ- Ambient temp. -10 to 50, storage: -20 to 60 ment Ambient humi. 35 to 85%RH, storage: 35 to 85%RH

Protection structure

IP50 (front panel, IEC standards)

Insulation type

Double insulation (mark: , dielectric strength between primary circuit and secondary circuit: 3kV)

Approval

Weight3

Approx. 146.1g (approx. 86.7g)

Approx. 233g (approx. 143g)

Approx. 214g (approx. 133g)

Approx. 290g (approx. 206g)

1: When using the unit at low temperature (below 0), display cycle is slow. Control output operates normally.
2: At room temperature(23±5) TC R(PR), S(PR), below 200: (PV ±0.5% or ±3, select the higher one) ±1-digit , over 200: (PV ±0.5% or ±2, select the higher one) ±1-digit TC L(IC), RTD Cu50: (PV ±0.5% or ±2, select the higher one) ±1-digit Out of room temperature range
TC R(PR), S(PR): (PV ±1.0% or ±5, select the higher one) ±1-digit TC L(IC), RTD Cu50: (PV ±0.5% or ±3, select the higher one) ±1-digit 3: The weight includes packaging. The weight in parenthesis is for unit only. Environment resistance is rated at no freezing or condensation.

Unit Description

4 5 6
7 10

1. Measured value (PV) component:

RUN mode: Displays current measured value (PV).

SETTING mode: Displays parameters.

2. Temperature unit(/) indicator:

1

Displays the set temperature unit as temperature unit [UNIT] of

parameter 2 group.

2

3. Setting value (SV) display component: RUN mode: Displays setting value(SV).

3 9

SETTING mode: Displays setting value of parameter.
4. Auto-tuning indicator: Flashes during auto-tuning every 1 sec.

5. Control output (OUT1) indicator: Turns ON while control output is ON.

Turns ON when MV is over 3.0% at cycle/phase control of SSR drive

output method.

8

6. Alarm output (AL1, AL2) indicator:

Turns ON when the corresponding alarm output turns ON.

7.

key: Enters parameter group, returns to RUN mode, moves parameters,

and saves the setting value.

8. Setting value adjutment key: Enters SV setting mode and move digits.

9. Digital input key: Press the + keys for 3 sec to execute the digital input key

functions which is set at digital input key[DI-K]of parameter 2 group (RUN/STOP,

clear alarm output, auto-tuning).

10. PC loader port: It is for serial communication to set parameter and monitoring by

DAQMaster installed in PC. Use this for connection EXT-US (converter cable,

sold separately) + SCM-US (USB/Serial converter, sold separately).

Connections

Shaded terminals is standard model.

TX4S Series

OUT

SSR 12VDC±2V 20mA Max.

Current

DC0/4-20mA

Load 500Max.

Relay

1

250VAC 3A 1a

30VDC 3A 1a RESISTIVE LOAD

2

++

3

mA

--

4

5

SOURCE

6

100-240VAC

50/60Hz 8VA

13

14

+ mA

RS485(A+) 15

-

RS485(B-) 16

Communication Output

17

Transfer Output

DC4-20mA

18

TX4M Series

7

AL1 OUT: 250VAC 3A 1a

RESISTIVE LOAD

8 AL2 OUT:

250VAC 3A 1a

9 RESISTIVE LOAD
OUT

10 A

Current OUT DC4-20mA SSR

11 B +

Load

13VDC±3V

500Max. 20mA Max.

12 B' -
RTD TC

+

+

mA

-

-

SENSOR

Use terminals of size specified below.

ab

ab

<Round> a Min. 3.0mm b Max.5.8mm

<Forked> Min. 3.0mm
Max.5.8mm

SOURCE 100-240VAC 50/60Hz 8VA

1

19

2

20

3

21

4

OUT Relay

22

250VAC 3A 1a

5 30VDC 3A 1a

23

RESISTIVE LOAD

6

24

7

25

8

26

9

27

Dimensions

TX4S 48

51

6

45

TX4M 72

51

6

45

TX4H, L Series

Communication
Output
10 Transfer Output
DC4-20mA

11

RS485(A+)

mA

12
RS485(B-)

13

AL1 OUT:

250VAC 3A 1a

RESISTIVE LOAD

14

AL2 OUT:

250VAC 3A 1a

15

RESISTIVE LOAD

A
16

17 B +

18 B' -
RTD TC SENSOR

+
+

1

13

2

14

OUT

Current OUT

DC4-20mA SSR

Load

13VDC±3V

500Max. 20mA Max.

