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Absolute Process Instruments APD 4300 D マニュアル

Installation and Setup

Precautions

WARNING! All wiring must be performed by a qualified electrician

or instrumentation engineer. See diagram for terminal designa-

tions and wiring examples. Consult factory for assistance.

WARNING! Avoid shock hazards! Turn signal input, output, and

power off before connecting or disconnecting wiring, or removing

or installing module.

Précautions

ATTENTION! Tout le câblage doit être effectué par un électricien

ou ingénieur en instrumentation qualifié. Voir le diagramme pour

désignations des bornes et des exemples de câblage. Consulter

l'usine pour assistance.

ATTENTION! Éviter les risques de choc! Fermez le signal d'entrée,

le signal de sortie et l'alimentation électrique avant de connecter

ou de déconnecter le câblage, ou de retirer ou d'installer le module.

API maintains a constant effort to upgrade and improve its products.

Specifications are subject to change without notice. See api-usa.com for

latest product information. Consult factory for your specific requirements.

WARNING: This product can expose you to chemicals includ-

ing nickel, which are known to the State of California to cause

cancer or birth defects or other reproductive harm. For more

information go to www.P65Warnings.ca.gov

Electrical Connections

See wiring diagrams. Observe polarity.

Do not make any connections to unused terminals or use them

as wiring junctions for external devices. This may cause permanent

damage to the module!

Ranges

APD 4300 I/O ranges are set at the factory and must be speci-

fied when ordering. Listed below are commonly ordered input

and output ranges. Consult factory for other available ranges or

special ranges. See the model/serial number label for module

information, options, and I/O range information.

Common Voltage Inputs

0-100 mV

1-5 V

0-200 mV

0-10 V

0-500 mV

0-20 V

0-1 V

0-50 V

0-2 V

0-100 V

0-5 V

±100 mV

Common Current Inputs

0-1 mA

0-20 mA

0-10 mA

4-20 mA

0-16 mA

10-50 mA

Common Voltage Outputs

0-1 V

1-5 V

0-5 V

0-10 V

Common Current Outputs

0-20 mA

0-16 mA

Input

Polarity must be observed when connecting the signal input.

For a transmitter with a current output, determine if it provides

power to the current loop or if it must be powered by the APD mod-

ule. Use a multi-meter to check for voltage at the transmitter output

terminals. Typical voltage may be in the range of 9 to 24 VDC. In

this case, wire the device to terminals 9 and 11.

Type of Input Device

– Terminal + Terminal

Sensor or transmitter w. voltage output.

Transmitter with a mA (current) output

that provides power to the current

loop. Typically a 3 or 4-wire device.

Transmitter with mA (current) output that

is unpowered. Typically a 2-wire device.

APD module provides loop power.

Output

Polarity must be observed when connecting the signal output.

If your device requires a current input, determine if it provides

power to the current loop or if it must be powered by the APD mod-

ule. Use a multi-meter to check for voltage at the input terminals.

Typical voltage may be in the range of 9 to 24 VDC. In this case,

wire the device to terminals 2 and 4.

Device Connected to Output

– Terminal + Terminal

Measuring or recording device accepts

a voltage input.

Measuring/recording device accepts a

mA (current) input and the input is

unpowered or passive. APD module

provides the loop power.

Measuring or recording device accepts

a mA (current) input and provides

power to the current loop.

BSOLUTE

ROCESS

Module Power Terminals

Check model/serial number label for module operating voltage to

make sure it matches available power.

When using DC power, either polarity is acceptable, but for con-

sistency with similar API products, positive (+) can be wired to

terminal 13 and negative (–) can be wired to terminal 16.

The power supplies are fuse protected and the unit may be

returned to API for fuse replacement.

Mounting to a DIN Rail

Install module vertically on a 35 mm DIN rail in a protective enclo-

sure away from heat sources. Do not block air flow. Allow 1" (25

mm) above and below housing vents for air circulation.

1. Tilt front of module downward and position against DIN rail.

2. Clip lower mount to bottom edge of DIN rail.

3. Push front of module upward until upper mount snaps into

place.

Removal

1. Push up on the bottom back of the module.

2. Tilt front of module downward to release upper mount from top

edge of DIN rail.

3. The module can now be removed from the DIN rail.

Calibration

Input and output ranges as specified on your order are factory

pre-configured (at 24°C ±1°C). Front-mounted, Zero and Span

potentiometers can be used to calibrate the output to compensate

for load and lead variations.

