Johnson Controls SE-SPU101 Series, SE-SPU1011-1, SE-SPU1012-1 Installation Instructions Manual

CCS Smart Equipment Control Board for Single Packaged
Unit (SPU) Controller

Installation Instructions

SE-SPU1011-1, SE-SPU1012-1

Applications

The new SE-SPU101x controllers replace the
RTU-100x controllers. All the RTU100x controllers are
discontinued, including the RTU-1003-0 VAV SPU
controller. T he new SEC pr oduct offering provides new
controller options.

The SE-SPU101x-1 SEC Unit Control Board (UCB) is a
member of the Smart Equipment Controller (SEC)
product family. The controller is designed to run a pre­engineered HVAC zoning application and provide the
inputs and outputs required for this application.

North American Emissions Compliance

United States

This equipment has been tested and found to
comply with the limits for a Class A digital device
pursuant to Part 15 of the FCC Rules. These limits
are designed to provide reasonable protection
against harmful interference when this equipment is
operated in a commercial environment. This
equipment generates, uses, and can radiate radio
frequency energy and, if not installed and used in
accordance with the instruction manual, may cause
harmful interference to radio communications.
Operation of this equipment in a residential area
may cause harmful interference, in which case the
users will be required to correct the interference at
their own expense.

Canada

This Class (A) digital apparatus meets all the
requirements of the Canadian Interference-Causing
Equipment Regulations.

Cet appareil numérique de la Classe (A) respecte
toutes les exigences du Règlement sur le matériel
brouilleur du Canada.

Code No. LIT-12011479

Issued June 16, 2015

Installation

Special Tools Needed

• wire strippers

• small flat-head screwdriver

• 22 AWG (0.65 mm) 3-conductor, twisted,
e with a drain wire

cabl
Note: This drain wire is used only to group the

shielded cable. Do not use this drain wire

ection to the board.

conn

• wire nuts for 22 AWG drain wire

• electrical tape

shielded

as a

Mounting

The manufacturing facility mounts the controller. All of
the required power wiring, internal unit sensor wiring,
and output wiring is completed and tested at the
factory . The control application required for the specific
UCB is factory configured and ready for operation.

Wiring

Field Wiring Connections

In addition to power connections, the UCB requires a
communication bus connection. Address selection is
required for networking with a CCS Building
Automation System (BAS).

Power Wiring

The SEC UCB controller is factory wired for 24 VAC
power.

IMPORTANT: The 24 VAC power should not be
shared with other network devices. Sharing power to
other network devices may cause noise,
interference, and ground loop problems. You may
damage the controller by sharing power to other
devices.

CCS Smart Equipment Control Board for Single Packaged Unit (SPU) Controller Inst allation

Instructions

1

In certain cases, you may need to share a 24 V

Figure 1: Joystick and Push Buttons on UCB

ENTER

CANCEL

JOY

Figure 2: UCB Top Level Menu

transformer with multiple CCS devices. Be sure that
you maintain consistent +, -, and common wiring
terminations on the shared CCS devices.

IMPORTANT: Do not interchange +, -, and
common 24 V terminations when sharing a
transformer with multiple CCS devices.
Interchanging these terminations can cause damage
to the controller.

Setup and Adjustments

To quickly set up your CCS network:

1. On each end of the 3-conductor cable, strip the
outside insulation back approximately 2 in.
(51 mm).

2. Tear off excess foil shield, leaving the bare drain
wire and the three insulated conductors.

3. On each end of the three insulated conductors in
the cable, strip the insulation back approximately
1/8 to 1/4 in. (4 to 7 mm).

4. Choose a color pattern to follow and insert each of
the three conductors into one each of the thr ee
terminals on the CCS board communication
connector.

Note: Be sure you observe polarity of each of the
conductors in the communication cable.

Communication Bus

The UCB default address is set to 4. The available
values range from 0 to 127. To view the UCB Network
Address, use the joystick and the two push buttons
below the LCD, to navigate through the menus to the
Commissioning menu (Figure 1).

Up and down movements of the joystick move the >
cursor and scroll through the selections in the active
section of the menu (Figure 2).

