Справочник Пользователя для Honeywell W7750A
EXCEL 10 W7750A,B,C CONSTANT VOLUME AHU CONTROLLER
55
74-2958—1
than Intermittent Fan (see Fan Operation in this Appendix),
and the mode is Occupied when the RmTemp value becomes
invalid, the fan continues to run.
and the mode is Occupied when the RmTemp value becomes
invalid, the fan continues to run.
REMOTE SETPOINT (RmtStptPot)
This is the Setpoint Potentiometer contained in the T7770 or
the T7560A,B Wall Module. When configured, this occupant
value is set to calculate the actual cooling or heating
Occupied Setpoint. There are two options for how to calculate
the actual setpoint to be used by the temperature control
algorithm: (Offset) and (Absolute Middle). When SetPtKnob is
set to Offset, the Wall Module setpoint knob represents a
number from -9° to +9°F (-5° to +5°C) which is added to the
software occupied setpoints for the heat and the cool modes
(CoolOccSpt and HeatOccSpt). When SetPtKnob is set to
Absolute Middle, the setpoint knob becomes the center of the
Zero Energy Band (ZEB) between the cooling and heating
occupied setpoints. The size of the ZEB is found by taking the
difference between the software heating and cooling occupied
setpoints; therefore, for Absolute Middle, the actual setpoints
are found as follows:
the T7560A,B Wall Module. When configured, this occupant
value is set to calculate the actual cooling or heating
Occupied Setpoint. There are two options for how to calculate
the actual setpoint to be used by the temperature control
algorithm: (Offset) and (Absolute Middle). When SetPtKnob is
set to Offset, the Wall Module setpoint knob represents a
number from -9° to +9°F (-5° to +5°C) which is added to the
software occupied setpoints for the heat and the cool modes
(CoolOccSpt and HeatOccSpt). When SetPtKnob is set to
Absolute Middle, the setpoint knob becomes the center of the
Zero Energy Band (ZEB) between the cooling and heating
occupied setpoints. The size of the ZEB is found by taking the
difference between the software heating and cooling occupied
setpoints; therefore, for Absolute Middle, the actual setpoints
are found as follows:
ActualCoolSpt = RmtStptPot +
(CoolOccSpt - HeatOccSpt) / 2
ActualHeatSpt = RmtStptPot -
(CoolOccSpt - HeatOccSpt) / 2
During Standby and Unoccupied times, the remote setpoint
pot is not referenced, and the software setpoints for those
modes are used instead.
pot is not referenced, and the software setpoints for those
modes are used instead.
SETPOINT LIMITS (LoSetptLim AND HiSetptLim)
Remote setpoint pot limits are provided by LoSetptLim and
HiSetptLim. The occupied setpoints used in the control
algorithms are limited by these parameters. When the setpoint
knob is configured to be of type Absolute Middle, the lowest
actual setpoint allowed is equal to LoSetptLim, and the
highest actual setpoint allowed is equal to HiSetptLim. When
the setpoint knob is configured to be an Offset type, the lowest
actual setpoint allowed is equal to HeatOccSpt - LoSetptLim,
and the highest allowed is equal to CoolOccSpt + HiSetptLim.
HiSetptLim. The occupied setpoints used in the control
algorithms are limited by these parameters. When the setpoint
knob is configured to be of type Absolute Middle, the lowest
actual setpoint allowed is equal to LoSetptLim, and the
highest actual setpoint allowed is equal to HiSetptLim. When
the setpoint knob is configured to be an Offset type, the lowest
actual setpoint allowed is equal to HeatOccSpt - LoSetptLim,
and the highest allowed is equal to CoolOccSpt + HiSetptLim.
BYPASS MODE (StatusOvrd AND StatusLed)
During Unoccupied periods, the facility occupant can request
that Occupied temperature control setpoints be observed by
depressing the Bypass pushbutton on the wall module. When
activated, the controller remains in Bypass mode until:
that Occupied temperature control setpoints be observed by
depressing the Bypass pushbutton on the wall module. When
activated, the controller remains in Bypass mode until:
1.
Bypass Duration Setting has timed out (BypTime), or
2.
User again presses the Wall Module pushbutton to
switch off Bypass mode, or
switch off Bypass mode, or
3.
Occupancy schedule (DestSchedOcc network input or
TimeClckOcc digital input) switches the mode to
Occupied.
TimeClckOcc digital input) switches the mode to
Occupied.
4.
User sets the DestManOcc network point to Not
Assigned.
Assigned.