+

+

mA

-

-

SOURCE 100-240VAC 50/60Hz 8VA

3

4

5

6

7

OUT Relay

250VAC 3A 1a
8 30VDC 3A 1a

RESISTIVE LOAD

9

10

11

12

15 Communication
Output
16 Transfer Output
DC4-20mA

17 RS485(A+)

mA

18
RS485(B-)

19

AL1 OUT:

250VAC 3A 1a

20

RESISTIVE LOAD

AL2 OUT:

21

250VAC 3A 1a RESISTIVE LOAD

22 A

23 B +
24 B' -
RTD TC SENSOR

Bracket  TX4S Series
48.6 45

30.5 5 20

(unit: mm) TX4M/H/L Series

4 3.5

67.5 44.9 36 16

44.8

TX4H 48

51

6

45

TX4L 96

96 91.5

Terminal cover (sold separately) RSA-COVER(48×48mm)

RMA-COVER(72×72mm)

22

4

70

10

3

48.4

13

51

6

45

91.5

RHA-COVER(48×96mm)

3.8

47.2

9

15

55

21

46

8.5

33

11.9 23.9 56

Panel cut-out
A

Model TX4S TX4M TX4H TX4L

B D
C

Size A

B

C

Min. 65

Min. 65

45+0.6 0

Min. 90

Min. 90

68+0.7 0

Min. 115 Min. 65

45+0.6 0

Min. 115

Min. 115

92+0.8 0

(unit: mm)
D 45+0.6
0
68+0.7 0
92+0.8 0
92+0.8 0

RLA-COVER(96×96mm)

3.8

94

10

86

91.5

86

91.5

64

68.5

Installation
TX4S (48×48mm) series

Other series

18 22
41 45

13

13

13

(-) driver Insert the unit into a panel, fasten the bracket by pushing with tools with a (-) driver.

(-) driver

SV Setting
To change set temperature from 210 to 250
RUN mode

Comprehensive Device Management Program[DAQMaster]

DAQMaster is a comprehensive device management software for setting parameters and monitoring processes. DAQMaster can be downloaded from our web site at www.autonics.com.

Item System Operations Memory Hard disk VGA Others

Minimum specifications IBM PC compatible computer with Pentium  or above Windows 98/NT/XP/Vista/7/8/10 256MB+ 1GB+ of available hard disk space Resolution: 1024×768 or higher RS232C serial port (9-pin), USB port

Press any key among SV setting mode

, , , once.

Change SV by , , key

Completes SV setting

Check SV
If there is no key input for 3 sec while setting SV, the new setting is applied and the unit will return to RUN mode.

Factory Default

SV setting
Parameter
-

Factory default
0

Parameter 1 group

Parameter
AL1 AL2
AT P I D
REST HYS

Factory default
1250
OFF 1)0 240
49 5)0
2

Parameter 2 group

Parameter

Factory default

IN-T

KCaH

UNIT

?C

IN-B

0

MAvF

)1

L-SV

-50

H-SV

1200

O-FT

HEAT

C-MD

PID

OUT

CURR

SSrM

STND

oMA

4-20

T

2)0(Relay) @0(SSR drive)

AL-1

AM!A

AL-2

AM@A

Parameter
AHYS LBaT LBaB FS-L FS-H ADRS
BPS PRTY
STP RSwT COMW DI-K ErMV
LOC

Factory default
1 0 2 -50 1200 1 96 NONE 2 20 EnA STOP )0 OFF

Parameter Groups
RUN mode

Press any key among , , , once.

2 sec

SV setting

Parameter 1 group[PAR1]

4 sec Parameter 2 group[PAR2]

3 sec

3 sec

Order of parameter setup Parameter 2 group Parameter 1 group SV setting

All parameters are related one another. Set the parameters as above order.