5. Tighten each terminal until the wire is secure.

6. Ground the drain wire at one end only of the
communication trunk. Do this on the last unit in
line.

Use an existing hole or drill a hole and insert a
sheet metal screw in the back plate below the
communication connector.

Wrap the bare drain wire around the screw and
tighten the screw. This is the only location where
the shield is grounded.

7. Daisy chain the three-conductor wire between the
remaining SPUs. Connect the drain wires together
with the wire nuts. Follow the stripping and
connecting procedure in Step 1 through Step .

8. Run the cable from the last unit to the location of
the System Manager or Zone Coordinator. Follow
the connection instructions for the System Manger
or Zone Coordinator . Figure 4 displays an example
communication riser.

9. Make sure all the SPUs are powered and operating
properly.

Each menu selection represents either a submenu or a
property. Press Enter to display the items in the
submenu or the values of the selected property.

Once you navigate to the Commissioning menu, use
the cursor to scroll to the Network submenu. From the
Address submenu, press Enter to display the current
network address. Move up or down with the joystick to
display the values of other properties.

CCS Smart Equipment Control Board for Single Packaged Unit (SPU) Controller Installation Instructions2

Control Board and Wiring Diagrams

Figure 3: VAV SPU Control Board Communication Terminations

Communication Cable to

Next VAV box*

Comm unication Cable to

Next VAV box, Zone

Dampers, and Bypass

Damper

* M o v e th e 4 -p ositio n te rmin al blo c k fro m th e T h e r mos ta t in pu ts

to the FC Bus connection of the communications card.

Figure 3 shows the location of the communication
cable terminations on the SPU controller board.
Figure 4 shows the VA V SPU contro ller communication
riser. .

CCS Smart Equipment Control Board for Single Packaged Unit (SPU) Controller Installation Instructions 3

Figure 4: VAV SPU Controller - Example System Communication Riser

Optional

Inte r ne t

Connection

+

–
S
H
L
D

R
E
F

A

Earth

Ground

The shield drain wire must be earth

grounded at one and only one point for

the entire comm unication bus segment.

(Preferably at the last device)

SHIELD GROUNDING

System M anager

COM

-

+

J2

COM

AI1

AI2

COM

AI3

AI4

1

64

32

16

8

4

2

128

O

N

24VCOM24VCOM

COM

-

+

J2

1

64

32

16

8

4

2

128

O

N

Address

Swit ch

24VCOM24VCO M

COM

AI1

COM

+5V

Wir e

Nut

Observe polarity

Drain

wire

Wire

Nut

Drai n

Wire

Wire

Nut

Drain

Wire

Tape back

drain wire

Wire

Nut

Wire

Nut

Wire

Nut

Tape back

drai n wire

SEC

COBP

RTU

Address 4

Bypass

Damper

Address 5

Zone Dam per

(Typical)

Address 6

IO M

Address 4

SEC

RTU

Single Zone

Address 18

SEC RTU

Single Zone

Address 19

To additional

units and/or

any IOM

expansion

modules

To

additional

zones

O p tional R e mo te OWS

OPTIONAL SWIT CH

ETHERNET

COMM UNICATION BUS WIR E

TO BE 22AWG, 3-CONDUCTOR

TWISTED SHIELDED W IR E

WITH DRAIN.

System

Communication Bus

Zone

Communication

Bus

S1 S2

J8 J7

J6

System

Bus

Zone

Bus

CO

M

-

+

CO

M

-

+

CO

M

24V

O

n

Of

f

24VAC

COM

COM

SB

-

SB

+

ZB

+

ZB

-

COM

EOL

O

N

Of

f

EOL

O

N

S1 S2

J8 J7

J6

System

Bus

Zone

Bus

CO

M

-

+

CO

M

-

+

CO

M

24 V

O

n

Of

f

24VAC

COM

COM

SB

-

SB

+

ZB

+

ZB

-

COM

EOL

O

N

Of

f

EOL

O

N

Termination Board

System Manager

Drai n

Wir e

S

1

S

2

J

8

J

7

J

6

System

Bus

Zone

Bus

C

O

M

-

+

C

O

M

-

+

C

O

M

2

4

V

O

n

O

ff

24VAC

COM

COM

SB -

SB +

ZB +
ZB ­COM

EOL

ON

O

ff

EOL

ON

System

Com m unication Bus

Terminal Strip

24VAC

Power

Input (10VA)

