Delta DVP04TC-H2 Merkblatt

http://www.delta.com.tw/industrialautomation/

5011652100-T2E0

2007-01-09

Temperature Measurement Module

Instruction Sheet

Warning

Please read this instruction sheet carefully before use.

Switch off the power before wiring.

DVP04TC-H2 is an OPEN-TYPE device and therefore should be installed in an enclosure free of airborne dust,

humidity, electric shock and vibration. The enclosure should prevent non-maintenance staff from operating the device
(e.g. key or specific tools are required to open the enclosure) in case danger and damages on the device may occur.

DO NOT connect input AC power supply to any of the I/O terminals; otherwise serious damage may occur. Check all

the wiring again before switching on the power.

DO NOT touch any terminal when the power is switched on.

Make sure the ground termnial

is correctly grounded in order to prevent electromagnetic interference.

Keep the wire as short as possible between RTD and PLC and the power wire as far away as possible from I/O wire to

prevent interference.

Introduction

1.1 Model Explanation & Peripherals

Thank you for choosing Delta’s DVP series. DVP04TC-H2 is able to receive 4 points of external thermocouple

temperature sensors (J-type, K-type, R-type, S-type, T-type) and convert them into 14-bit digital signals.
Besides, through FROM/TO instructions in DVP-EH2 MPU program, DVP04TC-H2 is able to read and write the
data in the module. There are 49 16-bit control registers (CR) in DVP04TC-H2.

The power unit and module of DVP04TC-H2 are separate, compact in size and easy to install.

DVP04TC-H2 displays temperatures in Celsius (resolution: 0.1°C) and Fahrenheit (resolution: 0.18°F).

Nameplate Explanation

04 TC -H2 0T6 500 001

VX.XXXX

24Vdc 2.5W

TYPE J, K, R, S, T

MADE IN XXXXX X

14 BITS

MODEL:

POWER INPUT:
THERMOCOUPLESE:

RESOLUTION:

Delta PLC model name

Power input specification

Analog I/O module specification

Barcode, serial No., Version

Model/Serial No. Explanation

DVP series

AD: Analog input
DA: Analog output
PT: Temperature measurement (PT-100)

TC: Temperature measurement
(thermocouple)

Points (input + output)

Model type

XA: Mixed analog I/O
HC: High-speed counter input
PU: Single-axis position control

H: For EH series MPU
H2: For EH2 series MPU

Model name

Production No.
Production week
Production year (2006)
Production plant (Taoyuan)
Version No.

1.2 Product Profile (Indicators, Terminal Block, I/O Terminals)

Unit: mm

D -

24V

D +

SL
D

CH
1

CH
3

-485

DIN rail (35mm)

Terminals

Connection port for extension unit/module

Mounting hole

Model name

I/O terminals

POWER, ERROR, A/D indicator

Mounting port for extension unit/module

DIN rail clip

1.3 External

Wiring

CH1

CH4

DC/ DC

+15V

-15V

24+

SLD

L -

L+

10 k

MUX

SLD

L -

L+

Thermocouple

Shielding
cable *1

Cold-Junction
Compensation

Converter

System
grounding

Terminal of
power module

Earth
(100 or less)

*1: The wiring used for analog input should adopts the connection cable or shielding cable of thermocouple temperature

sensor J-type or K-type and should be separated from other power cable or wirings that may cause interference. The
screw torque of the terminal should be 1.95 kg-cm (1.7 in-lbs).

*2: Terminal SLD is the ground location for noise suppression.
*3: Please connect the

terminal on both the power module and DVP04TC-H2 to the system earth point and ground the

system contact or connect it to the cover of power distribution cabinet.

Note: DO NOT wire empty terminal

Note: Use 60/75°C copper conductor only.

