Honeywell RM7800G ユーザーズマニュアル

RM7800E,G,L,M; RM7840E,G,L,M 7800 SERIES RELAY MODULES

66-1085—04

terminal 21. The RM7800/RM7840G has an

interrupted or intermittent pilot valve, terminal

21, depending on the selection of configuration

jumper 2. The RM7800/RM7840E,L has a

fifteen-second interrupted pilot valve, terminal

21. All of the RM7800/RM7840s have a

ten-second interrupted pilot valve/ignition,

terminal 8.

(2) During PFEP, the Low Fire Switch must remain

closed. If it opens, a safety shutdown occurs.

(3) The Preignition Interlock input is ignored

throughout the Ignition Trial state.

b. Flame must be proven by the end of the ten-second

PFEP (four if JR1 is clipped) to allow the sequence

to continue. If flame is not proven by the end of

PFEP, a safety shutdown occurs.

c. After five seconds, the ignition, terminal 10, is

de-energized for early spark termination.

2. Main Flame Establishing Period (MFEP):

a. Terminal 9 is energized when the presence of flame

is verified at the end of a 10-second Pilot Flame

Establishing Period (PFEP) (four seconds if JR1 is

clipped).

b. Terminal 8 is turned off 10 seconds after Terminal 9

is energized.

c. Terminal 21 action:

(1) RM7800E,L/RM7840E,L: De-energized

15 seconds after Terminal 9 is energized.

(2) RM7840G:

(a) Not turned off, or

(b)15 seconds after Terminal 9 is energized and

JR2 is clipped, or

Terminals 5 and 19 are jumpered and jumper

JR2 is clipped.

(3) RM7800L1053, RM7840L1026,

RM7800M/RM7840M: Remain energized as

long as call for heat is present.

Run

1. A ten-second stabilization period occurs at the

beginning of the RUN period.

2. The firing rate motor releases to modulation

(RM7800/RM7840E,G,L). Damper motor is energized

(RM7800/RM7840M).

3. The RM7800/RM7840 is now in RUN and remains in

RUN until the controller input, terminal 6, opens,

indicating that the demand is satisfied or a limit opened.

Postpurge

The RM7800/RM7840 provides a fifteen-second

POSTPURGE following the completion of the RUN period.

The blower motor output is powered to drive all products of

combustion and any unburned fuel from the combustion

chamber. It also supplies combustion air to burn fuel being

purged from the fuel line downstream of the fuel shutoff valve.

Table 6. Sequence Timing for Normal Operation.

* STANDBY and RUN can be an infinite time period.

** PURGE determined by which ST7800A purge card is selected.

The MFEP is determined by which terminal is used, configuration jumper selected or jumper wire added.

See Fig. 2, 3, 4, 5 and 6.

RM7800L1053, RM7840L1026: 10 second or intermittent.

Keyboard Display Module (VFD)

The Keyboard Display Module (see Fig. 5) is provided with the

RM7800 Relay Module (but is not required for operation) and

is an option for the RM7840 Relay Module. The first line of the

Vacuum Fluorescent Display (VFD) provides:

• Current status of the burner sequence (STANDBY,

PURGE, PILOT IGN, MAIN IGN, RUN and POSTPURGE).

• Timing information (PURGE, PILOT IGN, MAIN IGN and

POSTPURGE) in minutes and seconds.

• Hold information (PURGE HOLD: T19).

Device

Initiate Standby Purge

Flame Establishing

Period

Run

Post-

Purge

Timing

Interlock

Circuits

Firing

Rate

Circuit

Energy

Saving

Prepurge

Approval

Code

Bodies

Pilot

Main

RM7800E/

RM7840E

10 sec.. *

4 or 10

sec.

10 or 15

sec.

15 sec. Preignition,

Lockout,

High and

Low Fire

4-wire

modulating

Yes

FM/IRI

Modulating

RM7800G/

RM7840G

10, 15 sec.

intermittent

Preignition,

Running,

Low Fire

UL/CSA

Modulating

RM7800L/

RM7840L

10 or 15
sec.

Preignition,

Lockout,

High and

Low Fire

FM/IRI

Modulating

RM7800M/

RM7840M

10 sec. or

intermittent

Preignition,

Running,

Low Fire

2-wire

isolated

On-Off-On

contacts

UL/CSA

On-Off