Aci Asa series Installation instructions

Automation Components, Inc.

2305 Pleasant View Road | Middleton, WI 53562

Phone: 1-888-967-5224 | Website: workaci.com

Page 1

Version: 6.0

I0000602

FIGURE 1: DIMENSIONS

ANALOG SIGNAL AMPLIFIER

SERIES

Installation & Operation Instructions

Phone: 1-888-967-5224

Website: workaci.com

GENERAL INFORMATION

The ASA is an analog signal amplier which

accepts an analog (voltage or current) signal and

outputs a voltage signal. Several preset input

ranges are jumper selectable. It is designed to give

a Building Automation System signal output the

power (wattage) to control Maxitrol™ Gas Valves

normally installed in rooftop units. The top-adjust

trimmer potentiometers can be used to make ne

adjustments of gain and oset. The output gain

can be adjusted anywhere from 1 to 20 times the

input on the ASA (gain will vary depending on

type of input). By using voltage divider

applications, the ASA can also accept a resistance

input. The oset of the output can be +/- 0 to 20

VDC. If above 30 watts, derate load current and

calculate again (P out = [(V out/Load) (V out)]

and/or (P out = (Load Current)(V out)). The ASA is

eld calibratable, however, factory calibration is

available upon request for an additional charge.

This will speed up installation time for the end

user.

MOUNTING INSTRUCTIONS

Circuit board may be mounted in any position. If

circuit board slides out of snap track, a

non-conductive “stop” may be required. Use only ngers to remove board from snap track. Slide out of

snap track or push against side of snap track and lift that side of the circuit board to remove. Do not ex

board or use tools.

WIRING INSTRUCTIONS

PRECAUTIONS

• Remove power before wiring. Never connect or disconnect wiring with power applied.

• When using a shielded cable, ground the shield only at the controller end. Grounding both

ends can cause a ground loop.

• It is recommended you use an isolated UL-listed class 2 transformer when powering the unit

with 24 VAC. Failure to wire the devices with the correct polarity when sharing transformers may

result in damage to any device powered by the shared transformer.

• If the 24 VDC or 24VAC power is shared with devices that have coils such as relays, solenoids, or

other inductors, each coil must have an MOV, DC/AC Transorb, Transient Voltage Suppressor (ACI

Part: 142583), or diode placed across the coil or inductor. The cathode, or banded side of the DC

Transorb or diode, connects to the positive side of the power supply. Without these snubbers,

coils produce very large voltage spikes when de-energizing that can cause malfunction or

destruction of electronic circuits.

• All wiring must comply with all local and National Electric Codes.

2.90” (73.78mm)

3.25”

(82.55mm)

3.25”

(82.55mm)

2.70” (68.58mm)

0.70”

(17.78mm)

FACTORY CALIBRATION

The ASA is set as follows:

Voltage Input Signal

No Oset to the Output Signal

Input to Output Signal Gain (1:1)

The ASA can be ordered calibrated to your specications or you may follow the procedure below to set

your own calibration.

Be sure to check the input, output, GAIN and OFFSET specications of the ASA. It is possible that the ASA

cannot re-scale to your requirements.

CHECKOUT

Complete the following steps to change the calibration of the ASA. You will need a digital volt/current

meter, a 24 to 30 VDC or VAC power supply and a voltage input signal simulator.

EQUIVALENT CALIBRATION VOLTAGE

Use a voltage signal for your input signal during calibration: this makes both the procedure and the

explanation easier. If you will require a current input when you are nished, use the equation below to nd

the equivalent calibration voltage to use during the calibration procedure:

Equivalent Calibration Voltage = Required Input Signal Amps x 250

Example: 1 VDC is the equivalent calibration voltage for a 4 mA input signal (1= .004 x 250) or 5VDC is the

equivalent calibration voltage for a 20 mA input signal (5=.020 x 250).

Step 1) Trim Pot Presets

Set all pots as follows to start (These are 25 turn trim pots with no hard stops; they may make a slight

clicking sound at either end of their range):

Turn the GAIN pot Full Counterclockwise: = Gain of 1

Turn the OFFSET pots Fully Clockwise: = 0 volts oset

Step 2) Jumper Shunt Presets

J1 IN - INCOMING SIGNAL: Set in “E” position for voltage input.

If you require a current input, you will set this shunt in the “I” position

AFTER you are nished with the calibration procedure.

J2 - OFFSET: Set in the ‘O’ position for no oset to the output. If you will require a (+)

or (-) oset, you will set this shunt in the appropriate position in Step 6

Step 3) Wiring Connections

Make the following connections with the power OFF :

Connect a 24 to 30 VDC or VAC power supply (see power supply information on specications or

detail at bottom of page 3 instructions ) to the ASA terminals (+) and COM.

Connect the (-) input signal to the IN (-) terminal.

Connect the (-) meter lead to the OUT (-) terminal.

Connect (+) input signal lead to the IN (+) terminal.

Connect (+) meter lead to the OUT (+) terminal.

Step 4) Power Up

Turn on the power supply: the POWER indicator will light

Step 5) Set-Up- Input / Output Signal Adjustments

In this step you will gure the desired voltage/current input signal span and the desired voltage output

signal span and calibrate the ASA to these input and output signal spans.

To calculate the voltage/current input signal span, subtract the minimum voltage/current input signal from

the maximum input signal (i.e. a 0 to 5 volt input signal will give you a 5 volt input signal span: 5-0=5).

To calculate the voltage output signal span, subtract the minimum voltage output signal from the

maximum voltage output signal (i.e. a 3 to 15 volt output signal will give you a 12 volt output signal span:

15-3=12).

Take the number for the voltage input signal span and apply this voltage to the “IN” (+) and (-) terminals.

Compare the output voltage reading on your meter with the voltage output signal span you calculated

about. If the meter is higher or lower, adjust the “GAIN” potentiometer until the meter reads the calculated

output signal span.

Step 6) Oset Adjustments

The oset adjustments simply shift the output signal range up or down from a “no oset” setting. For

example, an output signal range with “no oset” is 3 to 15 volts. The maximum oset range is +/- 0 to 20

VDC.

Adding an oset of 2 volts would make the output signal range 5 to 17 volts. Subtracting an oset of 2 volts

would make the output signal range 1 to 13 volts.

Apply the minimum voltage input signal and read the minimum output signal on the meter. With the

“OFFSET” jumper shunt “J2” in the “0” position, no oset will be added or subtracted from the output signal

range.

If you need to shift the output signal range up, set the “OFFSET” jumper shunt “J2” in the “+” position and

adjust the “OFFSET” potentiometer until you increase the voltage reading on the meter to match the

desired minimum output voltage.

(Remember, this also increases the maximum output by the same amount.)

If you need to shift the output signal range down, set the “OFFSET” jumper shunt “J2” in the “-” position and

adjust the “OFFSET” potentiometer until you decrease the voltage reading on the meter to match the

desired minimum output voltage.

(Remember, this also decreases the maximum output by the same amount.)

Step 7) Final Adjustments

If you require a current input, set the “J1” IN jumper shunt in the “I” position. Check operation of the ASA for

desired signal rescaling and operation.

FIGURE 2: WIRING