Specifications

2.1. Functions

Temperature measurement

(04TC) module

Celsius (°C)

Fahrenheit (°F)

Power supply voltage

24 VDC (20.4VDC ~ 28.8VDC) (-15% ~ +20%)

Analog output channel

4 channels/module

Applicable sensor
types

J-type, K-type, R-type, S-type, T-type thermocouple

Range of input
temperature

J type: -100°C ~ 700°C
K type: -100°C ~ 1,000°C
R type: -10°C ~ 1,700°C
S type: -10°C ~ 1,700°C
T type: -100°C ~ 350°C

J type: -148°F ~ 1,292°F
K type: -148°F ~ 1,832°F
R type: -14°F ~ 3,092°F
S type: -14°F ~ 3,092°F
T type: -148°F ~ 662°F

Range of digital
conversion

J type: K-1,000 ~ K7,000
K type: K-1,000 ~ K10,000
R type: K-100 ~ K17,000
S type: K-100 ~ K17,000
T type: K-1,000 ~ K3,500

J type: K-1,480 ~ K12,920
K type: K-1,480 ~ K18,320
R type: K-140 ~ K30,920
S type: K-140 ~ K30,920
T type: K-1,480 ~ K6,620

Resolution

14 bits (0.1)

14 bits (0.18)

Overall accuracy

±0.5% when in full scale (25°C, 77°F)
±1% when in full scale within the range of 0 ~ 55°C, 32 ~ 131°F

Response time

200 ms × the number of channels

Isolation

Isolation between digital area and analog area. No isolation among channels.

Digital data format

13 significant bits out of 16 bits are available; in 2’s complement

Average function

Yes; available for setting up in CR#2 ~ CR#5; range: K1 ~ K20

Self-diagnosis

Upper and lower bound detection/channel

Protection

The voltage output is protected by short circuit. Please also be aware that being
short circuit for too long period of time may cause damage on internal circuit. The
current output can be open circuit.

Communication mode
(RS-485)

ASCII/RTU mode.
Communication speed: 4,800/9,600/19,200/38,400/57,600 /115,200 bps
ASCII data format: 7-bit, Even bit, 1 stop bit (7, E, 1)
RTU data format: 8-bit, Even bit, 1 stop bit (8, E, 1)
RS-485 cannot be used when connected to PLC MPU.

When connected to
DVP-PLC MPU in
series

The modules are numbered from 0 to 7 automatically by their distance from MPU.
No. 0 is the closest to MPU and No. 7 is the furthest. Maximum 8 modules are
allowed to connect to MPU and will not occupy any digital I/O points.

2.2. Others

Power Supply

Max. rated power
consumption

24 VDC (20.4VDC ~ 28.8VDC) (-15% ~ +20%), 2.5W supplied by external power.

Environment

Environment spec.

Same as that of DVP-PLC MPU

Control Register

DVP04TC-H2

Description

RS-485

Parameter

address

Latched

Register content

b15 b14 b13 b12 b11 b10 b9 b8 b7 b6 b5 b4 b3 b2 b1 b0

H’4096 ○ R

Model name

Set up by the system. DVP04TC-H2 model code = H’6403

Reserved

CH4

CH3

CH2

CH1

H’4097 ○ R/W Thermocouple type

Take the setting of CH1 for example:
1. When (b2, b1, b0) is set as (0,0,0), choose J-type
2. When (b2, b1, b0) is set as (0,0,1), choose K-type
3. When (b2, b1, b0) is set as (0,1,0), choose R-type
4. When (b2, b1, b0) is set as (0,1,1), choose S-type
5. When (b2, b1, b0) is set as (1,0,0), choose T-type

