TECOM TS1066 User manual

2
Copyright
© 2019 UTC Fire & Security Australia Pty Ltd. All rights reserved.
Trademarks and
patents
The Challenger name and logo are trademarks of
UTC Fire & Security Australia Pty Ltd.
Other trade names used in this document may be trademarks or
registered trademarks of the manufacturers or vendors of the
respective products.
Manufacturer
Made in China by United Technologies Safety Systems
No. 80, Changjiang East Road, QETDZ, Qinhuangdao, Hebei,
P. R. China 066004
Imported by UTC Fire & Security Australia Pty Ltd t/a Interlogix
10 Ferntree Place
Notting Hill, Victoria, 3168, Australia
ACMA compliance
Notice! This is a Class B product. In a domestic
environment this product may cause radio interference
in which case the user may be required to take
adequate measures.
WEEE compliance
For proper recycling, dispose all the batteries and the
packaging as required by local ordinances or
regulations
Contact information
For contact information, see www.interlogix.com.au.

3
Contents
Important information................................................................... 5
Limitation of liability......................................................................... 5
Agency compliance......................................................................... 5
Contact information......................................................................... 5
Product overview.......................................................................... 6
Specifications.................................................................................. 7
Product contents............................................................................. 7
Warning .......................................................................................... 8
Related documentation................................................................... 8
Before you begin........................................................................... 9
Safety Warnings.............................................................................. 9
Enclosure Access Restrictions........................................................ 9
Installing the Network Access Controller................................. 10
Installation guidelines.................................................................... 10
Installation procedure.................................................................... 10
Mounting Network Access Controller in the enclosure....... 10
DIP switch settings........................................................................ 11
Connections.................................................................................. 12
Power Input........................................................................ 16
Batteries............................................................................. 17
Battery fitment and replacement ........................................ 18
Battery charging current..................................................... 19
Auxiliary power terminals ................................................... 19
Siren................................................................................... 20
RS-485 Networks............................................................... 21
ChallengerPlus LAN........................................................... 21
RS-485 buses .................................................................... 21
RS-485 cabling................................................................... 21
Terminating the RS-485..................................................... 25
Lock power......................................................................... 25
Door lock relay wiring......................................................... 26
Inputs ................................................................................. 26
Connecting expansion modules.................................................... 28
Relay expansion................................................................. 28
LED indicators............................................................................... 29
Powering up the Network Access Controller ........................... 31
Defaulting the Network Access Controller..................................... 31
Defaulting the USB Comms Path.................................................. 32
On-Board Memory Retention........................................................ 32

4
Appendix B: Output fusing and user current limits................. 34
Appendix C: Operating temperature ......................................... 35
Appendix D: Cabling requirements........................................... 36
System earthing ................................................................. 36
Ethernet cabling ................................................................. 36
Power supply to RS-485 devices (refer to Figure 5 External
Power Supply Connection to RAS on page 24)..................36

5
Important information
Limitation of liability
To the maximum extent permitted by applicable law, in no event will Interlogix be
liable for any lost profits or business opportunities, loss of use, business
interruption, loss of data, or any other indirect, special, incidental, or
consequential damages under any theory of liability, whether based in contract,
tort, negligence, product liability, or otherwise. Because some jurisdictions do not
allow the exclusion or limitation of liability for consequential or incidental
damages the preceding limitation may not apply to you. In any event the total
liability of Interlogix shall not exceed the purchase price of the product. The
foregoing limitation will apply to the maximum extent permitted by applicable law,
regardless of whether Interlogix has been advised of the possibility of such
damages and regardless of whether any remedy fails of its essential purpose.
Installation in accordance with these manual, applicable codes and the
instructions of the authority having jurisdiction is mandatory.
The customer is responsible for testing and determining the suitability of this
product for specific applications. The customer is responsible for testing the
product at least once every three months.
While every precaution has been taken during the preparation of this manual to
ensure the accuracy of its contents, Interlogix assumes no responsibility for
errors or omissions.
Agency compliance
This product conforms to the standards set by Standards Australia on behalf of
the Australian Communications and Media Authority (ACMA).
Ensure that enclosure covers are fitted to maintain ACMA compliance.
Notice! This is a Class B product. In a domestic environment this product may
cause radio interference in which case the user may be required to take
adequate measures.
Contact information
For contact information, see www.interlogix.com.au.