If there is no key input for 30 sec while setting parameters, the new settings are ignored, and the unit will return to RUN mode with previous settings.

When returning to RUN mode by holding the

key for over 3 sec, press the

re-enter the first parameter of previous parameter group.

key within 1 sec to

Hold the + + keys for 5 sec in RUN mode, to enter re-set parameter menu. Select 'YES' and all parameters are reset as factory default.

 Parameter 2 group
RUN mode 1

1: : Press any key among , , .

2: Press the

key once after changing the setting value, to save the setting

value and move to the next parameter

3 sec

PAR2

Input sensor IN-T

4 sec Hold the

key for 3 sec to save the setting value and return to RUN mode

after changing the setting value.



Dotted parameters may not appear by model type or other parameter

settings.

Setting range: Refer to ' Input Type And Range'.

KCaH

When changing the setting value, SV, [IN-B, H-SV/L-SV,

2

AL1, AL2, LBaB, AHYS] parameters of parameter 2 group are

Temp. unit UNIT

reset.

When changing the setting value, SV, [IN-B, H-SV/

?C

?F L-SV, AL1, AL2, LBaB, AHYS] parameters of

parameter 2 group are reset.

Input correction

IN-B

0 Setting range: -999 to 999/(-199.9 to 999.9/)

Input digital filter

MAvF

)1 Setting range: 0.1 to 120.0 sec

 Parameter 1 group

3 sec

RUN mode 2 sec
PAR1

1: : Press any key among , , .

2: Press the

key once after changing the setting value, to save the setting

value and move to the next parameter

Hold the

key for 3 sec to save the setting value and return to RUN mode

after changing the setting value.



Dotted parameters may not appear by model type or other parameter

settings.

AL1 temperature 1 AL1
AL2 temperature AL2

1250
2
1250

Setting range: Deviation alarm(-[F.S] to [F.S]), Absolute value alarm(temperature range)
Does not appear when AL1/AL2 alarm operation[AL-1, AL-2] of parameter 2 group is set as AM)_/SBa /LBa .
Only alarm output 2 models have [AL2].

Auto-tuning AT
Proportional band P

OFF

When setting as ON, the unit starts auto-tuning. After

ON

completing, OFF is automatically set. During auto-tuning, the auto-tuning indicator

flashes (every 1 sec).

1)0 Setting range: 0.1 to 999.9/

Integral time I
Derivative time D
Manual reset REST

240 49

Setting range: 0 to 9999 sec Integral operation will be OFF
when the setting value is '0'
Setting range: 0 to 9999 sec Derivative operation will be OFF
when the setting value is '0'

Only appears when control method [C-MD] of parameter
2 group is set as PID.

Setting range: 0.0 to 100.0% 5)0 Only appears in P, PD control.

SV low-limit value

L-SV

SV high-limit value

H-SV

-50

1200

Setting range: Within temperature range of each sensor [H-SV(L-SV+1digit)] When changing the setting value, and SVH-SV, SV is reset as H-SV.

Hysteresis HYS

Setting range: 1 to 100/ (0.1 to 50.0/) 2 Only appears when control method [C-MD] of parameter 2 group is
set as ONOF.

Control output mode

O-FT

Control
method
Control output selection
SSR drive output method
Current output range

C-MD OUT
SSrM oMA

Control cycle

T

AL1 operation

AL-1

AL2 operation

AL-2

Alarm output hysteresis
LBA monitoring
time

AHYS LBaT

LBA detection LBaB
band
Trans. output low- FS-L limit value
Trans. output high-limit FS-H value

Comm. address

ADRS

Comm. speed

BPS

Comm. parity-bit

PRTY

Comm. stop-bit

STP

Comm. response RSwT waiting time

Comm. write

COMW

Digital input key

DI-K

Control output MV for input
break

ErMV

Lock

LOC

HEAT

COOL

PID CURR STND

ONOF

When changing the setting value, [ErMV] is reset as )0, [DI-K] is reset as OFF.

SSR

Appears only in selectable current output or SSR drive output model(TX4 - 4C).

CYCL

PHAS

Appears only in SSR drive output model (TX4 - 4S).

