Carrier WEATHERMAKER 48/50AJ User Manual

54

Table 68 — Staged Gas Configuration

*Some configurations are model number dependent.

Staged Gas Heat Staging — Different unit sizes will control

heat stages differently based on the amount of heating capacity

included. These staging patterns are selected based on the mod-

el number. The selection of a set of staging patterns is con-

trolled via the heat stage type configuration parameter (HT.ST).

As the heating capacity rises and falls based on demand, the

staged gas control logic will stage the heat relay patterns up and

down, respectively. The Heat Stage Type configuration selects

one of 4 staging patterns that the stage gas control will use. In

addition to the staging patterns, the capacity for each stage

is also determined by the staged gas heating PID control. There-

fore, choosing the heat relay outputs is a function of the capaci-

ty desired, the heat staging patterns based on the heat stage type

(HT.ST) and the capacity presented by each staging pattern. As

the staged gas control desired capacity rises, it is continually

checked against the capacity of the next staging pattern.

When the desired capacity is greater than or equal to the

capacity of the next staging pattern, the next heat stage is select-

ed (Run Status



VIEW



HT.ST = Run Status



VIEW



HT.ST + 1). Similarly, as the capacity of the control drops, the

desired capacity is continually checked against the next lower

stage. When the desired capacity is less than or equal to the next

lower staging pattern, the next lower heat stage pattern is select-

ed (Run Status



VIEW



HT.ST = Run Status



VIEW



HT.ST - 1). The first two staged gas heat outputs are located on

the MBB board and outputs 3, 4, 5, and 6 are located on

the SCB board. These outputs are used to produce 5 to 11 stages

as shown in Tables 69A and 69B. The heat stage selected (Run

Status



VIEW



HT.ST) is clamped between 0 and the maxi-

mum number of stages possible (Run Sta-

tus



VIEW



H.MAX) for the chosen set of staging patterns.

See Tables 70-73.
INTEGRATED GAS CONTROL BOARD LOGIC — All gas

heat units are equipped with one or more integrated gas control

(IGC) boards. This board provides control for the ignition sys-

tem for the gas heat sections. On size 020-050 low heat units

there will be one IGC board. On size 020-050 high heat units

and 051 and 060 low heat units there are two IGC boards. On

size 051 and 060 high heat units there are three IGC boards.

When a call for gas heat is initiated, power is sent to W on the

IGC boards. For standard 2-stage heat, all boards are wired

in parallel. For staged gas heat, each board is controlled sepa-

rately. When energized, an LED on the IGC board will be

turned on. See Table 74 for LED explanations. Each board will

ensure that the rollout switch and limit switch are closed. The

induced-draft motor is then energized. When the speed of the

motor is proven with the Hall Effect sensor on the motor, the

ignition activation period begins. The burners ignite within

5 seconds. If the burners do not light, there is a 22-second delay

before another 5-second attempt is made. If the burners still do

not light, this sequence is repeated for 15 minutes. After

15 minutes have elapsed and the burners have not ignited then

heating is locked out. The control will reset when the request

for W (heat) is temporarily removed. When ignition occurs, the

IGC board will continue to monitor the condition of the rollout

switch, limit switches, Hall Effect sensor, and the flame sensor.

Forty-five seconds after ignition has occurred, the IGC will

request that the indoor fan be turned on. The IGC fan output

(IFO) is connected to the indoor fan input on the MBB which

will indicate to the controls that the indoor fan should be turned

on (if not already on). If for some reason the overtemperature

limit switch trips prior to the start of the indoor fan blower, on

the next attempt the 45-second delay will be shortened by

5 seconds. Gas will not be interrupted to the burners and heat-

ing will continue. Once modified, the fan delay will not change

back to 45 seconds unless power is reset to the control. The

IGC boards only control the first stage of gas heat on each gas

valve. The second stages are controlled directly from the MBB

board. The IGC board has a minimum on-time of 1 minute. In

modes such as Service Test where long minimum on times are

not enforced, the 1-minute timer on the IGC will still be fol-

lowed and the gas will remain on for a minimum of 1 minute.

Table 69A — Staged Gas Heat — 48AJ,AK,AW,AY Units

ITEM

EXPANSION

RANGE

UNITS

CCN POINT

DEFAULTS

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

UNIT SIZE

HEAT CAPACITY

UNIT MODEL NO.

POSITION NO. 5

Configuration



HEAT



SG.CF



HT.ST

ENTRY VALUE

020-035

Low

S

1 = 5 STAGE

High

T

2 = 7 STAGE

036-050

Low

S

1 = 5 STAGE

High

T

1 = 5 STAGE

051,060

Low

S

4 = 11 STAGE

High

T

3 = 9 STAGE