6
Product overview
This manual applies to the TS1066 Network Access Controller.
Up to 12 Network Access Controllers can be connected to a ChallengerPlus
panel’s RS-485 system LAN. ChallengerPlus panels have two RS-485 system
LANs and can have a total of 24 Network Access Controllers.
The Network Access Controller can operate independently of a ChallengerPlus
panel, depending on its operating mode.
The Network Access Controller, in addition to its Tecom bus, has two RS-485
buses (local LANs) to connect readers for doors, as well as RASs, DGPs, and
Tecom peripherals.
Network Access Controllers provide enhanced access control functionality to the
ChallengerPlus system. This manual describes:
•How to install the Network Access Controller
•How to connect other equipment to the Network Access Controller
This manual is intended for use only by trained Challenger installation and
configuration technicians.
Refer to the MAPROG-TS1066 R1.2 TS1066 Network Access Controller
Programming Manual for more details on supported system configurations.

7
Specifications
Mechanical
Physical dimensions
(W x D x H)
Weight
product
boxed
mm
g
kg
254 x110 x55
330
12
Electrical
AC input voltage
Nominal
Limits*
Battery requirements
Type
Terminal voltage
Nominal
Maximum
Charging current limit
Compliance
Battery lead fuse
Size
Type
Current
Voltage
Example parts
Vrms
Vrms
V
V
A
A
VAC
19
15 to 24.5
SLA(Sealed Lead Acid)/
VRLA(Valve regulated Lead Acid)
12
15 (severely overcharged)
>1.5
AS/NZS 2201.1:2007, Appendix C
3AG/3AB (6x32 mm)
Time lag (slow blow)
8
250
Bel Fuse 3SB 8-R
Littelfuse 0313008.HXP
Schurter 8020.5020
Environmental
Room temperature
Storage
Operating**
Relative humidity
Location
Pollution Class
Altitude
°C
°C
%
m
-20 to +80
0 to +50
0 to 93 non-condensing
Indoor. Dry area.
2 or lower
≤ 2000
Enclosure
details
Compatible enclosure
ENC-LGE
* Includes all tolerances and Mains supply variations.
**Refer to Appendix C: Operating temperature.
Product contents
Inspect the package and contents for visible damage. If any components are
damaged or missing, do not use the unit; contact the supplier immediately. If you
need to return the unit, you must ship it in the original box.
Table 1 lists the items that are shipped with a TS1066 Network Access
Controller.

8
Table 1: TS1066 shipping list
Quantity
Item
1
TS1066B board
1
TS1066 Network Access Controller Installation Manual
7
M3 x 10 pan head screws
6
Standoff board mounts
12
3-way plug-on screw terminal connectors
14
2-way plug-on screw terminal connectors
2
Battery leads (combined negative and fused positive)
1
1K 1/4 watt resistor
16
10K 1/4 watt resistors
5
Link jumpers
Warning
Take appropriate precautions if working on an active or
recently de-powered device.
The circuit board and the heatsink on the Network
Access Controller board may be hot.
Do not touch.
Related documentation
The ChallengerPlus Installation and Quick Programming Manual and
ChallengerPlus Programming Manual provide detailed information about
configuring and programming a ChallengerPlus system.
The ENC-LGE Large Enclosure Installation Manual provides instructions for
installing the ENC-LGE Large Enclosure.
The TS1066 Network Access Controller Programming Manual provides detailed
information about configuring and programming the Network Access Controller.
The Challenger system is modular. Refer to the documentation that is shipped
with each module that you intend to use.