4-20

0-20 Appears only when control output[OUT] is set as CURR.

Setting range: 0.5 to 120.0 sec
2)0 Appears only when control method[C-MD] is PID. Does not appear when SSR drive output is set as CYCL, or PHAS.

AM!A

LBaA

AM!A

AM!B

Alarm operation

 Alarm option

Press the key to switch 'Alarm operation'

'Alarm option' setting.

Set method is same as AL1 alarm

AM@A

operation[AL-1].

Appears only in alarm output 2 models.

When changing the setting value, [AL1, AL2] parameter of parameter 1 group is reset.

1 0 2 -50 1200

Setting range: 1 to 100/(0.1 to 50.0/) Does not appear when AL1/AL2 alarm operation[AL-1, AL-2] is set
as AM)_/SBa /LBa . Setting range: 0 to 9999 sec (automatically set during auto-tuning) Appears only when alarm operation[AL-1, AL-2] is set as LBa .
Setting range: 0 to 999/ (0.0 to 999.9/) (automatically set during auto-tuning)
Appears only when alarm operation [AL-1, AL-2] is set as LBa and [LBaT] is not set as 0.
Setting range: Refer to ' Input Type and Range'. Appears only in transmission output model(TX4 -A4 ).

1 Setting range: 1 to 127

96

Setting range: 24, 48, 96, 192, 384 bps Multiply 100 to read the setting value.

NONE

EVEN

ODD

2

1

Appears in RS485 communication output
model(TX4 -B4 ).

20 Setting range: 5 to 99ms

EnA

DIsA

STOP

AlRE

AT does not appear when

AT

OFF control method [C-MD] is set

as ONOF.

Setting range: 0.0 to 100.0%
Only )0(OFF)/10)0(ON) appear when control method )0 [C-MD] is set as ONOF.
When control method [C-MD] is changing PIDONOF and the setting value is below 10)0, it is reset as )0.

OFF

LOC1

LOC2

LOC3

Setting range:

OFF Unlock LOC1 Parameter 2 group lock LOC2 Parameter 1,2 group lock LOC3 Parameter 1,2 group, SV setting lock

Alarm[AL-1/ AL-2]

AM!A

Alarm operation
Alarm operation

Alarm option

Mode Name Alarm operation

AM)_ -

-

Set both alarm operation and alarm option by combining. Each alarm operates individually in two alarm output models. When the current temperature is out of alarm range, alarm clears automatically. If alarm option is alarm latch or alarm latch and standby sequence 1/2, press digital input key( + 3 sec, digital input key[DI-K] of parameter 2 group set as AlRE), or turn OFF the power and turn ON to clear alarm.
Description
No alarm output

AM!

Deviation high-limit alarm

OFF

H ON

SV

PV

100 110

High-limit deviation: Set as 10

OFF H ON

PV

SV

90 100

High-limit deviation: Set as -10

If deviation between PV and SV as high-limit is higher than set value of deviation temperature, the alarm output will be ON.

AM@

Deviation low-limit alarm

ON H

OFF

PV

SV

90 100

Low-limit deviation: Set as 10

ON H OFF If deviation between PV and SV as

low-limit is higher than set value of

SV

PV

deviation temperature, the alarm

100 110 Low-limit deviation: Set as -10

output will be ON.

AM# AM$

Deviation high/lowlimit alarm
Deviation high/lowlimit reserve alarm

ON H

OFF

H ON

PV

SV

PV

90

100

110

High, Low-limit deviation: Set as 10

OFF H

ON

H OFF

PV

SV

PV

90

100

110

High, Low-limit deviation: Set as 10

If deviation between PV and SV as high/low-limit is higher than set value of deviation temperature, the alarm output will be ON.
If deviation between PV and SV as high/low-limit is higher than set value of deviation temperature, the alarm output will be OFF.

AM%

Absolute OFF H ON

value high limit alarm

PV

SV

90 100

OFF

H ON

SV

PV

100 110

If PV is higher than the absolute value, the output will be ON.

Alarm absolute-value: Set as 90 Alarm absolute-value: Set as 110

AM^
SBa LBa

Absolute value low limit alarm

ON H

OFF

PV

SV

90 100

ON H

SV

PV

100 110

OFF
If PV is lower than the absolute value, the output will be ON.