Zone Com m unication

Bus Terminal Strip

EOL Termination

S e t T o O N

COM

-

+

J2

COM

AI1

AI2

COM

AI3

AI4

1

64

32

16

8

4

2

128

O

N

24VCOM24VCO M

COM

-

+

J2

1

64

32

16

8

4

2

128

O

N

Address

Swit ch

24VCOM24VCOM

COM

AI1

COM

+5V

SEC

VAV RTU

Address 4

VAV Box

(Typical)

Address 7

Zone

Communication

Bus

+

Termination Board

VAV Zone C oordinator

S1 S2

J8 J7

J6

System

Bus

Zone

Bus

CO

M

-

+

CO

M

-

+

CO

M

24 V

O

n

Of

f

24VAC

COM

COM

SB

-

SB

+

ZB

+

ZB

-

COM

EOL

O

N

Of

f

EOL

O

N

Termin a tion Bo a r d

COB P Zone Coordinator

Drain

wire

Tape back

drain wire

VAV Box

(Ty p ica l)

Address 6

Drai n

Wire

Wire

Nut

Drain

Wire

To

additional

zones

CCS Smart Equipment Control Board for Single Packaged Unit (SPU) Controller Installation Instructions4

End-of-Line (EOL) Terminations

(Bounce Back and Noise)

No

EOL

EOL

Cushioning (No Bounce Back)

FIG:intrfrnc

Figure 5: Interference

Figure 6: CCS EOL Wiring Example

Input

Output

Module

24V

COM

COM-+

BI-1

COM

BI-2

COM

AI-3

COM

AI-4

Monitored Contact

To Temperature,

RH%, CO

2 Sensor,

Building Pres su re,

Light Sensor,

Refrigerant Sensor,

Common Flow

To 24VAC

BO-3

BO-2

BO-1

BO-4

COM

Monitored Contact

To Scheduled Item 1

To Scheduled Item 2

To Scheduled Item 3

To Scheduled Item 4

Non­CCS

HVAC

System

Universal

CV Unit

Controller

24V

COM

Zone Sensor

COM-+

AI-1

COM

AI-2

123

4

BO-1

BO-2

BO-3

BO-4

BO-5

C

R

G

Y1

Y2

W1

W2

COM

AI-6

COM

AI-7

COM

AI-8

COM

AI-4

COM

AI-5

COM

BI-2

SAT Sensor

RAT Sensor

OAT Sensor

To Zone RH% Sensor

To Zone CO

2 Sensor

APS

COBP Zone Coordinator

System

Bus

COM

SB-

SB+

EOL

O
N

?

Zone

Bus

COM

ZB-

ZB+

EOL

O
N

?

COM

24V

LAN

To 24VAC

System Manager

System

Bus

COM

SB-

SB+

EOL

O
N

?

Zone

Bus

COM

ZB-

ZB+

EOL

O
N

?

COM

24V

Modem

LAN

To 24VAC

To Phone Line

To Ethernet Hub

VAV Zone Coordinator

System

Bus

COM

SB-

SB+

EOL

O
N

?

Zone

Bus

COM

ZB-

ZB+

EOL

O
N

?

COM

24V

LAN

To 24VAC

tape

off

SEC Unit Control Board

COM-+

This end of the Drain Wire
connected to cabinet ground

Other System Bus Devices

CCS System Bus Devices

Other System Bus Devices

Other System Bus Devices

To COBP Zone
Bus Devices

To VAV Zone
Bus Devices

Recommended ZC e nd-of-line for zone bus

Recommended S M end -of-line for system bus

Must be end of line for zone bus

TEC2601-4
TEC2602-4
TEC2603-4

Y2
Y1

G

RC

C
RH
W1
W2

Aux
DI1
DI2

RS

Scom

OS

MS

+
_

Ref

COM-+

Daisy-chained RS485 protocol networks require
end-of-line (EOL) termination to reduce interference.
Interference is caused by signal reflection that occurs
when data transmissions reach the end of a bus
segment and bounce back (Figure 5). The high baud
rates on Master-Slave/Token-Passing (MS/TP) bus
applications require robust EOL termination and strict
adherence to the EOL termination rules.

