Wecon Lx3v-8itc User manual

LX3V-8ITC

User manual

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LX3V-8iTC

1 WECON Technology Co., Ltd.

1. Brief Introduction

Connect LX3V-8iTC to the LX Series Programmable Controller (PLC), then LX3V - 8iTC consumes the

90mA current from LX3V main unit or 5V power slot of the active expansion unit.

LX3V-8iTC temperature control module amplifies the input signals from eight thermocouple sensors,

and converts data into 14-bit readable data to store in the main processing unit (MPU). The

temperature is readable in degrees Celsius or Fahrenheit.

All data transfer and parameter settings can be adjusted by WECON PLC Editor software; FROM / TO

instruction can be used for reading and writing data.

As input sensor, the eight channels are free to match with any one of the thermocouple K, J, T, E, N,

B, R, S type when eight thermocouple input points are in use.

The channels are isolated from one another.

2. Dimension

POW Lamp: Module power lamp. Be always on in normal condition; flash in case of hardware

LX3V-8iTC

2 WECON Technology Co., Ltd.

error, communication error or the power supply of acquisition board error; be off when the

acquisition board is not calibrated.

COM Lamp: Be always on when digital transmission is normal; be off when the acquisition

board is powered off or fails to communicate with the communication board.

24V Lamp: Be always on when connected to external power supply.

Channel Lamp: Be always on when the temperature is normal; be off when the channel is

closed; flash in case of over-limit temperature, hardware error, communication error or power

error.

Terminal

Description

Terminal

Description

24V+

Connect to the positive

terminal of 24V power supply

L+

Connect to the positive signal

wire of thermocouple

24V-

Connect to the negative

terminal of 24V power supply

L-

Connect to the negative signal

wire of thermocouple

3. Wiring

Use the crimp terminals that meet the dimensional

requirements showed in the left figure.

Apply 0.5 to 0.8 N.m (5 to 8 kgf.cm) torque to tighten the

terminals against disoperation.

Wire only the module terminals in this manual, keep

others blank.

(1) The temperature compensation

cable connected to

thermocouple is as follows:

Type K: DX-G, KX-GS, KX-H,

KX-HS, WX-G, EX-H, VX-G

Type J: JX-G, JX-H

Type S: SC-G, SC-H

Type N: NC-G,NC-H

Type E: EX-G, EX-H

Type T: TX-G, TX-H

Type B: BC-G, BC-H

Type R: RC-G, RC-H

LX3V-8iTC

3 WECON Technology Co., Ltd.

For line impedance per ohm, the compensation cable indicates that it is 0.12 ° C above the

actual value. Check the line impedance before use, and the long compensation cables are

susceptible to noise, so compensating cables shorter than 100 meters are recommended.

(2) The ground terminal, which connects LX3V-8iTC and the main unit, uses the 3rd level grounding

on the main unit.

(3) The 24V built-in power supply of the programmable controller can be used as the power supply

for this unit.

Precautions when wiring:

1) Before installation or wiring, make sure to cut off the external power supply of each phase, for

it may cause electric shock or equipment damage if the power supply is not cut off.

2) Make sure to interlock external loads outside PLC and LX3V and through the PLC program, for it

may be dangerous when they are connected simultaneously.

3) Connect the LX3V-8iTC and PLC power supply properly according to the instructions in this

manual. If the AC power is connected to the DC I / O terminal or the DC power supply terminal,

the PLC may be destroyed.

4) Do not connect external wiring to the terminals not used on LX3V-8iTC and PLC, for this

connection may damage the device.

4. Installation Instructions

4.1 Environmental indicators

Items

Instructions

Environmental indicators (not including the

following intentions)

Same as LX series PLC unit

Isolation Voltage

500VAC for 1 minute (between all terminals

and ground)

4.2 Power indicators

Items

Instructions

Analog circuit

24VDC ±10%，50mA

Digital circuit

5V DC, 90mA (From main unit's internal power supply)

LX3V-8iTC

4 WECON Technology Co., Ltd.

4.3Performance specification

Items

Celsius (oC)

Fahrenheit (oF)

Get two kinds of readable data oC and oF by reading appropriate buffer memory.

Input signal

Thermocouple: Type K, J, T, E, N, B, R, S (use each channel arbitrarily), totally 8

channels as signal input source.