Alarm absolute-value: Set as 90 Alarm absolute-value: Set as 110

Sensor break alarm

-

It will be ON when it detects sensor disconnection.

Loop break alarm

-

It will be ON when it detects loop break.

 H: Alarm output hysteresis [AHYS]

Alarm option

Option Name

Description

AM

.A

Standard alarm

If it is an alarm condition, alarm output is ON. If it is a clear alarm condition, alarm output is OFF.

AM .B Alarm latch

If it is an alarm condition, alarm output is ON and maintains ON status. (Alarm output HOLD)

AM

.C

Standby sequence 1

First alarm condition is ignored and from second alarm condition, standard alarm operates. When power is supplied and it is an alarm condition, this first alarm condition is ignored and from the second alarm condition, standard alarm operates.

Alarm latch If it is an alarm condition, it operates both alarm latch and standby sequence. When AM .D and standby power is supplied and it is an alarm condition, this first alarm condition is ignored and
sequence 1 from the second alarm condition, alarm latch operates.

AM

.E

Standby sequence 2

First alarm condition is ignored and from second alarm condition, standard alarm operates. When re-applied standby sequence and if it is alarm condition, alarm output does not turn ON. After clearing alarm condition, standard alarm operates.

AM

.F

Alarm latch and standby sequence 2

Basic operation is same as alarm latch and standby sequence 1. It operates not only by power ON/OFF, but also alarm setting value, or alarm option changing. When re-applied standby sequence and if it is alarm condition, alarm output does not turn ON. After clearing alarm condition, alarm latch operates.

Condition of re-applied standby sequence for standby sequence 1, alarm latch and standby sequence 1: Power ON Condition of re-applied standby sequence for standby sequence 2, alarm latch and standby sequence 2: Power ON, changing set temperature, alarm temperature [AL1, AL2] or alarm operation [AL-1, AL-2], switching STOP mode to RUN mode.
Sensor break alarm The function that alarm output will be ON when sensor is not connected or when sensor's disconnection is detected during temperature controlling. You can check whether the sensor is connected with buzzer or other units using alarm output contact. It is selectable between standard alarm [SBaA] or alarm latch [SBaB].

Functions
Input correction[IN-B]
Controller itself does not have errors but there may be error by external input temperature sensor. This function
is for correcting this error.
Ex) If actual temperature is 80 but controller displays 78, set input correction value [IN-B] as '2' and controller displays 80. As the result of input correction, if current temperature value (PV) is over each temperature range of input
sensor, it displays HHHH or LLLL.
Input digital filter[MAvF]
If current temperature (PV) is fluctuating repeatedly by rapid change of input signal, it reflects to MV and stable control is impossible. Therefore, digital filter function stabilizes current temperature value. For example, set input digital filter value as 0.4 sec, and it applies digital filter to input values during 0.4 sec and displays these values. Current temperature may be different by actual input value.

SSR drive output method (SSRP function)[SSrM] SSRP function is selectable one of standard ON/OFF control, cycle control, phase control by
utilizing standard SSR drive output.
This function parameter appears only in SSR drive output model (TX4 - 4S). Realizing high accuracy and cost effective temperature control with both current output (4-20mA)
and linear output(cycle control and phase control) Select one of standard ON/OFF control [STND], cycle control [CYCL] , phase control [PHAS] at SSrM
parameter of parameter 2 group. For cycle control, connect a zero cross turn-on SSR or random turn-on SSR. For phase control, connect random turn-on SSR.

Temperature controller (TX Series)

SSR voltage output
(TX4S: 12VDC TX4M/H/L: 13VDC)

SSR module

Load

Power 100-240VAC
50/60Hz

When selecting cycle or phase control mode, the power supply for a load and a temperature controller must be the same.
Control cycle[T] is able to set only when control method[C-MD]of parameter group 2 is set as PID and SSR drive output method [SSrM] is set as STND.
In case of selectable current output or SSR drive output model(TX4 - 4C), this parameter does not appear. Standard ON/OFF control by SSR is only available.

