Uim operating procedures – A.O. Smith VB/VW- 1000 User Manual

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UIM OPERATING PROCEDURES

FIGURE 20. UIM, USER INTERFACE MODULE

The UIM receives commands from the user and displays operational

information to the user via an LCD (liquid crystal display) up to eleven

LED’s, and five touch switches. The LCD provides information to

the user by the use of 10 menu-activated screens. Within each of

the screens, helpful information can be displayed by pressing the

“Help” button. The LED’s visually inform the user about the mode

the system is in. The touch switches allow the user to control the

operation of the system. The operation of these parts is described

in the following section:
UIM Screens:
On all screens a double vertical bar appears on the right side of

the display each time a key is touched to indicate that a key has

been activated. On several screens an indicator “>” appears on

the left side of the display to indicate the active line. The “Up/

Down” keys are used to move the indicator to the desired line and

the “Select” key is pressed to select the line. Also, on most of the

screens, up/down arrows appear on the right side of the screen

to indicate that there is additional lines either above or below the

displayed four lines.
•

Menu Screen:

Displayed when the user presses the “Menu” key. This screen

is the selection point for the other 9 screens.

•

Temperature Screen:

Displays the sensed temperatures of the Outlet, Inlet, and

Tank probes. Also displayed is the calculated Delta T (Outlet

minus Inlet) for the system. Shorted (“Short”) and disconnected

(“----”) probes are also displayed.

•

System Status Screen:

This screen is used to view the status of switch inputs and output

states. An asterisk (*) is displayed next to the label when the

status is “True” (the description is fulfilled). For example, if

water is flowing, or detected by the flow sensor, then an “*” will

appear in front of the Flow label (i.e. *Flow). Another example

would be the ECO switch. If the outlet temperature is too high

the display will show: *ECO.

The System monitors the inputs of these times:
• MRHL, Blocked Inlet, Blocked Flue, Low Gas, Hi Limit, and Hi

Gas - at all times for a fault condition.

• Tstat - at all times for open/closed conditions.
• Flow-for an on condition when the pump is on (no check for off

state)

• Blower Prover - when the Blower is on.
• Igniter Current - for an on condition approximately 18 seconds

after the Igniter is turned on until the igniter is turned off and an

off condition at all other times.

• Flame - for an on condition approximately 5 seconds after the

gas valve is turned on until the valve is turned off and at all other

times for an off condition.

Control Status Screen:
Displays the status that the MCB micros are in. The MCB has

5 possible states and the FCB have 9. The normal MCB states

sequence is to move from Idle to Pre-Circulate when a call for

heat is initiated. Once heat has been satisfied or the Thermostat

is opened, the sequence moves to Post-Circulate and then back to

Idle. If a fault occurs at any time, the process jumps out of sequence

and goes directly to the appropriate Hard or Soft Fault state.
Description of MCB control states:
• Idle:
The yellow “Standby” LED is turned on and the system waits

for a heat request (determined by the Thermostat or controlling

probe inputs). All outputs are off in this state except that if the

Post-Circulate time is set to continuous, the pump will be on.

When the heat request is received, the system moves to the

Pre-Circulate state.

• Pre-Circulate:
The yellow LED is turned off and the green “Running” LED is

turned on. The green LED will remain on for all other states

except the fault states. Cold purging clears out any combustion

gas that may be in the combustion chamber. When purging is

complete the system moves to the Heat State.

• Heat Stage
The system will command the FCB micros to start their heat

sequence. will be activated in order based on an algorithm that

determines how much heat is needed. The system will remain in

this state until the heat request is satisfied, the Tstat is opened,

or a fault occurs.

• Soft Fault State: (See “Fault Description” section for list of soft

and Auto Reset faults.)

The pump remains on for the selected post-circulate time to

cycle the hot water out of the boiler. The FCB is commanded

to shut down and the Alarm output is turned on. The green LED

turns off and the red “Service” turns on. The MCB remains in

this state until one of the following occurs:

• One hour passes (automatic restart after one hour)

• If Communications error system will automatically

restart if communications re-establishes.

• If user presses Select key while current error screen is

displayed (Hard reset).

• If high-limit error - the outlet temperature drops below the

high limit trip point minus the high limit differential. (outlet

water temperature drops to safe level). The fault is logged

in the error history when the fault state is exited.

• Hard Fault State: (See “Fault Description” section for list of

soft and Auto Reset faults.) The pump remains on for the

selected post-circulate time to cycle the hot water out of the

boiler. The FCB is commanded to shut down and the Alarm

output is turned on. The green LED turns off and the red

“Service” turns on and off (flashes). The only way to exit

this state is for the user to press the Select key while the

current error screen is displayed. The fault is logged in the

error history when the fault state is exited.

While the MCB is in the Heating mode the FCB moves from Idle, to

Pre-Purge, to Heat Igniter, to Check for Flame, and then to Heating.