Heating control – Carrier WEATHERMASTER 48/50Z030-105 User Manual

54

If the economizer is able to provide free cooling at the start

of a cooling session, the mechanical cooling algorithm

(SumZ), checks the economizer’s current position (Run Status

→

ECON

→

ECN.P) and compares it to the economizer’s

maximum position (Configuration

→

ECON

→

EC.MX) – 5%.

Once the economizer has opened beyond this point a 150 sec-

ond timer starts. If the economizer stays beyond this point for

2.5 minutes continuously, the mechanical cooling algorithm is

allowed to start computing demand and stage compressors and

unloaders.
2-Stage Cooling Economizer Mechanical Cooling Delay —

This type of mechanical cooling delay is relevant to the follow-

ing machine control types:
C.TYP = 4

TSTAT-2 STG

C.TYP = 6

SPT-2 STG

If the economizer is able to provide free cooling at the start

of a cooling session (for either a low cool or a high cool mode),

the 2-stage cooling algorithm will start a 10-minute hold off

timer on staging. Once this timer has expired, the 2-stage

cooling algorithm will qualify both the temperature of the

evaporator discharge temperature (EDT) and the outside-air

temperature (OAT).

If either of these temperatures are less than the current cool-

ing control point (Run Status

→

VIEW

→

CL.C.P) plus 1.5° F,

mechanical cooling will be held off. But if both of these

temperatures are above CL.C.P + 1.5° F, the first compressor

will be requested and a 5-minute hold off timer will be started

that will give the first compressor time to run before the second

compressor may be started.

At this point, if the 5-minute timer expires and the cooling

mode request is high or the cooling mode request is low and

dehumidification is active (Operating Modes

→

MODE

→

DEHU=ON), the 2-stage cooling algorithm checks whether

EDT is 1.5° F greater than the current cooling control point

(CL.C.P) and if it is, the second compressor will be requested.

Heating Control —

The Z Series ComfortLink™ con-

trols offers control for four different types of heating systems to

satisfy general space heating requirements: 2-stage gas heat,

2-stage electric heat, multiple-stage gas heat and hydronic heat.

Heating control also provides tempering and reheat functions.

These functions are discussed in separate sections. Reheat is dis-

cussed under Dehumidification function on page 77.

Variable air volume (VAV) type applications (C.TYP = 1, 2,

3, or 5) require that the space terminal positions be commanded

to open to minimum heating positions when gas or electric heat

systems are active, to provide for the unit heating system’s

Minimum Heating Airflow rate.

Also, for VAV applications, the heat interlock relay (HIR)

function provides the switching of a control signal intended for

use by the VAV terminals. This signal must be used to com-

mand the terminals to open to their Heating Open positions.

The HIR is energized whenever the Heating mode is active, an

IAQ pre-occupied force is active, or if fire smoke modes, pres-

surization, or smoke purge modes are active.

Hydronic heating applications that use the unit’s control

require the installation of a Local Equipment Network (LEN)

communicating actuator on the hydronic heating coil’s control

valve. This actuator (with or without matching control valve)

may be separately shipped for field installation.

All heating systems are available as factory-installed

options. The hydronic heating coil may also be field-supplied

and field-installed; the LEN actuator is still required if unit

control will be used to manage this heating sequence.
SETTING UP THE SYSTEM — The essential heating con-

figurations located at the local display under Configuration

→

HEAT. See Table 42.

Table 42 — Heating Configuration

*Some defaults are model number dependent.

ITEM

EXPANSION

RANGE

UNITS

CCN POINT

DEFAULT

HEAT

HEATING CONFIGURATION

HT.CF

Heating Control Type

0 - 4

HEATTYPE

0*

HT.SP

Heating Supply Air Setpt

80 - 120

dF

SASPHEAT

85

OC.EN

Occupied Heating Enabled

Yes/No

HTOCCENA

No

LAT.M

MBB Sensor Heat Relocate

Yes/No

HTLATMON

No

SG.CF

STAGED GAS CONFIGS

HT.ST

Staged Gas Heat Type

0 - 4

HTSTGTYP

0*

CAP.M

Max Cap Change per Cycle

5 - 45

HTCAPMAX

45*

M.R.DB

S.Gas DB min.dF/PID Rate

0 - 5

HT_MR_DB

0.5

S.G.DB

St.Gas Temp. Dead Band

0 - 5

^F

HT_SG_DB

2

RISE

Heat Rise dF/sec Clamp

0.05 - 0.2

HTSGRISE

0.06

LAT.L

LAT Limit Config

0 - 20

^F

HTLATLIM

10

LIM.M

Limit Switch Monitoring?

Yes/No

HTLIMMON

Yes

SW.H.T

Limit Switch High Temp

110 - 180

dF

HT_LIMHI

170*

SW.L.T

Limit Switch Low Temp

100 - 170

dF

HT_LIMLO

160*

HT.P

Heat Control Prop. Gain

0 - 1.5

HT_PGAIN

1

HT.D

Heat Control Derv. Gain

0 - 1.5

HT_DGAIN

1

HT.TM

Heat PID Rate Config

60 - 300

sec

HTSGPIDR

90

HH.CF

HYDRONIC HEAT CONFIGS

HW.P

Hydronic Ctl.Prop. Gain

0 - 1.5

HW_PGAIN

1

HW.I

Hydronic Ctl.Integ. Gain

0 - 1.5

HW_IGAIN

1

HW.D

Hydronic Ctl.Derv. Gain

0 - 1.5

HW_DGAIN

1

HW.TM

Hydronic PID Rate Config

15 - 300

sec

HOTWPIDR

90

ACT.C

HYDR.HEAT ACTUATOR CFGS.

SN.1

Hydronic Ht.Serial Num.1

0 - 255

HTCL_SN1

0

SN.2

Hydronic Ht.Serial Num.2

0 - 255

HTCL_SN2

0

SN.3

Hydronic Ht.Serial Num.3

0 - 255

HTCL_SN3

0

SN.4

Hydronic Ht.Serial Num.4

0 - 255

HTCL_SN4

0

SN.5

Hydronic Ht.Serial Num.5

0 - 255

HTCL_SN5

0

C.A.LM

Hydr.Ht.Ctl.Ang.Lo Limit

0-90

HTCLCALM

85