1)Standard ON/OFF control [STND] Controls ON (100% output)/OFF

AC

(0% output) as same as standard

relay output.

OUT

2)Cycle control [CYCL]

Controls the load by repeating

output ON / OFF according to the

rate of output within setting cycle based on certain period (50-cycle).

AC

Control accuracy is almost the

same with phase control's. This control has improved ON/ OUT

OFF noise than phase control's

due to zero cross type which turns

ON/OFF at zero point of AC.

3)Phase control [PHAS]

Controls the load by controlling

AC

the phase within AC half cycle.

Serial control is available. Must use random turn-on SSR for OUT

this mode.

ON

OFF

50 Cycle 50%
10%

ON

OFF

50 Cycle 80%
50%

Current output range[oMA]
In case of selectable current output or SSR drive output model(TX4S- 4C), when control output [OUT] parameter 2 group is set as [CURR], you can select high/low-limit range, 4-20mA [4-20] or 0-20mA [0-20] of current output.

Hysteresis[HYS]
Set interval between ON and OFF of control output for ON/OFF control.
If hysteresis is too narrow, hunting(oscillation, chattering) could occur due to external noise.
In case of ON / OFF control mode, even if PV reaches stable status, there still occurs hunting. It could be due to hysteresis
[HYS] setting value, load's response characteristics or sensor's location. In order to reduce hunting to a minimum, it is required
to take into following factors consideration when designing temp.
controlling; proper Hysteresis [HYS], heater's capacity, thermal characteristics, sensor's response and location.

Control output

Heating operation

ON

OFF

Hysteresis [HYS]
SV

Temp.

Loop break alarm(LBA) It checks control loop and outputs alarm by temperature change of the subject. For heating control(cooling control), when control output MV is 100%(0% for cooling control) and PV is not increased over than LBA detection band [LBaB] during LBA monitoring time [LBaT], or when control output MV is 0%(100% for cooling control) and PV is not decreased below than LBA detection band [LBaB] during LBA monitoring time [LBaT], alarm output turns ON.

Time

Start control When control output MV is 100%, PV is increased over than LBA detection band [LBaB] during

to

LBA monitoring time [LBaT].

to

The status of changing control output MV (LBA monitoring time is reset.)

to

When control output MV is 0% and PV is not decreased below than LBA detection band [LBaB] during LBA monitoring time [LBaT], loop break alarm (LBA) turns ON after LBA monitoring time.

to

Control output MV is 0% and loop break alarm (LBA) turns and maintains ON.

to

The status of changing control output MV (LBA monitoring time is reset.)

to

When control output MV is 100% and PV is not increased over than LBA detection band [LBaB] during LBA monitoring time [LBaT], loop break alarm (LBA) turns ON after LBA monitoring time.

to

When control output MV is 100% and PV is increased over than LBA detection band [LBaB] during LBA monitoring time [LBaT], loop break alarm (LBA) turns OFF after LBA monitoring time.

to

The status of changing control output MV (LBA monitoring time is reset.)

When executing auto-tuning, LBA detection band[LBaB] and LBA monitoring time are automatically set based on auto tuning value. When alarm operation mode [AL-1, AL-2] is set as loop break alarm(LBA)[LBa ], LBA detection band [LBaB] and LBA monitoring time [LBaT] parameter is displayed.

Digital input key(

Parameter

OFF

OFF

RUN/STOP STOP

+ 3 sec)[DI-K]

Operation

It does not use digital input key function.

Pauses control output. Auxiliary output (except loop break alarm, sensor break alarm)

except Control output operates as setting. Hold the digital input keys for 3 sec to restart.

t

t

t

t

Digital input key (t: over 3 sec)

RUN STOP

RUN

STOP

RUN

Clear alarm Auto-tuning

AlRE AT

Clears alarm output by force. (only when alarm option is alarm latch, or alarm latch and standby sequence 1/2 .) This function is applied when present value is out of alarm operation range but alarm output is ON. Alarm operates normally right after clearing alarm.
Starts/Stops auto-tuning. This function is same as auto-tuning[AT] of parameter 1 group. (You can start auto-tuning [AT] of parameter 1 group and stop it by digital input key.) This parameter AT appears only when control method [C-MD] parameter 2 group
is set as PID. When control method [C-MD] parameter 2 group is set as ONOF, this parameter is changed as OFF.

