Carrier WEATHERMASTER 48/50Z030-105 User Manual

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slowing down the fan has the additional benefit of working

around dehumidification concerns.
Static Pressure Reset Economizer Position (SP.EC) — This

option effectively resets ECONOMIN to fully occupied venti-

lation position, to account for the drop in static pressure during

static pressure reset control. The static pressure reset for the

calculation cannot be larger than the supply air static set point

(SPSP).
The calculation is as follows:
(Static Pressure Reset/SPSP) x (ECONOSPR – ECONOMIN)

As an example, the static pressure set point (SPSP) =

1.5 in. wg. The current static pressure reset is set to 0.5 in. wg.

The settings for ECONOSPR = 50% and ECONOMIN = 20%.

Therefore, the amount to add to the economizer’s

ECONOMIN configuration is: (0.5/1.5) x (50-20) = 10%. In

effect, for the positioning of the economizer, ECONOMIN

would now be replaced by ECONOMIN + 10%.
Static Pressure PID Config (S.PID) — Static pressure PID

configuration can be accessed under this heading in the Con-

figuration

→

SP submenu. Under most operating conditions the

control PID factors will not require any adjustment and the

factory defaults should be used. If persistent static pressure

fluctuations are detected, small changes to these factors may

improve performance. Decreasing the factors generally reduce

the responsiveness of the control loop, while increasing the

factors increase its responsiveness. Note the existing settings

before making changes, and seek technical assistance from

Carrier before making significant changes to these factors.
Static Pressure PID Run Rate (S.PID

→

SP.TM) — This is the

number of seconds between duct static pressure readings taken

by the ComfortLink PID routine.
Static Pressure Proportional Gain (S.PID

→

SP.P) — This is

the proportional gain for the static pressure control PID control

loop.
Static Pressure Integral Gain (S.PID

→

SP.I) — This is the

integral gain for the static pressure control PID control loop.
Static Pressure Derivative Gain (S.PID

→

SP.D) — This is the

derivative gain for the static pressure control PID control loop.
IGV Actuator Configs (ACT.C) — Every actuator used in the

Z Series control system has its own unique serial number. The

rooftop control uses this serial number to communicate with

the actuator over the local equipment network (LEN). These

serial numbers are programmed at the factory and should not

need changing. Should field replacement of an actuator

become necessary, it will be necessary to configure the serial

numbers of the new actuator. Five individual numbers make up

this serial number and these can be programmed to match the

serial number of the actuator in its “IGV Actuator Configs”

group, ACT.C (SN.1, SN.2, SN.3, SN.4, SN.5).
NOTE: The serial numbers for all LEN actuators can be found

inside the control doors of the unit as well as on the actuator

itself. If an actuator is replaced in the field, it is a good idea

to remove the additional peel-off serial number sticker on

the actuator and use it to replace the old one inside the

control panel doors. The format for the overall serial number

is 111-222-333-444-555, where each of these segments can

be 1, 2 or 3 digits in length. Valid numbers are in the range

1-255.
IGV Serial Number 1 (ACT.C

→

SN.1) — This variable records

the first of the five segments of the IGV digital LEN actuator

serial number. The complete serial number is used by the

ComfortLink controls to communicate with the actuator.
IGV Serial Number 2 (ACT.C

→

SN.2) — This variable records

the second segment of the IGV actuator serial number.
IGV Serial Number 3 (ACT.C

→

SN.3) — This variable records

the third segment of the IGV actuator serial number.

IGV Serial Number 4 (ACT.C

→

SN.4) — This variable records

the fourth segment of the IGV actuator serial number.
IGV Serial Number 5 (ACT.C

→

SN.5) — This variable records

the fifth segment of the IGV actuator serial number.
IGV Control Angle Low Limit (ACT.C

→

C.A.LM) — The IGV

actuator learns what its end stops are though a calibration at the

factory. Field-installed actuators may be calibrated in the

Service Test mode. When an actuator learns its end stops

through this internal calibration, it remembers what its “control

angle range” is. From then on, the actuator will resolve this

control angle and express its operation in a percentage (%) of

this learned range.

If the IGV has not learned a sufficient control angle range

during calibration, it will be unable to control itself properly.

For this reason the IGV actuator used in the Z Series control

system has a configurable control angle alarm low limit in its

“Economizer Actuator Configs” group, ACT.C. (C.A.LM). If

the control angle learned through calibration is less than

Configuration

→

SP

→

ACT.C

→

C.A.LM, an alert will occur

and the actuator will not function.
NOTE: This configuration does not typically need adjustment.

It is configurable for the small number of jobs which may

require a custom solution or workaround.
STATIC PRESSURE RESET — The configuration for Static

Pressure Reset is found under Configuration

→

UNIT.

Static Pressure Reset Sensor (SP.RS) — If the outdoor air

quality sensor is not configured (Configuration

→

IAQ

→

AQ.CF

→

OQ.A.C=0), then it is possible to use the outdoor

air quality sensor location on the CEM board to perform static

pressure reset via an external 4-20 mA input. Enabling this

sensor will give the user the ability to reset from 0 to 3-in. wg

of static pressure. The reset will apply to the supply static

pressure set point (Configuration

→

SP

→

SP.SP), where 4 mA

= 0-in. wg and 20 mA = 3-in. wg.

As an example, the static pressure reset input is measuring

6 mA, and the input is resetting 2 mA of its 16 mA control

range. The 4 to 20 mA range corresponds directly to the 0 to

3 in. wg of reset. Therefore 2 mA reset is 2/16 * 3-in. wg =

0.375-in. wg of reset. If the static pressure set point (SP.SP) =

1.5-in. wg, then the static pressure control point for the system

will be reset 1.5 – 0.375 = 1.125-in. wg.

For third party 4 to 20 mA SP reset, wire the input to TB203

terminals 6 and 7.

For reset via a connected ComfortID™ system, the Linkage

Coordinator terminal monitors the primary-air damper position

of all the terminals in the system. It then calculates the amount of

supply static pressure reduction necessary to cause the most

open damper in the system to open more than the minimum

value (60%) but not more than the maximum value (90% or neg-

ligible static pressure drop). This is a dynamic calculation, which

occurs every two minutes whenever the system is operating. It

ensures that the supply static is sufficient to supply the required

airflow at the worst case terminal but not more than necessary, so

that the air terminals do not have to operate with a pressure drop

greater than required to maintain the airflow set point of each

individual terminal in the system. As the system operates, if the

most open damper opens more than 90%, the system recalcu-

lates the pressure reduction variable and Configuration

→

UNIT

→

SENS

→

SP.RS, the amount of reset, is reduced. If the most

open damper closes to less than 60%, the system recalculates the

pressure reduction variable and SP.RS is increased.

With this system, one needs to enter as the static pressure set

point SP.SP either a maximum duct design pressure or maxi-

mum equipment pressure, whichever is less. The system will

ITEM

EXPANSION

RANGE

CCN POINT

DEFAULT

→

SENS

→

SP.RS

Static Press.

Reset Sensor.

Enable/
Disable

SPRSTSEN

Disable