9
Before you begin
When installing a Network Access Controller, or any other parts of the system,
you need to be aware of requirements for cabling and earthing, and plan
accordingly. Refer to “Appendix D: Cabling requirements” on page 36.
Notice! A qualified service person, complying with all applicable codes, should
perform all required hardware installation.
The customer is responsible for testing and determining the suitability of this
product for specific applications. The customer is responsible for testing the
product at least once every three months.
Disclaimer: This manual contains recommendations based on Australia and
New Zealand codes. It is not an authoritative reference regarding codes and has
not been reviewed by the responsible authorities. The codes may change and
may not be reflected in this document.
Safety Warnings
Field wiring errors or damage may present hazardous voltages inside the
enclosure. Treat all wires and boards in the enclosure as hazardous until
checked and validated as safe.
Interlogix recommends the use of personal protection equipment, such
as gloves, glasses, voltage detectors and meters for all installation and
maintenance operations.
Enclosure Access Restrictions
To comply with Australian standard AS/NZS 60950-1, access to the interior of the
enclosure:
Must be restricted to suitably trained and qualified installation and
maintenance technicians.
Must require the use of a tool.
These restrictions can be met by implementing one or more of the following
options:
Fit a lock to the enclosure. Ensure that the unit is locked when
unsupervised.
Tighten the door screws ¼ turn beyond finger tight (i.e. > 2Nm) using a
tool.
Secure the door with M6 standard or tamper proof screws (not
supplied), firmly tightened.

10
Installing the Network Access Controller
Installation guidelines
Installers must adhere to any country dependent requirements and local
applicable standards.
•Installation must be performed in accordance with AS/NZS 2201.
•The installation environment must comply with environmental
specifications.
•The Network Access Controller, as well as all other boards with earth
terminals must be earthed according to the recommendations in the
section “System earthing" in Appendix D: Cabling requirements on page
36.
•The batteries used with this unit must comply with the requirements
provided in the section “Batteries” on page 17.
•Avoid loops of wire inside the enclosure, and route cables so that they do
not lie on top or underneath the printed circuit board. The use of cable ties
is recommended and improves neatness of the wiring within the box. All
wires entering the enclosure should be secured near point of entry, as
required by applicable codes.
Installation procedure
The Network Access Controller must be installed in an approved, compatible
enclosure, as detailed in the Specifications table on page 7. Ensure the
enclosure has been mounted on the wall and the transformer is installed in the
enclosure before mounting the Network Access Controller. Refer to the enclosure
installation manual for the details.
Mounting Network Access Controller in the enclosure
The installation procedure is as follows:
1. Install six standoff board mounts for the TS1066B board in the enclosure.
Refer to the enclosure installation for standoff mount location and fitment.
2. Remove the TS1066 board from its antistatic bag.
3. Use six M3 x 10 pan head screws to fix the board to the enclosure’s
standoffs. Refer to Figure 2 on page 13 for the mounting hole locations.
4. Combine terminal blocks as appropriate (e.g. 2 x 3-way, 2-way + 3-way, 2
x 2-way) and attach to the headers (e.g. 6-way, 5-way, 4-way) around the
periphery of the board.
5. If the Network Access Controller is to be connected to a ChallengerPlus
then its address must be configured. Refer to “DIP switch settings” on
page 11.