The LED on the T7770 Wall Module (Override LED) indicates
the current bypass mode status (see the T7770C,D Wall
Module Bypass Pushbutton and Override LED section). The
LCD on the T7560 Digital Wall Module indicates the current
bypass mode status (see the T7560A,B Digital Wall Module
Bypass Pushbutton and LCD Occupancy Symbols section).
the current bypass mode status (see the T7770C,D Wall
Module Bypass Pushbutton and Override LED section). The
LCD on the T7560 Digital Wall Module indicates the current
bypass mode status (see the T7560A,B Digital Wall Module
Bypass Pushbutton and LCD Occupancy Symbols section).
BypassTime
BypassTime is the time between the pressing of the override
button at the wall module (or initiating OC_BYPASS via
nviManOcc) and the return to the original occupancy state.
When the bypass state has been activated, the bypass timer
is set to BypassTime (default of 180 minutes).
button at the wall module (or initiating OC_BYPASS via
nviManOcc) and the return to the original occupancy state.
When the bypass state has been activated, the bypass timer
is set to BypassTime (default of 180 minutes).
OverrideType
OverrideType specifies the behavior of the override button on
the wall module. There are three possible states that have the
following meanings:
the wall module. There are three possible states that have the
following meanings:
NONE disables the override button.
NORMAL causes the override button to set the OverRide
NORMAL causes the override button to set the OverRide
state to OC_BYPASS for BypassTime (default 180
minutes), when the override button has been pressed
for approximately 1 to 4 seconds, or to set the OverRide
state to UNOCC when the button has been pressed for
approximately 4 to 7 seconds. When the button is
pressed longer than approximately 7 seconds, then the
OverRide state is set to OC_NUL (no manual override is
active).
minutes), when the override button has been pressed
for approximately 1 to 4 seconds, or to set the OverRide
state to UNOCC when the button has been pressed for
approximately 4 to 7 seconds. When the button is
pressed longer than approximately 7 seconds, then the
OverRide state is set to OC_NUL (no manual override is
active).
BYPASS_ONLY causes the override button to set the
OverRide state to OC_BYPASS for BypassTime (default
180 minutes), on the first press (1 to 7 seconds). On the
next press, the OverRide state is set to OC_NUL (no
manual over ride is active).
180 minutes), on the first press (1 to 7 seconds). On the
next press, the OverRide state is set to OC_NUL (no
manual over ride is active).
OverridePriority
OverridePriority configures the override arbitration between
nviManOcc, nviBypass.state, and the wall module override
button. There are two possible states which have the following
meanings:
nviManOcc, nviBypass.state, and the wall module override
button. There are two possible states which have the following
meanings:
LAST specifies that the last command received from either
the wall module or nviManOcc determines the effective
override state.
override state.
NET specifies that when nviManOcc is not OC_NUL, then
the effective occupancy is nviManOcc regardless of the
wall module override state.
wall module override state.
CYCLES PER HOUR (ubHeatCph AND ubCoolCph)
ubHeatCph specifies the mid-load number of on / off cycles
per hour (default is 6), when the mode is HEAT. ubCoolCph
specifies the mid-load number of on / off cycles per hour
(default is 3), when the mode is COOL. This is to protect the
mechanical equipment against short cycling causing
excessive wear. In addition the cycle rate specifies the
minimum on and off time according to Table 17.
per hour (default is 6), when the mode is HEAT. ubCoolCph
specifies the mid-load number of on / off cycles per hour
(default is 3), when the mode is COOL. This is to protect the
mechanical equipment against short cycling causing
excessive wear. In addition the cycle rate specifies the
minimum on and off time according to Table 17.
T7770C,D OR T7560A,B WALL MODULE BYPASS PUSHBUTTON
OPERATION
OPERATION
The Wall Module Bypass pushbutton is located on both the
T7770C,D or the T7560A,B Wall Modules, see Fig. 43 and 44.
The bypass pushbutton can change the controller into various
occupancy modes, see Table 16.
T7770C,D or the T7560A,B Wall Modules, see Fig. 43 and 44.
The bypass pushbutton can change the controller into various
occupancy modes, see Table 16.
Table 16. Bypass Pushbutton Operation.
NOTES: If the pushbutton is held down for longer than seven
seconds, the controller reverts back to No Override
and repeats the cycle above. See Fig. 45.
Continuous Occupied override mode can only be
initiated remotely; that is, over the L
and repeats the cycle above. See Fig. 45.
Continuous Occupied override mode can only be
initiated remotely; that is, over the L
ON
W
ORKS
Bus
network.
If the pushbutton is
held down for
But for not
more than
The resulting mode is
Less than 1 second
—
No Override is active
1 second
4 seconds Bypass (a timed Occupied
Override)
4 seconds
7 seconds Continuous Unoccupied
Override