H’4098 ○ R/W CH1 average time

H’4099 ○ R/W CH2 average time

H’409A ○ R/W CH3 average time

H’409B ○ R/W CH4 average time

Range of settings in CH1 ~ CH4: K1 ~ K20
Default = K10

H’409C ╳ R

Average °C temp. measured
at CH1

H’409D ╳ R

Average °C temp. measured
at CH2

H’409E ╳ R

Average °C temp. measured
at CH3

H’409F ╳ R

Average °C temp. measured
at CH4

Average Celsius temperature measured at CH1 ~ CH4.
Unit: 0.1°C

#10

H’40A0 ╳ R

Average °F temp. measured
at CH1

#11

H’40A1 ╳ R

Average °F temp. measured
at CH2

#12

H’40A2 ╳ R

Average °F temp. measured
at CH3

#13

H’40A3 ╳ R

Average °F temp. measured
at CH4

Average Fahrenheit temperature measured at CH1 ~ CH4
Unit: 0.1°F

#14

H’40A4 ╳ R

Present °C temp. measured
at CH1

#15

H’40A5 ╳ R

Present °C temp. measured
at CH2

#16

H’40A6 ╳ R

Present °C temp. measured
at CH3

#17

H’40A7 ╳ R

Present °C temp. measured
at CH4

Present Celsius temperature measured at CH1 ~ CH4
Unit: 0.1°C

#18 Reserved

#19

H’40A9 ╳ R

Present °F temp. measured
at CH1

#20 H’40AA ╳ R

Present °F temp. measured
at CH2

#21 H’40AB ╳ R

Present °F temp. measured
at CH3

#22 H’40AC ╳ R

Present °F temp. measured
at CH4

Present Fahrenheit temperature measured at CH1 ~ CH4
Unit: 0.1°F

#23 Reserved
#24 H’40AE ○ R/W OFFSET value of CH1
#25 H’40AF ○ R/W OFFSET value of CH2
#26

H’40B0 ○ R/W OFFSET value of CH3

#27

H’40B1 ○ R/W OFFSET value of CH4

Adjustable OFFSET settings at CH1 ~ CH4.
Range: -1,000 ~ +1,000
Default = K0
Unit: 0.1°C

#28 ~ #29

Reserved

#30

H’40B4 ╳ R

Error status

#31

H’40B5 ○ R/W

Communication address
setting

For setting RS-485 communication address. Range: 01 ~ 255
Default = K1

#32

H’40B6 ○ R/W

Communication speed (baud
rate) setting

For setting up communication speed:
4,800/9,600/19,200/38,400/57,600/115,200 bps
ASCII data format: 7-bit, Even bit, 1 stop bit (7, E, 1)
RTU data format: 8-bit, Even bit, 1 stop bit (8, E, 1) Default: H’0002
b0: 4,800 bps b1: 9,600 bps (default)
b2: 19,200 bps b3: 38,400 bps
b4: 57,600 bps b5: 115,200 bps
b6 ~ b13: reserved
b14: High/low bit exchange of CRC checksum (only valid in RTU mode)
b15: Switch between ASCII/RTU modes; 0 = ASCII mode (default)

b15 b14 b13 b12 b11 b10 b9 b8 b7 b6 b5 b4 b3 b2 b1 b0

ERR LED

CH4

CH3

CH2

CH1

#33

H’40B7 ○ R/W Returning to default setting

Take the setting of CH1 for example:
1. b0 is reserved.
2. b1 is reserved.
3. When b2 is set as 1, all the settings will return to default settings.
ERR LED definition: default of b12 ~ b15 = 1111
1. b12 corresponds to CH1. When b12 = 1 or the scale exceeds the range,

ERR LED will flash.

2. b13 corresponds to CH2. When b13 = 1 or the scale exceeds the range,

ERR LED will flash.

3. b14 corresponds to CH3. When b14 = 1 or the scale exceeds the range,

ERR LED will flash.

4. b15 corresponds to CH4. When b15 = 1 or the scale exceeds the range,

ERR LED will flash.

#34 H’40B8 ○ R

Firmware version

Displaying the current firmware version in hex; e.g. version 1.0A is indicated
as H’010A

#35 ~ #48

For system use

Symbols

○

: latched (when written in through RS-485 communication)

╳

: non-latched

R: Able to read data by FROM instruction or RS-485 communication
W: Able to write data by TO instruction or RS-485 communication

Explanations:

1. CR#0: Model name. The user can read the model name from the program and see if the extension module

exists.