Rated

temperature

range

Type K

from -200 oC to 1372 oC

Type K

from -328 oF to 2501 oF

Type J

from -210 oC to 600 oC

Type J

from -346 oF to 1112 oF

Type T

from -200 oC to 400 oC

Type T

from -328 oF to 752 oF

Type E

from -200 oC to 1000 oC

Type E

from -328 oF to 1832 oF

Type N

from -200 oC to 1300 oC

Type N

from -328 oF to 2372 oF

Type B

from 250 oC to 1820 oC

Type B

from 482 oF to 3308 oF

Type R

from -50 oC to 1768 oC

Type R

from -58 oF to 3214.4 oF

Type S

from -50 oC to 1768 oC

Type S

from -58 oF to 3214.4 oF

Numeric

output

Type K

from -2000 to 13720

Type K

from -3280 to 25010

Type J

from -2100 to 6000

Type J

from -3460 to 11120

Type T

from -2000 to 4000

Type T

from -3280 to 7520

Type E

from -2000 to 10000

Type E

from -3280 to 18320

Type N

from -2000 to 13000

Type N

from -3280 to 23720

Type B

2500 to 18200

Type B

4820 to 33080

Type R

from -500 to 17680

Type R

from -580 to 32144

Type S

from -500 to 17680

Type S

from -580 to 32144

12-bit conversion, stored as 16-bit binary complement

Measurement

accuracy

Type K

0.4 oC

Type K

0.72 oF

Type J

0.3 oC

Type J

0.54 oF

Type T

0.4 oC

Type T

0.72 oF

Type E

0.25 oC

Type E

0.54 oF

Type N

0.52 oC

Type N

0.72 oF

Type B

The average accuracy of

B-type: 2.09 oC,

The average accuracy for

below 1000 oC: 2.97 oC

The average accuracy for

above 1000 oC: 1.64 oC

Type B

The average accuracy of

B-type: 3.762 oF,

The average accuracy for

below 1832 oC: 5.346 oF

The average accuracy for

above 1832 oC: 2.952 oF

Type R

The average accuracy of

R-type: 1.53 oC,

The average accuracy for

below 800 oC: 1.87 oC

The average accuracy for

above 800 oC: 1.32 oC

Type R

The average accuracy of

R-type: 2.754 oF,

The average accuracy for

below 1472 oC: 3.366 oF

The average accuracy for

above 1472 oC: 2.376 oF

Type S

The average accuracy of

Type S

The average accuracy of

LX3V-8iTC

5 WECON Technology Co., Ltd.

S-type: 1.72 oC,

The average accuracy for

below 800 oC: 2.01 oC

The average accuracy for

above 800 oC: 1.53 oC

S-type: 3.096 oF,

The average accuracy for

below 1472 oC: 3.618 oF

The average accuracy for

above 1472 oC: 2.754 oF

Total accuracy

±(0.5% of the full range ±1 oC) condensation point of pure water: 0 oC /32 oF

Conversion

speed

(240ms±2%) *4 channel (Unused channels are not converted)

Note: Grounding thermocouples are not suitable for use with this unit.

Analog input

Conversion Characteristics: Readings respectively given at the calibration reference point 0 ° C /

32 °F (0/320). (Subject to the overall accuracy)

Miscellaneous

Item

Specification

Isolation

It has optical isolation between analog and digital circuits. DC/DC converter is applied

to isolate between this device and MPU. It has signal isolation between each analog

channel.

5. Buffer Memory

5.1 Allocation of Buffer Memory

BFM

W/R

Latch

Defaul

Contents

CH1->CH4

CH5->CH8

LX3V-8iTC

6 WECON Technology Co., Ltd.

#40

Channel

type

selection

W/R

H0000

Each HEX bit represents a channel

0：K Type(-200~1372 oC) 1：J Type(-210~600 oC)

2：T Type(-200~400 oC) 3：E Type(-200~1000

oC)

4：N Type(-200~1300 oC) 5：B Type(250~1820 oC)

6：R Type(-50~1768 oC) 7：S Type(-50~1768 oC)

8：Close channel Other: Reserved

For example: when # BFM40 is set as H8721, it

indicates that CH8 is off, CH7 is S Type, CH6 is T

Type, and CH5 is J Type.

#1->#4

#41->#44

Average

filter

constant

The average number of samples used to calculate.

Set to 1 for high-speed sampling. The setting

range is 1 ~ 256.

#5->#8

#45->#48

Average

temperat

ure oC

The average value of various temperatures in unit

of 0.1 degrees Celsius

#9->#12

#49->#52

Current

temperat

ure oC

The current value of various temperatures in unit

of 0.1 degrees Celsius

#13->#16

#53->#56

Average

temperat

ure oF

The average value of various temperatures in unit

of 0.1 degrees Fahrenheit

#17->#20

#57->#60

Current

temperat

ure oF

The current value of various temperatures in unit

of 0.1 degrees Fahrenheit

#21->#25

#61->#65

Cold-end

temperat

ure

The cold-end value of various temperatures in unit

of 0.1 degrees Fahrenheit

#26

#66

Cold-end

mode

setting

W/R

Cold-end mode read setting: Set 1 channel for

every 4 bits;

0: Read the internal cold-end temperature

1: Read the external CU50 cold-end temperature

Input data must be hexadecimal, only support to

input 0 or 1. Other input value is invalid, and the

value of BFM26 (BFM66) shows the allowed one

by last input.