11
DIP switch settings
If a Network Access Controller is connected to a ChallengerPlus panel’s system
LAN, then it must be addressed as a DGP in the range 1 to 12. Use the four-
segment Address DIP switch (Figure 2 on page 13, item 36) to set the address.
Figure 1: Address DIP switch
Table 2: DIP switch settings
LAN
Address
Polled as
S1-1
S1-2
S1-3
S1-4
LAN 1
1
DGP 1
I
O
O
O
LAN 1
2
DGP 2
O
I
O
O
LAN 1
3
DGP 3
I
I
O
O
LAN 1
4
DGP 4
O
O
I
O
LAN 1
5
DGP 5
I
O
I
O
LAN 1
6
DGP 6
O
I
I
O
LAN 1
7
DGP 7
I
I
I
O
LAN 1
8
DGP 8
O
O
O
I
LAN 1
9
DGP 9
I
O
O
I
LAN 1
10
DGP 10
O
I
O
I
LAN 1
11
DGP 11
I
I
O
I
LAN 1
12
DGP 12
O
O
I
I
LAN 2
1
DGP 17
I
O
O
O
LAN 2
2
DGP 18
O
I
O
O
LAN 2
3
DGP 19
I
I
O
O
LAN 2
4
DGP 20
O
O
I
O
LAN 2
5
DGP 21
I
O
I
O
LAN 2
6
DGP 22
O
I
I
O
LAN 2
7
DGP 23
I
I
I
O
LAN 2
8
DGP 24
O
O
O
I
LAN 2
9
DGP 25
I
O
O
I
LAN 2
10
DGP 26
O
I
O
I
LAN 2
11
DGP 27
I
I
O
I
LAN 2
12
DGP 28
O
O
I
I
Legend: I = ON, O = OFF

13
Figure 2: TS1066B board details

14
Figure 2 legend
Item
Description
1.
Mounting Hole. Ensure all standoffs are used.
2.
AC power input terminals. Details provided in Specifications.See Power Input on page 16.
3.
Earth terminal. Connect the power earth wire from the enclosure’s mains transformer to
the earth terminal. See System earthing in Appendix D: Cabling requirements.
Data cable shields can also be connected.
4.
Battery 1 terminals. See Batteries on page 17.
5.
Battery 1 terminals. See Batteries on page 17.
6.
Auxiliary power output. See Auxiliary power terminals on page 19.
7.
Siren Output. See Siren on page 20.
8.
ChallengerPlus LAN interface
See: RS-485 Networks on page 21.
Appendix D: Cabling requirements on page 36
9.
Tamper switch input.
Connect the TAMP T and TAMP C terminals to the panel tamper switch in the enclosure.
Short circuit for sealed, open circuit for unsealed. Must be sealed if not used.
Can only be used with normally closed contacts such as the panel tamper switches.
See enclosure manual for tamper switch details.
10.
Relay and lock power connections for four doors.
Refer to Door lock relay wiring on page 26
11.
Earth terminal.
Connection point for cable shields or for earthing other boards connected to the TS1066B
in the enclosure. Preferred length should be approximately 60mm.
Refer to System earthing in Appendix D: Cabling requirements
12.
Input terminals. See Inputs on page 26.
13.
Relay expansion connector.
10 pin plugin cable socket for relay expansion modules.
See Relay expansion on page 28.
14.
PWR Link
Power link for relay expansion cards.
Refer to Relay expansion on page 28.
15.
Micro-B USB port (USB cable not supplied).
16.
Ethernet port (Ethernet cable not supplied).
17.
Heartbeat LED. See LED indicators on page 29.
18.
Bus 1 quick connect header
See RS-485 buses on page 21
Note: This connector is not a STU port.
19.
BUS 2 connector
See RS-485 buses on page 21
20.
BUS 1 connector
See RS-485 buses on page 21
21.
Bus 1 quick connect header
See RS-485 buses on page 21
Note: This connector is not a STU port.

15
Item
Description
22.
Lock power 2 quick connect header
See Lock power on page 25
23.
BUS1 Rx LED. See LED indicators on page 29.
24.
BUS 1 Tx LED. See LED indicators on page 29.
25.
Bus 1 TERM link. See Terminating the RS-485 on page 25.
26.
BUS 2 Rx LED. See LED indicators on page 29.
27.
BUS 2 Tx LED. See LED indicators on page 29.
28.
Bus 2 TERM link. See Terminating the RS-485 on page 25.
29.
ChallengerPlus LAN Rx LED. See LED indicators on page 29.
30.
ChallengerPlus LAN Tx LED. See LED indicators on page 29.
31.
ChallengerPlus LAN TERM link. See Terminating the RS-485 on page 25.
32.
Lock power 1 quick connect header.
See Lock power on page 25.
33.
Ethernet 10/100 Mbps LED. See LED indicators on page 29.
34.
Ethernet Link Active LED. See LED indicators on page 29.
35.
Test links (not fitted during normal operations). Refer to Defaulting the Network Access
Controller on page 31.
36.
System Ready LEDs. See LED indicators on page 29.
37.
Address selection DIP switch (If connecting to a ChallengerPlus panel). Refer to DIP
switch settings on page 11.
38.
Relay coil active LED. See LED indicators on page 29

