Yokogawa ADMAG AXR User Manual

<4. WIRING>

4-11

IM 01E30D01-01EN

Table 4.6.3 General - purpose Use/Explosion Proof Type except TIIS Wiring Examples (Simultaneous Current-

Pulse Output)

Connection

Description

Simultaneous Current-

Pulse Output

When simultaneous output of current and pulse output are used, no communication is possible

in some cases. Refer to following example 1 to 3.

Example 1

In this case,

Communication is

possible (up to a

distance of 2 km when

a CEV cable is used)

and when a two-wire

shielded cable is used.

No communication is possible

when a shielded cable is not used.

However, simultaneous current-pulse output is possible.

Shielded Cable

SUPPLY

DO

Distributor, etc.

+

−

R3

+

−

+

−

R

+

−

Shielded Cable

For the shielded cables in this example,

use two-wire shielded cables

separately for SUPPLY and DO.

E1

AXR Terminal

E3:30 V DC max

Cable Resistance:R1

[

Ω

]

*9

Cable Resistance:R2

[

Ω

]

*9

0.0236 x (R1 + R2+ R3) + 14.7 ≤ E1 [V] ≤ 42

*10

In the case of R3=250[

Ω

]

0.0236 x (R1 + R2) + 20.6 ≤ E1 [V] ≤ 42

*10

*8

*7

*6

*3

*3: This supply voltage requires a power source

with a maximum output current of no less than E3/R.

Electric

counter

R3

[

Ω

]:Load Resistance

Example 2

In this case,

Communication is

possible (up to a

distance of 2 km when

a CEV cable is used)

and when a one-wire

shielded cable is used.

Shielded Cable

SUPPLY

DO

Distributor, etc.

+

−

R3

+

−

+

−

R

+

−

Shielded Cable

For the shielded cables in this example,

use two-wire shielded cables

separately for SUPPLY and DO.

E1

AXR Terminal

E3:30 V DC max

0.0236 x (R1 + R2+ R3) + 14.7 ≤ E1 [V] ≤ 42

*10

In the case of R3=250[

Ω

]

0.0236 x (R1 + R2) + 20.6 ≤ E1 [V] ≤ 42

*10

*8

*7

*6

Cable Resistance:R1

[

Ω

]

*9

Cable Resistance:R2

[

Ω

]

*9

Electric

counter

R3

[

Ω

]:Load Resistance

*4

*4: This supply voltage requires a power source

with a maximum output current of no less than E3/R.

Example 3

In this case,

No communication is

possible when a three-

wire cable is used.

R

250Ω

E5

0.0236×﴾R1

+

R2﴿

+

20.6

≤

E5

[

V

]

≤

30

*7

*5: This supply voltage requires a power source

with a maximum output current of no less than (E5/R+0.0236).

SUPPLY

DO

+

−

+

−

AXR Terminal

*8

Electric

counter

+

−

Recorder

or other

instrument

+

−

*6

*5

Cable Resistance:R2

[

Ω

]

*9

Cable Resistance:R1

[

Ω

]

*9

The range of load

resistance R for the

pulse output

The range of load resistance R for the pulse output must basically be 1 kΩ and 2 W. The load

resistance should be selected by calculation as shown below when proper transmission is

impossible due to the length of cable or frequency of pulse output.

P (mW) = …………………………(2)

R (kΩ)

E

2

(V)

≤

R (kΩ)

≤

… (1)

120

E (V)

C (μF) × f (kHz)

0.1

E: Supply voltage (V)

f: Frequency of pulse output (kHz)

R: Value of load resistance (kΩ)

C: Cable capacitance (μF)

P: Electrical power of the load resistance (mW)

Note: C 0.1 (μF/km) for CEV cable

Note: • The communication is possible though it might not meet a part of the HART communication specification depending on use conditions.

• When using current and pulse output simultareously, the HART communication may be influenced by noise comparing analog output

only.