Among which, 26 controls the first 4 channels, and

LX3V-8iTC

7 WECON Technology Co., Ltd.

66 controls the last 4 channels.

#27

#67

Cold-end

mode

selection

W/R

Cold-end mode selection, set 1 channel for every

4 bits;

0: Built-in cold end;

1: external cold end;

2: freezing cold end

Input data must be hexadecimal, only support to

input 0, 1 or 2. Other input value is invalid, and

the value of BFM26 (BFM66) shows the allowed

one by last input.

Among which, 27 controls the first 4 channels, and

67 controls the last 4 channels.

The control of BFM26 (BFM66) and BFM27

(BFM67) do not affect each other.

#28

#68

Error

latch

The value range is incorrectly latched

#29

#69

Error

code

Error state

#30

#70

Identifica

tion code

Identification number(K2038)

#31

#71

Version

number

Communication board software version number

#32

#72

Version

number

Acquisition board software version number

#33->#39

#73->#79

Reserve

Note: Symbol Description

O represents maintainer line, X represents non-maintainer line, R represents readable data, W

represents writable data.

LX3V-8iTC

8 WECON Technology Co., Ltd.

5.2 Description of Buffer Memory (BFM)

1) Buffer memory BFM # 0 / BFM # 40: select 8 types of thermocouples

Use to select 8 types of thermocouples for each channel. Each bit of the 4-bit hexadecimal

number corresponds to one channel, BFM # 0 sets 1 to 4 channels and BFM # 40 sets 5 to 8

channels. For example, BFM # 0 sets as follows:

The A / D conversion time per channel is 240 ms. When a channel is set to "8" (not used), the

corresponding channel does not perform A / D conversion, so the total conversion time is

reduced. In the above example, the conversion time is as follows:

240 ms (conversion time per channel) * 3 channels (channels in use) = 720 ms (total usage

time)

2) Buffer register BFM # 1-BFM # 4, BFM # 41-BFM # 44: number of the averaged temperature

readings

The averaged sample values of the 1st to 4th channels are assigned to BFM # 1 to BFM # 4, and

the averaged sample values of the 5th to 8th channels are assigned to BFM # 41 to BFM # 44.

Only the range of 1 to 4096 is valid. The overflowed value will be ignored. Use 8 as the default

value.

Some of the most recently converted readable values are averaged to give a smoothed readable

value. The average Celsius data is stored in BFM # 5 to BFM # 8 and BFM # 45 to BFM # 48. The

average Fahrenheit data is stored in BFM # 13 to BFM # 16 and BFM # 53 to BFM # 56.

3) Current temperature

Used to save the current value of input data in the unit of 0.1 °C or 0.1 °F. BFM # 9 to BFM # 12

and BFM # 17 to BFM # 20 store the current values of the 1st to 4th input data, and BFM # 49 to

# 52 and # 57 to # 60 store the current values of the 5th to 8th input data.

4) Cold-end compensation

BFM # 27 / BFM # 47 sets the thermocouple cold-end compensation mode. Each bit of the 4-bit

hexadecimal number corresponds to one channel, BFM#27 sets 1 to 4 channels, and the last bit

sets channel 1. BFM # 47 sets 5 to 8 channels, and the last bit sets channel 5.

LX3V-8iTC

9 WECON Technology Co., Ltd.

Built-in cold-end mode: adopt module built-in NTC sensor to collect the indoor temperature for

thermocouple cold-end compensation, without additional wiring.

Freezing cold-end mode: place the cold end of TC thermocouple in the ice-water mixture.

5) Buffer memory BFM # 28 / BFM # 68: Digital range error latch

b10 (digital range error) of BFM # 29 / BFM # 69 determines whether the measured

temperature is within the unit allowable range.

BFM # 28 latches the error state of each channel and can be used to detect if the thermal

resistance is off.

b15-b8

Not

used

High

Low

High

Low

High

Low

High

Low

CH4/CH8

CH3/CH7

CH2/CH6

CH1/CH5

Low: latch ON when the temperature measurement drops and is below the minimum

measurable temperature limit.

High: turn on ON when the temperature measurement rises and is above the maximum

temperature limit, or when the thermal resistance is off.

If an error occurs (disconnect the sensor), the temperature data before error is latched. If the

measured return value is within valid range, the temperature data returns to normal operation.

6) BFM29 / BFM69: Error state

Bit for error state

OFF

b0: error

If any of b1 to b3 is ON, the

error channel A / D stops

conversion.

No error

b1: reserve

Reserve

b2: power failure

24VDC power failure

Normal power

b3: hardware

error

A / D converter or other

hardware failure

Normal hardware

b4 to b9: reserve

Reserve

b10: data range

error

Data output / analog input

value is out of specification

Normal data output

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