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Technical Manual TAR x700-2

TAR 1700-2 - Dimensions and Connection

Connection Example

(simplified)

Voltage Output / Analog Output

The TAR contains an analogue 0-10V DC-signal

output. Because the output is scalable, it can be

used either to forward the actual value of sensor 1

(

P01

) or as a proportional /PI-controller output. In

differential control mode the voltage output depends

on the determined differential amount.

P31

...... actual temperature (resp. differential amount)

the output voltage delivers 10V.

P32

...... actual temperature (resp. differential

amount) the output voltage amounts 0V.

P33

...... integral part (I-part) of the output signal in 5

steps from appr. 0,25 to 4 minutes or oFF.

Analog Output Modes

P34

fixes the Analog Output Mode.

P34 = oFF Output is de-activated.
P34 = 1 Output works proportional, that means

rising temperature

-> rising output voltage.

P31/P32

are absolute values.

P34 = 2 Output works anti-proportional, that

means rising temperature

-> falling output voltage.

P31/P32

are absolute values.

P34 = 3 Like P34=1 but the values set by

P31/P32

work relative to the current

setpoint 1 (P04 + offset).

Example:

P31 = 10°C, P32 = -10°C, P34 = 3,

P04 = 15°C, no current shift

Output Voltages:

10V at P04 + P31 = 25°C

0V at P04 - P32 = 5°C

P34 = 4 Like P34=2, but the values set by

P31/

P32

work relative to the

current setpoint 1 (P04 + offset).

Example:

P31 = 10°C, P32 = -10°C, P34 = 4,

P04 = 15°C, no current shift

Output Voltages:

0V at P04 + P31 = 25°C

10V at P04 - P32 = 5°C

Example: Actual value Image

You need a remote display or similar, which shows

-50°C with 0V DC input voltage and +50°C with 10V

DC input voltage:
P32 = "-50", P31 = "+10", P34 must be "1".

Example: Proportional Controller

You want to drive e.g. a motor valve with 0-10V

DC input depending on a temperature. This valve

should be half open at 15°C. If the temperature falls,

the valves should open, if the temperature passes

10°C it must be full open. If the temperature rises,

the valve should be closed, with 20°C and above it

should remain closed.
P32 ="10.0", P31 ="20.0", P34 ="2"
Slow-down time / I-part

P33

(slow-down time) fixes the effect of the I-part

to the control process in 5 steps. The I-part amount

of the controlling variable is identical with the P-part

and will be added. The full size of the I-part will effect

after P33 is run down.
Effects of the Slow-down time

When P34 = 1

Act.Val. = Setpoint: Output 5V ± I-Part

Act.Val. > Setpoint: Output shifts with I-part

to 10V

Act.Val. < Setpoint: Output shifts with I-part

to 0V

When P34=2

Act.Val. = Setpoint: Output 5V ± I-Part

Act.Val. > Setpoint: Output shifts with I-part

to 0V

Act.Val. < Setpoint: Output shifts with I-part

to 10V

When P34 = 3

P31/P32

define a proportional band around the

active setpoint. The output voltage is 10V at

P04

+ P31

and 0V at

P04-P32

Act.Val. = Setpoint: Output 5V ± I-Part

Act.Val. > Setpoint: Output shifts with I-Part

to 10V

Act.Val. < Setpoint: Output shifts with I-Part

to 0V

When P34 = 4

P31/P32

define a proportional band around the

active setpoint. The output voltage is 0V at

P04

+ P31

and 10V at

P04-P32

Act.Val. = Setpoint: Output 5V ± I-Part

Act.Val. > Setpoint: Output shifts with I-Part

to 0V

Act.Val. < Setpoint: Output shifts with I-Part

to 10V

After an excursive change of the actual value the P-

part is calculated from the max. output voltage and

the proportional band:

Ux = (10V / (|P36 - P37| [K])) * delta Theta [K]
Example: • 10V U

out

at +10°C, 0V U

out

at -10°C

• aimed setpoint 0°C = 5V U

out

• current actual value 0°C

Actual value increases by 2K ->

• U

out

rises to 6V immediately

• U

aus

rises farther, after P38 is run

down, 7V will be reached.

dimensions in: mm (inches)

ELREHA

TAR

76 (3.0)

.38

)

.1)

75 (2.95)

Rückansicht m it Befestigungsrahm en

.46

)

15 14 13

T AR 1700-2

K 3

K 2

N
PE

K 1

0..1

12-24V AC

18-33V DC

50-60Hz

m ax. 5,5V A

K 4

10 11

O K1

15 14

230/24V,

5 VA

probe 1

probe 2

rear view with mounting frame

.76

)

11
12

1
2

(.47)

0..10V

mp./
Diffe
ren

zreg
ler

Tem
p./

Diffe
ren

ce C
ontr
ol

12-

24V

18-

33V

50/6

x. 5

,5V

14
13

DI1

NDO
DO

56 (2.2)

3 (.12)

Summary of Contents for TAR 1700-2

Page 1: ...to the application of power sources that are within the limits specified in this manual This documentation was compiled with utmost care however we cannot guarantee for its correctnesss in every resp...

Page 2: ...2 TF 201 F 3 Pt1000 C 4 Pt1000 F P26 x x x x 88 Alarm delay 1 99 min 5 P27 x x x x 88 Upper alarm limit relative in relation to the 0 100 100 current possibly shifted Control Setpoint 1 P28 x x x x 8...

Page 3: ...backup for about 10 days in case of power failure The time of the day and the date can be set with parameters P35 P36 Because the display has only three digits the time value comes in the following fo...

Page 4: ...n closed P32 10 0 P31 20 0 P34 2 Slow down time I part P33 slow down time fixes the effect of the I part to the control process in 5 steps The I part amount of the controlling variable is identical wi...

Page 5: ...eldings must be connected to the nearest grounding terminal The unshielded part of the data cable must be as short as possible Ifnetworkedcontrollers 1700 2typesonly aresup pliedbyonetransformeronlyan...

Page 6: ...as a minimum Mounting the controller close to power relays is unfavourable Strong electro magnetic interference malfunction may occur Take care that the wiring of interface lines meets the necessary...

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ELREHA TAR 1700-2, Technical Manual

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