Category: Industry Trends

Facility Explorer CCM09090 Critical Environment Controller

Simplify your HVAC infrastructure

The Facility Explorer CCM09090 Critical Environment Controller is a

room-level BACnet MS/TP controller designed to provide a rapid

response to changing conditions within healthcare spaces and laboratories.

Through controlling room parameters like pressure, air changes,

temperature and humidity, the CCM09090 works to provide airborne

infection control and maintain indoor air quality. The CCM09090 works

in conjunction with the CE360 Room Display, which provides a quick

view of room parameters and alarms when conditions migrate out

of setpoints.

The CCM09090 offers a wide range of configuration options and is

programmed using the Controller Configuration Tool (CCT). The

controller includes:

• 7 Universal Analog Inputs

• 2 Binary Inputs

• 2 Analog Outputs

• 3 Binary Outputs

• 4 Configurable Outputs

• An expansion module is also available for larger spaces

Description

The TE-6700 Series is our 2nd Generation of temperature elements.

These attractively styled, feature-packed temperature sensing products

offer ease of installation, user friendliness, and application flexibility in

one package.

The TE-6700 Series Temperature Elements supersede the TE-6400 Series

for space sensing applications. The 2nd Generation elements are designed

for use with most Johnson Controls® controllers, and now work directly

with the VMA1200 and VMA1400 Series controllers.

Refer to the TE-6700 2nd Generation Temperature Elements Product Bulletin

(LIT-216331) for important product application information.

Features

• temperature sensor Time Response Improvement (TRI) provides better

temperature local control, increases employee comfort, and reduces

energy consumption

• controller configuration switch allows users to choose occupancy

features that match the application and controller

• occupancy LED indicator displays the controller’s current operating mode

• manual override pushbutton (PB) signals the controller that the space

is occupied; this overrides time-of-day scheduling

• globally scaled units include setpoint and bulb indicator (both optional)

that measure Fahrenheit and Celsius ranges, 65 to 85°F (19 to 29°C)

• universal mounting — ships with wallbox and surface mounting plate

(all installation hardware included)

• single or dual setpoint adjustment allows for separate heating and

cooling settings; this makes setpoint viewing and adjustment easier

• Analog Profile and Starfield Display compatible — analyzes heating

and cooling efficiency with the M-Series Workstation

Communications Protocols

The CG series controllers can communicate using

BACnet MS/TP, N2. or wireless Zigbee®. By default,

these controllers communicate using the BACnet MS/

TP protocol. The BACnet protocol is a standard for ANSI,

ASHRAE, and the International Standards Organization

(ISO) for building controls.

The CG series controllers can be used as functional

replacements for legacy N2 controllers. The N2-capable

MS/TP equipment controller models provide a cost

effective upgrade and modernization path for customers

with existing N2 controllers. For installation and

commissioning support, and tips for efficient and safe

replacement, refer to the Modernization Guide for Legacy

N2 Controllers (LIT-12012005) and the controller-specific

documentation. For information about mapping N2

Objects in controllers with switchable communications

protocols, refer to the N2 Compatibility Options chapter of

the Controller Tool Help (LIT-12011147).

Application

The CGM09090 and CGM04060 General Purpose

Application MS/TP Controllers (CGs) are equipment

controllers that run pre-engineered and user

programmable applications, and provide the inputs and

outputs required to monitor and control a wide variety of

HVAC and other facility equipment. CG series controllers

operate on an RS-485 BACnet® MS/TP Bus as BACnet

Advanced Application Controllers (B-AACs) and integrate

into Johnson Controls® and third-party BACnet systems.

CG series controllers include an integral real-time clock,

which enables the controllers to monitor and control

schedules, calendars, and trends, and operate for

extended periods as stand-alone controllers when offline

from the Facility Explorer® system network.

Presenting Our Credentials

ioProx cards feature proven, reliable technology that seamlessly integrates with ioProx

readers. Cards are available in a variety of shapes and materials. They offer a flexible design

and can be attached to a key ring, badge clip or lanyard. In the case of disk shaped P50TAG,

it can be attached to any non-metallic surface such as a smart phone. And some cards are

suitable for dye sublimation printing.

Features That Make a Difference

• Readers are compatible with

dualencoded proximity cards – 26-bit Wiegand and Kantech XSF

• Kantech XSF cards can be encoded with over four billion unique codes

• Digital Signal Processing (DSP) ensures quick and reliable card reading

• Weatherproof design for indoor and outdoor applications

• Integrated piezoelectric buzzer & bicolor reader LED

• Quick connect terminal blocks (P225 and P325 series) allows for easy wiring and saves

time and money

• Up to 73 cm (29 in) read range (P600)

Integration by Design

Kantech ioProx readers and cards provide an ideal access control solution. They are a cyber

resilient and easy-to-install solution to manage and control access all the while ensuring

people, materials and operations are safe. ioProx readers and cards seamlessly integrate

with Kantech access control systems including door controllers and EntraPass Security

Management Software.

Encoding & Authentication

All ioProx readers are compatible with dual encoded proximity cards – 26-bit Wiegand and

Kantech Extended Security Format (XSF). The XSF cards can be encoded with over four

billion codes, ensuring no duplication. ioProx keypad readers provide a powerful security

solution. Combine an ioProx card presentation with a personal identification number (PIN) to

support dual authentication of identity.