On a CCS System bus or Zone bus, only one EOL
termination is required due to the fewer number of
devices on one bus and the shorter wiring length.
Specifically, the System bus must always have a
System Manager as the EOL device, and the Zone bus
must always have a Zone Coordinator as the EOL
device. Figure 6 shows a CCS EOL wiring example.

No EOL = No Signal Cushioning

EOL Provides Signa l

CCS Smart Equipment Control Board for Single Packaged Unit (SPU) Controller Installation Instructions 5

Operation

Figure 7: Startup Countdown

The controllers are supplied in a pre-configured format.
Y ou do not n eed to configure the controller. Refer to the

Commercial Comfort System (CCS) Operation
Overview Technical Bulletin (LIT-12011617) or the
Smart Equipment Controls (SEC) Quick Start Guide
(LIT-12011938) for information on operating modes and

functionality.

Troubleshooting

Use the following information to troubleshoot the
System Manger and Zone Coordinator.

Power Status LED

The display backlight and green Power LED remain lit
as long as power is applied to the C and 24V terminals.

The red Fault LED lights, goes off briefly, and then
flashes throughout the startup sequence.

The green SA Bus LED lights briefly.
During the startup sequence, the joystick, the Enter

button, and the Cancel button are not functional.
The LCD shows a countdown on the top line.

After the startup sequence finishes, the display shows
XxXx on both lines if no alarm is active. The red Fault
LED stops flashing and turns off. The joystick, Enter,
and Cancel buttons are operational.

Communication Bus Problems

Several factors may influence the behavior of the
communication bus. In addition, certain proble ms can
affect the bus in multiple ways and have multiple
symptoms, which makes the exact diagnosis difficult.
For example, duplicate addresses on the bus can
degrade performance, make the device go offline, or
stop communication completely.

Incomplete Address

With the SEC controller for VAV, COBP must have the
address switch set to 4 on the zone communication
bus. Other settings prevent the SPU from
communicating on the System Communication bus.

Duplicate Addresses

Two or more devices on a communication bus cannot
have the same address. For example, two SPUs on the
System communication bus cannot both have the
address 4. If two devices on the same bus have the
same address, performance can degrade or serious
communication problems may occur. These problems
include the devices not coming online or all
communication stopping completely.

After approximately 15 seconds, the green SA Bus
LED does one of the following:

• Lights to indicate the UCB has not established
communication and is awaiting communication
from SA Bus devices

• Flashes to indicate the UCB established
communication with SA Bus devices

Check for duplicate addresses in the following ways
depending on the severity of the situation:

• If the bus performance is degraded, check the
address switch settings at the devices with
unreliable communications.

• If a specific device is not communicating, remove
the device with communication problems and
check if the device address remains online at the
System Manager or Zone Coordinator.

• If the bus communication problems are severe,
and no communication is present (or if you cannot
determine where communication is unreliable),
partition (disconnect and isolate a portion of the
bus for testing purposes) and test the bus portion
connected to the System Manager and Zone
Coordinator controllers.

CCS Smart Equipment Control Board for Single Packaged Unit (SPU) Controller Installation Instructions6

Correcting Physical Communication Bus Problems

The communication bus is subject to a number of
physical factors that can affect performance. Consider
the following list of common physical problems that
affect the communications bus:

• Check wires

- Verify that the wire is 22 AWG (0.65 mm) 3­conductor, twisted, shielded cable.

- Verify that the shield is continuous and hard­grounded at one end.

• Check wiring

- Check for and eliminate T-Taps (wire
configurations that create a T shape) and star
configurations.

- Ensure that the bus is wired in daisy-chain
fashion.

- Verify that appropriate devices have three
wires entering and exiting each terminal.
(Devices at the ends of the trunk do not have
this wiring.)