16
Figure 3 below details the wiring for terminal blocks in Figure 2, items 1 through 8.
Figure 3: Connection details for terminal blocks
Power Input
AC power input for the NAC is provided via the two unpolarised AC terminals.
Power is typically provisioned from the transformer fitted to the enclosure in
which the NAC is installed.
The NAC AC voltage requirements are specified in Specifications.
The enclosure installation manual provides further details for the transformer,
along with fuse location and specifications.
Notice! Transformers supplied by Interlogix have internal thermal fuses. Shorting
the AC leads together may blow the thermal fuse before the replaceable fuse can
react, rendering the unit inoperative.
Notice! In case of a worn, pinched or otherwise damaged transformer lead, the
transformer must be replaced in order to avoid hazard.
The transformer leads supply high currents to the board. Poor connections lead
to excessive voltage drop and can affect system performance.
At the board connection, the installer must ensure that:
a) Terminal wiring is performed with the transformer power input disconnected

17
b) The bare wire ends are neatly dressed and fully inserted into the terminal
housing. Less than 2mm of exposed wire should be visible after termination.
c) The complete bundle of wire strands is inserted into the screw terminal. No
broken strands should be visible.
d) There are no free strands outside of the metal block in the terminal housing.
e) The retaining screw is correctly torqued.
Batteries
The Network Access Controller requires battery backup to maintain functionality
when primary power is lost. Two independent battery channels are provided for
this purpose.
Key battery requirements are listed in the Electrical section of Specifications on
page 5. The table does not specify battery dimensions, capacity and temperature
ratings as they are installation dependent. The installer is responsible for
ensuring that:
a) The specified battery or batteries, in conjunction with the configured
system load and TS1066 charger settings, provide the required system
backup and recharge times.
b) The battery operating temperature range is compatible with the specific
TS1066 installation environment; a minimum range of 0°C to +40°C is
recommended.
c) The batteries fit into the system enclosure and are oriented so that there is
no possibility of their uncovered terminals being bridged by metal when
the leads are not attached.
d) The system enclosure is properly sited and mounted to handle the
configured system weight and allow for safe installation and removal of the
batteries in compliance with the warnings in this manual and all local
codes and OHS requirements.
e) For scheduling on-going battery system checks as required by the
applicable standards and codes to ensure user safety, battery integrity
and system performance; a 3 monthly interval is suggested.
A fuse is required in the positive lead of each battery, as fitted in the
supplied battery leads; a spare is not provided. The fuse is specified in the
Electrical section of Specifications on page 7.
The battery leads are provided with receptacles to suit the 4.75mm Fast-
On tabs commonly used on 12V SLA batteries with 7Ahr and 12Ahr
capacities. Higher capacity batteries will have different terminal types,
necessitating the use of adaptors or modifications to the leads. When
modifying the leads:
a) Disconnect leads from the NAC.
b) Take care not to damage the fuse holder.