Presenting Our Credentials

ioProx cards feature proven, reliable technology that seamlessly integrates with ioProx

readers. Cards are available in a variety of shapes and materials. They offer a flexible design

and can be attached to a key ring, badge clip or lanyard. In the case of disk shaped P50TAG,

it can be attached to any non-metallic surface such as a smart phone. And some cards are

suitable for dye sublimation printing.

The ZEC Series offers innovative and intuitive control solutions

for DDC BACnet, and DDC non-communicating configurations.

An integrated VAV Terminal Unit with DDC eliminates the

coordination and difficulties associated with field-mounting.

All ZEC Retrofit Kit controllers are pre-installed in a control

enclosure for quick and easy startup.

The ZEC Controller requires a Wall Sensor, which is sold

separately. Sensor choices range from simple thermistor,

up to models with warmer/cooler push buttons and an

LCD display.

Also available through Web-Select is the Mobile Access Porta

(MAP) Gateway Tool [sold separately]. MAP Gateway is a 

pocket-sized web server that leverages the power of Wi-Fi enabled

devices such as smart phones, tablets, and laptops to allow for ZEC

DDC commissioning, configuration, and access to building automation

equipment. Please see below for detailed Wall Sensor information,

as well as 7000 Series to ZEC Cross-Reference information.

Introduction

Effective management of access rights is crucial to maintaining the integrity and security of any

system. This document emphasizes the importance of adhering to best practices when assigning

permissions within the C•CURE 9000 security-management system. Granting permissions beyond

the necessary scope can lead to unauthorized access and potential misuse of information.

Therefore, it is imperative to assign each account only the roles and permissions required to

perform their specific job functions, and nothing more. This approach ensures that the system

remains secure, and that information is protected from unwanted changes.

As cybersecurity threats affect all connected devices, it is important to ensure that cybersecurity

is considered throughout the planning, deployment and maintenance phases associated with a

solution’s functional operation.

Legal disclaimer

The cybersecurity practices described in this guide are recommended practices to facilitate the secure

installation and configuration of the products described herein.  However, Johnson Controls cannot guarantee

that the implementation of the cybersecurity practices or recommendations described in this guide will ensure

the security of the relevant product or system, or prevent, or alter the potential impact of any unauthorized

access or damage caused by a cybersecurity incident. This guide is provided “as is”, and Johnson Controls

makes no representation or warranty, express or implied, as to the efficacy of the cybersecurity practices or

recommendations described in this guide.  Johnson Controls disclaims all liability for any damages that may

occur as a result of, or despite, reliance on this guide or compliance with any cybersecurity practices or

recommendations set forth herein.

C•CURE 9000 Configuration Overview

This section helps C•CURE 9000 administrators implement best practices for a secure C•CURE 9000 v3.10

system installation.  You will learn what is needed to get the CrossFire service to run on your system, while

avoiding the security risks created by granting excessive privileges.

Heating alarms

HS1 lockout due to limit switch

The HS1 Lockout occurs due to a loss of 24 VAC to the SEC board LIMIT terminal. The LIMIT circuit

will have two or more limit switches wired in series. One switch is an automatic limit switch and

the other is a manual limit switch. If the SEC board recognizes three limit switch trips in one hour a

hard lockout of unit operation occurs and no operation occurs other than blower operation.

If a HS1 Lockout occurs complete the following steps:

1. Use a volt meter to check that 24 VAC power is present at the LIMIT terminal located on at the

upper left corner of the SEC board.

a. If no voltage is present, check the wiring diagram and trace where the 24 VAC power

is lost.

b. If voltage is present, continue to Step 2.

2. Determine if a limit switch is open and check the possible cause of the limit trip.

3. Check the circuit wiring for damage or a loose connection.

4. Check if the limit switch is faulty. If the switch is tripping without reaching tripping

temperature, this can indicate a faulty LIMIT switch.

5. Check that all the filters are clean.

6. Check for correct air flow according to the unit installation manual. Return static should not

be higher than 0.2 in. w.c. Factory equipment should be air balanced to operate in a cfm

range from 350 cfm to 450 cfm per ton.

Note:

a. If the unit AHU or RTU is a VAV application during the heating operation, the fan

should run at an adequate speed to allow correct air flow that will prevent the

unit from tripping on HS1 lockout. This means in most cases the VAV boxes must

be open when a call for heat is commanded.

b. On occasions where the system has two transformers, proper low voltage

phasing must be verified or HS1 could occur.

Introduction

This document is designed to assist and guide a trained technician or engineer to diagnose and

troubleshoot the Smart Equipment Controller alarms. When troubleshooting always use Johnson

Controls and industry safety standards.

Preliminary checks

No power

The Smart Equipment™ Control (SEC) board requires 24 VAC to operate. If no power is provided then

no alarms are active, the LCD screen is blank, and the unit does not function at all.

1.on the upper left hand of the board using the voltmeter.–

If no voltage is present, check the wiring diagram and trace where the 24 VAC power is

lost.

If voltage is present and no power is indicated on the SEC board through the LCD

display or power LED indicator, replace the board.

2.Check for optional components such as the phase monitor in the circuit. If there is a red light

visible on the phase monitor, this indicates that the board is not receiving power. Swap the

incoming voltage going to the unit, not the voltage within the unit.