• Check EOL switch settings

- Verify that the zone bus EOL switch on the
Zone Coordinator is set to ON and the Zone
Coordinator is located at the end of the zone
bus trunk.

- Verify that only the EOL switch at the end of
the system bus is set to ON and all other
system bus EOL switches are set to OFF.

• Check connections, polarity, and lengths

- Verify that communica tions loop s ar e less th an
approximately 304 m (1,000 ft) total in length

- If you are using one transformer to power
multiple devices, verify that the device 24 VAC
power connection follows the polarity of the
common and 24 V terminations (see Power
Wiring).

• Check for opens and shorts

• Check terminations

• Check addresses

- Check for duplicate addresses.

- Verify that the address range is sequential.

• Check for sources of interference

• Check the status LED to verify power at the
controller.

• Check bus voltages:

- (+) to COM must be within 2.0 to 3.0 VDC

- (-) to COM must be within 1.5 to 2.54 VDC

- (+) to (-) must be within 0.3 to 1.0 VDC
Note: Values may fluctuate due to ongoing

communications; this operation is normal provided
the voltage is within the defined range.

Repair Information

If the Unit Control Board (UCB) fails to operate within
its specifications, replace the unit. For a replacement
controller, co ntact the nearest Johnson Controls®
representative.

CCS Smart Equipment Control Board for Single Packaged Unit (SPU) Controller Installation Instructions 7

Metasys® and Johnson Controls® are registered trademarks of Johnson Controls, Inc.

All other marks herein are the marks of their respective owners. © 2015 Johnson Controls, Inc.

Building Efficiency

507 E. Michigan Street, Milwaukee, WI 53202

Technical Specifications

Unit Control Board with BACnet® Communication

Product Code Number SE-SPU1011-1 – Single-stage Unit Control Board with Field Bus Expansion Module

SE-SPU1012-1 – Dual-stage Unit Control Board with Field Bus Expansion Module

Power Supply Requirement 24 VAC (nominal, 20 VAC minimum/30 VAC maximum), 50/60 Hz, Power Supply

Class 2 (North America), Safety

Power Consumption 15 VA maximum

Note: VA ratings do not include any power supplied to the peripheral devices connected

to binary outputs (BOs)

Ambient Conditions Operating: -40 to 158°F (-40 to 70°C); 10 to 90% RH noncondensing

UI Operating: -4 to 158°F (-20 to 70°C); 10 to 90% RH noncondensing

Storage: -40 to 194°F (-40 to 85°C); 5 to 95% RH noncondensing
Processor RX631 Renesas® microcontroller
Memory 2 MB internal program flash, 32 KB internal E2Data flash, 4 MB external serial flash

Input and Output Capabilities SE-SPU1011-1:

Housing Unpackaged printed circuit board (PCB) with silkscreen labels
Mounting Mounted with Nylon Standoffs
Dimensions

(Height x Width x Depth)
Shipping Weight SE-SPU1011-1 – 3.6 lb (1.63 kg)

Compliance United States:

memory

9 AIs: 7: 10k RTD, 1: 0 to 10 VDC, 1: 24 VAC Voltage Monitor
13 BIs: 24 VAC input with contact cleaning circuits
5 BOs: 4: relay outputs, 1: Transistor output

SE-SPU1012-1:

12 AIs: 9: 10k RTD, 2: 0 to 10 VDC, 1: 24 VAC Voltage Monitor
1 AOs: 2 to 10 VDC, 10 mA maximum
16 BIs: 24 VAC input with contact cleaning circuits
8 BOs: 7: relay outputs, 1: transistor output

1.44 x 6.5 x 5.27 in. (36 x 165 x 133 mm)

SE-SPU1012-1 – 3.7 lb (1.68 kg)

UL Recognized, File E107041, UL 916, Energy Management Equipment, UL1995,
Heating and Cooling Equipment; FCC Compliant to CFR47, Part 15, Subpart B, Class B

Canada:
UL Recognized, File E107041, CSA 22.2 No. 236, Signal Equipment Industry Canada,
ICES-003 – Recognized

CCS Smart Equipment Control Board for Single Packaged Unit (SPU) Controller Installation Instructions8

Published in U.S.A. www.johnsoncontrols.com