6 boiler management system (bms), 1 bms external field wiring, 2 bms setup and startup – AERCO BMK 3.0 LN Dual-Fuel Series Gas Fired Low NOx Boiler System User Manual

MODE OF OPERATION

5-4

To operate the unit in manual mode, press the

AUTO/MAN switch. The REMOTE LED will go

off and the

MANUAL LED will light.

To change back to the Direct Drive mode, simply

press the

AUTO/MAN switch. The REMOTE

LED will again light and the

MANUAL LED will

go off.

5.6 BOILER MANAGEMENT SYSTEM

(BMS)

NOTE

BMS Model 168 can utilize either pulse

width modulation (PWM) or RS485

Modbus signaling to the Boiler. BMS II

Model 5R5-384 can utilize only RS485

signaling to the Boiler.

The BMS mode of operation is used in

conjunction with an AERCO Boiler Management

System. The BMS mode is used when it is

desired to operate multiple units in the most

efficient manner possible. For this mode of

operation, a BMS Header Sensor must be

installed between 2 and 10 feet downstream of

the LAST boiler in the boiler plant's supply water

header. The BMS can control up to 40 boilers; 8

via pulse width modulation (PWM) and up to 32

via Modbus (RS485) network communication.

For BMS programming, operation, and Header

Sensor installation details, see GF-108M (BMS

Model 168) and GF-124 (BMS II Model 5R5-

384), BMS Operations Guides. For operation via

an RS485 Modbus network, refer to Modbus

Communication Manual GF-114.
To enable the BMS Mode, the following menu

settings must be made in the Configuration

Menu:

MENU OPTION

SETTING

Boiler Mode

Direct Drive

Remote Signal

BMS (PWM Input)

or

Network (RS485)

Refer to paragraph 3.3 for instructions on

changing menu options.

5.6.1 BMS External Field Wiring

Wiring connections for BMS control using PWM

signaling are made between connector JP2 on

the BMS panel (boilers 1 through 8), and the

B.M.S. (PWM) IN terminals in the I/O Box on the

front of the boilers. Refer to the wiring diagram

provided on the cover of the I/O Box.

Wiring connections for RS485 Modbus control

are made between connector JP11 on the BMS

(boilers 9 through 40) and the RS485 COMM

terminals in the I/O Box on the front of the

boilers.
Wire the units using shielded twisted pair wire

between 18 and 22 AWG. Observe the proper

polarity for the B.M.S. (PWM) IN and/or RS485

COMM wiring connections. Shields should be

terminated only at the BMS and the boiler end

must be left floating. Each unit’s wiring must

conform to the above.

5.6.2 BMS Setup and Startup

This mode of operation is factory preset and the

AERCO BMS controls the firing rate (air/fuel

valve % open position). There are no setup

instructions for each individual unit.
To operate the unit in manual mode, press the

AUTO/MAN switch. The REMOTE LED will go

off and the

MANUAL LED will light

To change back to the BMS mode, simply press

the

AUTO/MAN switch. The REMOTE LED will

again light and the

MANUAL LED will go off.

5.7 COMBINATION CONTROL SYSTEM

(CCS)

NOTE

Only BMS Model 168 can be utilized for

the Combination Mode, not the BMS II

(Model 5R5-384).

A Combination Control System (CCS) is one

that uses multiple boilers to cover both space-

heating and domestic hot water needs. An

AERCO Boiler Management System (BMS)

Model 168 and a Combination Control Panel

(CCP) are necessary to configure this system.

Typically, an adequate number of boilers are

installed to cover the space-heating load on the

design day, however one or more units are used

for the domestic hot water load.
The theory behind this type of system is that the

maximum space-heating load and the maximum

domestic hot water load do not occur simul-

taneously.+ Therefore, boilers used for the

domestic hot water are capable of switching

between constant setpoint and BMS modes of

operation. These boilers are the combination

units and are referred to as the combo boilers.

The combo boilers heat water to a constant

setpoint temperature. That water is then

circulated through a heat exchanger in a

domestic hot water storage tank.