18
c) Add sleeving or covers to any exposed metal on the modified battery
connection arrangement.
Notice! Batteries can supply very high currents. This can happen when terminals
are bridged by metalwork, wires, tools, jewelry, etc. The bridging metal can get
very hot, melt, or vaporize, leading to damage and serious injuries.
Take all necessary precautions to ensure safety, including covering bare
terminals, when transporting or replacing batteries.
Notice! Batteries can be large, heavy and have slippery cases. These factors
contribute to mishandling incidents such as slipping and dropping. Impact
damage can rupture the battery case, releasing hazardous chemicals. Slips and
drops can allow terminals to contact metal, or cause injuries to the installer or
others nearby. Take all necessary precautions to ensure safety, including not
working overhead or blind in cramped areas, covering bare terminals, and using
appropriate means to safely handle the awkward and heavy units.
Notice!
Worn, pinched or otherwise damaged battery leads must be replaced in order to
avoid hazard.
Battery fitment and replacement
The battery leads supply high currents to the board during fault conditions.
Poor connections lead to excessive voltage drop and can affect system
performance.
At the board connection, the installer must ensure that:
a) Terminal wiring is performed with the battery disconnected.
b) The bare wire ends are neatly dressed and fully inserted into the terminal
housing. Less than 2mm of exposed wire should be visible after
termination.
c) The complete bundle of wire strands is inserted into the screw terminal.
No broken strands should be visible.
d) There are no free strands outside of the metal block in the terminal
housing.
e) The retaining screw is correctly torqued.
f) On completion, the polarity is verified at the board (red to positive, black to
negative) prior to battery connection.
At the battery connection, the installer must ensure that :
a) The positive lead (red) is the first wire connected and the last wire
disconnected.

19
b) The battery terminal polarity and open terminal voltage is validated prior to
a connection being made.
c) The battery tab and receptacle mate firmly and completely. It should not
be possible to remove the terminal with gentle force.
d) If a custom battery terminal is in use, the checks in the prior section
regarding wire dress, strand damage and connection firmness are
appropriately applied.
New batteries must be clearly marked with the date of installation in order
to facilitate future maintenance activities.
When batteries are replaced, the board should be queried using the
control software to validate the newly installed units.
When making voltage measurements at the battery terminals to establish
battery state, healthy batteries that have not been discharged in the
preceding 48hrs should measure >13.5V
The installer is responsible for identifying and specifying batteries within
an operating temperature range that measures up with the specific
TS1066 installation environment; a minimum range of 0°C to +40°C is
recommended.
A fuse is required in the positive lead of each battery. Each fuse must be a
3AG/3AB (6x32 mm) 8A, 250 VAC, slow blow (time lag) fuse, compliant with UL
248.14. Suitable parts include Littelfuse 0313008.HXP, Bel Fuse 3SB 8-R, and
Schurter 8020.5020.
The installer (or user) is responsible for scheduling on-going battery
system checks as required by the applicable standards and codes to
ensure user safety, battery integrity and system performance; a 3 monthly
interval is suggested.
The battery leads are designed to suit 4.75mm Fast-On tabs. SLA batteries with
7Ahr and 12Ahr capacities are available with these tabs as standard from many
suppliers.
Higher capacity batteries will have different terminal types, necessitating the use
of adaptors or modifications to the leads. In these situations, sleeving or covers
should be added to cover exposed metal on the battery tabs or connections.
Battery charging current
Nominal charging current is 600mA.
Auxiliary power terminals
Connect the AUX POWER +12 and AUX POWER −output terminals to devices
that require 12V DC power, such as detectors. Three sets of auxiliary power

20
output terminals are provided: if you need more than three connections, you can
use a TS0844 Power Distribution Board or TS1044 Power Distribution Board to
increase the number of terminals.
Note: Network Access Controller system design should consider the fuse
partitioning and load limitations specified in Appendix B: Output fusing and user
current limits on page 34.
Siren
Connect the OUT S+ and OUT S–terminals to an 8 Ω siren speaker or two 8Ω
siren speakers in parallel. Alternatively, connect a device requiring 12VDC
power.
The OUT S+ terminal is always powered. The OUT S- terminal is switched
according to the Siren SW settings.
A 1K 1/4 watt resistor (supplied) should be connected across the OUT S+ and
OUT S–terminals:
a) At the load side when driving digital inputs or other light loads.
b) At the terminals when no device is connected.
Note: Network Access Controller system design should consider the fuse
partitioning and load limitations specified in Appendix B: Output fusing and user
current limits on page 34.
Warning: The siren type must be configured correctly in CTPlus. Specifying a
siren type of DC Volts when there is an 8 Ω siren connected to the Network
Access Controller may damage the siren.
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