1. Apply power to the module and allow a minimum 20 minute

warm up time.

2. Using an accurate calibration source, provide an input to the

module equal to the minimum input required for the application.

3. Using an accurate measurement device for the output, adjust

the Zero potentiometer for the exact minimum output desired.

The Zero control should only be adjusted when the input

±200 mV

signal is at its minimum. This will produce the corresponding

±500 mV

minimum output signal. For example: 4 mA for a 4-20 mA

±1 V

output or –10 V for a ±10V output.

±2 V

4. Next, set the input at maximum, then adjust the Span pot for

±5 V

the exact maximum output desired. The Span control should

±10 V

only be adjusted when the input signal is at its maximum.

This will produce the corresponding maximum output signal.

0-100 mA

Example: for 4-20 mA output, the Span control will provide

0-200 mA

adjustment for the 20 mA or high end of the signal.

0-500 mA

5. Repeat adjustments for maximum accuracy.

Output Test Function

±5 V

The test button may be used to drive the device on the output (a

±10 V

panel meter, chart recorder, etc.) with a known good signal that

can be used as a system diagnostic aid during initial start-up or

4-20 mA

during troubleshooting.

When depressed it will drive the output with a known good signal.

When released, the output will return to normal.

You can also enable the test function by connecting an external

switch or button to terminals 5 and 6. This can be used as a

remotely operated manual override to set the output at a fixed

value regardless of the input signal.

The Test Cal. potentiometer can be used to set the test output to

the desired level. It is factory set to provide approximately 50%

output. It is adjustable from 0 to 100% of the output span. Press

9 (–)

(+)

and hold the Test button and adjust the Test Cal. potentiometer

for the desired output level. When released, the output will return

9 (–)

(+)

to normal.

Operation

The APD 4300 is factory configured to your exact input and output

11 (–)

requirements. The input is filtered, either amplified or attenuated

(+15 VDC)

as required, then passed through to the output stage.

The green LoopTracker

that a signal is being sensed by the input circuitry of the module.

It also indicates the input signal strength by changing in intensity

as the process changes from minimum to maximum.

If the LED fails to illuminate, or fails to change in intensity as the

process changes, check the module power or signal input wiring.

Note that it may be difficult to see the LEDs under bright lighting

conditions.

The red LoopTracker output LED provides a visual indication

that the output signal is functioning. It becomes brighter as the

3 (–)

(+)

input and the corresponding output change from minimum to

maximum.

For current outputs, the red LED will only light if the output loop

3 (–)

(+20 V)

current path is complete. For either current or voltage outputs,

failure to illuminate or a failure to change in intensity as the

process changes may indicate a problem with the module power

2 (–)

(+)

or signal output wiring.

NSTRUMENTS

input LED provides a visual indication

1220 American Way Libertyville, IL 60048

Phone:

800-942-0315

APD 4300

2 3 4

Output

5 6

7 8

Output Test

 * Do not

make connec-

tions to unused

terminals!

Wire terminal

torque

0.5 to 0.6 Nm or

4.4 to 5.3 in-lbs

Input

9 1 0 1 1

1 2

Power

1 3 1 4

1 5

1 6

Voltage Output

mA output: determine if receiving device has a pas-

sive or powered input. The module can be wired for

a sinking or sourcing mA output.

Current Sourcing Output

Module powers

mA output loop

Loop

Power

Current Sinking Output

Source

Module mA output is

unpowered

External Contact

for Test Function

To maintain full isolation avoid com-

bining power supplies in common

with inputs, outputs, or unit power.

Voltage Input

Current Sinking Input

Module mA input is

Loop

unpowered

Power

Source

 * Do not make connections

to unused terminals!

Current Sourcing Input

Module powers mA input loop

mA input: determine if transmitter has a passive

or powered output. The module can be wired for

a sinking or sourcing mA input.

13 Power AC or DC +

Cu 60/75°C

Earth Ground

conductors

16 Power AC or DC –

14 AWG max.

api-usa.com

Fax: 800-949-7502

Voltage

Device

–

Device

–

+ 20V

4-20 mA

Device

–

Output

Loop

Test Cal.

Tracker

Test

Span

Input

Loop

Zero

Tracker

APD 4300

DC to DC

Isolated Transmitter

–

Voltage

Xmtr

–

Xmtr

+15V

–

Xmtr