Control output MV for input break[ErMV] When input sensor is break, set control output MV. When control method[C-MD] of parameter 2 group is set as ONOF, set control output MV as )0(OFF) or10)0(ON). When control method[C-MD] is set as PID, setting range for control output MV is )0 to 10)0.

Communication Setting

It is for parameter setting and monitoring via external devices (PC, PLC, etc.). Applicable for models with RS485 communication output through option output(TX4 -B4 ).
Please refer to ' Ordering Information'.

Interface Comm. protocol Modbus RTU Connection type RS485 Application standard EIA RS485 Compliance with Max. connection 31 units (address: 01 to 127) Synchronous method Asynchronous Comm. method Two-wire half duplex Comm. effective range Max. 800m

Comm. speed

4800, 9600 (default), 19200, 38400, 115200 bps

Response waiting time 5 to 99ms (default: 20ms)

Start bit

1-bit (fixed)

Data bit

8-bit (fixed)

Parity bit

None (default), Odd, Even

Stop bit

1-bit, 2-bit (default)

 Application of system organization

Only for RS485 communication output model.

RS232C/ USB/Wi-Fi RS485

Computer

Comm. converter
B (-)
ON OFF

Terminating resistance (100 to 120)

A (+) B (-)
RS485 DEVICE
#1

A (+) B (-)
RS485 DEVICE
#2

A (+) B (-)
RS485 DEVICE
#30

B (-) RS485 DEVICE
A (+) #31

A (+)

It is recommended to use Autonics communication converter; SCM-WF48 (Wi-Fi to RS485·USB wireless communication converter, sold separately), SCM-US48I (USB to RS485 converter, sold separately), SCM-38I
(RS232C to RS485 converter, sold separately), SCM-US (USB to Serial converter, sold separately).
Please use twisted pair wire, which is suitable for RS485 communication, for SCM-WF48, SCM-US48I and SCM-38I.

Manual
For the detail information and instructions of communication setting and Modbus mapping table, please refer to user manual for communication, and be sure to follow cautions written in the technical descriptions (catalog,
homepage).
Visit our homepage (www.autonics.com) to download manuals.

Error

Display Description

Troubleshooting

OPEN Flashes when input sensor is disconnected or sensor is not connected. Check input sensor status.

HHHH LLLL

Flashes when measured value is higher than input range. Flashes when measured value is lower than input range.

When input is within the rated input range, this display disappears.

Cautions during Use

1. Follow instructions in 'Cautions during Use'. Otherwise, It may cause unexpected accidents.

2. Check the polarity of the terminals before wiring the temperature sensor.

For RTD temperature sensor, wire it as 3-wire type, using cables in same thickness and length.

For thermocouple (CT) temperature sensor, use the designated compensation wire for extending wire.

3. Keep away from high voltage lines or power lines to prevent inductive noise.

In case installing power line and input signal line closely, use line filter or varistor at power line and shielded

wire at input signal line.

Do not use near the equipment which generates strong magnetic force or high frequency noise.

4. Do not apply excessive power when connecting or disconnecting the connectors of the product.

5. Install a power switch or circuit breaker in the easily accessible place for supplying or disconnecting the

power.

6. Do not use the unit for other purpose (e.g. voltmeter, ammeter), but temperature controller.

7. When changing the input sensor, turn off the power first before changing.

After changing the input sensor, modify the value of the corresponding parameter.

8. Do not overlapping communication line and power line.

Use twisted pair wire for communication line and connect ferrite bead at each end of line to reduce the effect

of external noise.

9. Make a required space around the unit for radiation of heat.

For accurate temperature measurement, warm up the unit over 20 min after turning on the power.

10. Make sure that power supply voltage reaches to the rated voltage within 2 sec after supplying power.

11. Do not wire to terminals which are not used.

12. This unit may be used in the following environments.

Indoors (in the environment condition rated in 'Specifications')

Altitude max. 2,000m

Pollution degree 2

Installation category II

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References

• autonics.com