power monitoring inputs will appear under the Inputs tab of the application. All inputs must be connected to board and points set up with Engineering Units of Amps.

11.16 Anti-Sweat Setup

An anti-sweat application controls one anti-sweat zone. An anti-sweat zone is defined as one or more anti- sweat heaters that use the same dewpoint (or RH and tem- perature) sensors and the same control setpoints. If all the outputs on a 20-channel PMAC panel are going to use the same setpoints and dewpoint device(s), then all the heaters may be set up in a single zone.

Zones are set up in a single screen called the Anti- Sweat Control Setup screen.

11.16.1 How Anti-Sweat Works

Anti-sweat applications control anti-sweat heaters by monitoring the dewpoint. A dewpoint value may come from a dewpoint probe mounted within the Zone, or it may be calculated automatically by the E2 using a combination of a relative humidity sensor and a temperature sensor.

The dewpoint value is used to pulse the heaters ON for a certain percentage of a user-defined time interval. The dewpoint is compared to the anti-sweat application’s con- trol setpoints (the Full ON Dewpoint and the Full OFF Dewpoint). Based on this comparison, the anti-sweat heat- ers will do one of three things:

If the dewpoint is equal to or above the Full ON Dewpoint, the heaters remain ON 100% of the time.

If the dewpoint is equal to or below the Full OFF Dewpoint, the heaters will be ON 0% of the time (fully OFF).

If the dewpoint is between the Full ON and Full OFF Dewpoint, the heaters will be pulsed ON for a percentage of the specified time interval. The per- centage is determined by proportionately measuring where the dewpoint falls between the range of val- ues formed by the two setpoints.

Figure 11-6shows an example of an anti-sweat appli- cation. The setpoints (Full ON = 80°F, Full OFF = 20°F) form the range of dewpoints across which the heaters will be pulsed. When the measured dewpoint is 45°F (directly in between both setpoints), the percentage will be 50%, and the heaters will be pulsed ON for five seconds of the defined 10-second interval. If the dewpoint drops to 30°F, the percentage will lower to 20%, and the heaters will be on only two seconds out of every 10.

11.17 Heat/Cool Control

Heat/Cool Control is a special kind of sensor control that applies to heating and cooling devices. Heat/Cool Control applications use PID control to vary the amount of heating and cooling based on the current temperature and its relation to the heating or cooling setpoint. Both staged and modulated (0-100%) heating and cooling outputs are supported by Heat/Cool Control.

Heat/Cool controls are available in RX units, allowing small installations with simple HVAC systems to use one controller for all refrigeration and HVAC systems.

11.17.1 Temperature Control

Heat/Cool applications use PID control to vary the out- put of heating and cooling devices. As is the case with all applications that use PID control, Heat/Cool control makes use of a PID setpoint and a throttling range. Refer to Appendix D: PID Control for more information.

Unlike normal PID loops that assume a 50% output is required to keep the temperature stabilized on the setpoint, Heat/Cools strive to stabilize the temperature on the set- point with the output at 0%. Thus, when the temperature goes below a heating setpoint or above a cooling setpoint, the heating or cooling outputs climb from 0% to 100% as determined by the throttling range (see Figure 11-25).

Lighting Control Command Cells

 

 

 

Input Value

DVCOMBINER

 

SCHEDIF

 

1 - 4

In 1

Out

 

Logic In

 

 

 

 

DV

In 2

Occupied

Sched In

 

 

In 3

 

 

DV

 

Out

 

In 4

Alt Schedule

 

Alt Combiner

Use Alt Sch

 

 

DV

 

 

Use Alt Comb

 

 

DV

 

Comb Type

 

 

 

 

 

 

 

 

Alt Comb

 

 

 

 

 

Invert Output

 

 

Comb Type

 

 

 

 

 

Alt Comb

 

 

 

 

Invert Output

 

 

 

 

MIN ON/OFF

ONESHOT

 

 

 

 

OVERRIDE

 

 

 

 

In

Out

Trigger

Out

In

Out

 

 

 

 

Command

LIGHTS

Min On/Off Times

 

 

 

(on, off, normal)

Min On/Off Delays

 

 

 

Type

 

 

Pulse Width

 

(timed, fixed)

 

 

 

Timer

 

OV time

 

 

 

 

 

 

26512043

Figure 11-25- Example of Heat/Cool PID Control

By default, only the proportional and integral modes of PID control are enabled for Heat/Cools. The user may choose to add the Derivative mode or to get rid of the Inte- gral mode and use strictly Proportional control.

11-46 E2 RX/BX/CX I&O Manual

026-1614 Rev 4 5-JAN-2013

Page 190
Image 190
Emerson E2 operation manual Anti-Sweat Setup, Heat/Cool Control, How Anti-Sweat Works