Interlogix TruPortal TP-ADD-1DIP, TruPortal TP-ADD-1DIP-BRD Quick Reference

TruPortal™ IP-based Single
Door Controller (IPSDC)
Quick Reference

en-US

Introduction

The TruPortal IP-based Single Door Controller (IPSDC) provides
distributed processing for the interface of access control readers,
digital inputs, and outputs to the TruPortall System Controller.

The IPSDC is pre-configured to use Power-over-Ethernet (PoE),
using electrical power from Ethernet cabling, but can also be
configured to use an auxiliary power supply.

Model Numbers

The IPSDC is available in the following configurations:

• TP-ADD-1DIP: TruPortal single-door base kit. Consists of a
TruPortal IPSDC, installed in a UL-listed enclosure.

• TP-ADD-1DIP-BRD: TruPortal IPSDC board only . Capable of
controlling one door. No enclosure or readers included.

Installation Procedure

To install the IPSDC, perform the procedures described in the
following sections, in the order in which they are presented.

1. Mount the enclosure.

2. Set the dual in-line package (DIP) switches.

3. Connect the reader(s) and inputs.

4. Connect the door strikes.

5. Connect the power.

6. Verify proper operation on power up.

7. Configure the IP address of the IPSDC and the IP address of
the System Controller (TP-SYS).

WARNING: Circuit board components are vulnerable to damage

by electrostatic discharge (ESD). ESD can cause
immediate or subtle damage to sensitive electronic
parts. An electrostatic charge can build up on the
human body and then discharge when touching a
board. A discharge can be produced when walking
across a carpet and touching a board, for example.

Packing List

• IPSDC printed circuit board (PCB) assembly and overlay

• Hardware kit

- Ground terminal lug

- SEMS screws

- Protection diodes for door strike wiring

- Metal Oxide Varistor (MOV) surge absorbers for door
strike wiring

- Ferrite for use with network cables

- 1K end-of-line resistors

• Lock (quantity = 1)

• Enclosure

• Enclosure mounting template

• Installation screwdriver

• TruPortal IP-based Single Door Controller (IPSDC) Quick
Reference (this document)

P/N 460939301B • REV 01.00 • 30OCT13 1

WARNING: Do not apply power to any component during

Mounting the Enclosure

1. Using the template provided, mark and then drill the four
mounting holes.

2. Bolt the enclosure securely to the wall, using four #8 thread
lag bolts or equivalent.

Before handling any board, make sure to dissipate
any charge by touching the ground. This discharges
any static electricity build-up.

installation. Damage to components may occur if
power is incorrectly applied.

Setting the DIP Switches

Set DIP switches before installing and wiring readers. See Figure

10 on page 7 for switch locations.

Switch Purpose

SW1 – Select Custom
Wiegand Card Format

SW2 Set all four DIP switches to OFF

1. Use the System Administration > Card Formats page
in the TruPortal User Interface to configure Wiegand
card formats.

Set SW1-1 to OFF and set SW1-2 thru

[1]

SW1-4 to ON.

The inputs can be configured as supervised or non­supervised. Inputs configured as supervised digital inputs
require End-of-Line (EOL) resistors.

• The reader interface has built-in pull-up resistors to
accommodate cable lengths over 500 feet (152.4 meters). No
external pull-up resistors are required for the reader interface.

Table 1: Maximum Peripheral Loads

Reader/Strike PoE Auxiliary Power Supply

Voltage (DC) 12 24 12 24
T otal watts available 8 10 12 20

The following table provides switch settings for input types:

SW1-5 and SW1-6 SW1-7 SW1-8

Supervised DI/REX 1,
4-State

Supervised DI/REX 1,
2-State (default)

N/A ON N/A

N/A OFF N/A

Note: After changing DIP switch settings to modify input types,

be sure to reboot the IPSDC.

Switches SW4—SW7 are right-angle, momentary-contact push
buttons described in the following table and shown in Figure 11 on
page 8.

Switch Purpose

SW4 – Boot Mode Manually enables the ICT . See the TruPortal

Software User Guide for details.

SW5 – Hardware Reset Reboots the IPSDC. Use this switch only if

performing a controlled manual shutdown, as

instructed by T echnical Support.
SW6 – Shutdown Request See Safe Shutdown Procedure on page 5.
SW7 – Restore Defaults Press SW7 for a minimum of five (5) seconds,

then release to return the configuration to factory

default settings:

Primary Connection Type: Ethernet

IP Address: 192.168.6.6

Subnet Mask: 255.255.255.0

Gateway: 192.168.6.1

Note: A TruPortal IPSDC Power Requirement Wattage

Calculator is included on the product disc in the
\Documentation\en-US folder for use in determining
peripheral loads.

Table 2: Device Current

Average

Operating

Device

T-100 reader 12 55 .66
T-200 reader 12 55 .66
T-500 reader 12 95 1.14
T-520 reader 12 105 1.26
T-525 reader 12 140 1.68
Securitron M62 Magnalock

[1]

strike
Securitron M62 Magnalock

[1]

strike
HES, Inc 5000-12/24D strike 12 230 2.76
HES, Inc 5000-12/24D strike 24 115 2.76
Rutherford 4114x05x32D strike 12 190 2.28
Von Duprin 5100 3FP695

12 VDC
Von Duprin 5100 3FP695

24 VDC

Voltage

12 240 2.88

24 140 3.36

12 290 4.68

24 195 4.68

Measured
Current (mA) Watts

Note: The reader board address is internally set to Address 1.

Connecting the Readers and Inputs

Use Figure 10 on page 7 to wire the readers and inputs. Refer to
the reader documentation for wiring instructions.

RCR-REX 12 28 0.34
RCR-REX 24 17 0.41

1. When using magnetic strikes with auto-voltage select, addi­tional power allowances must be considered due to auto­voltage circuitry operation.

Note the following details:

• IPSDCs do not support the following TruPortal features:
Buzzer actions initiated by action triggers, auxiliary inputs/
outputs, and reader tamper inputs.

• The reader DI port (J2) has two digital inputs which are used
for door status devices (door contacts and exit request input).

2 TruPortal IP-based Single Door Controller Quick Reference

Connecting the Door Strikes

One door DO relay is dedicated to the J2 reader port. The door
DO is used for strike control, and may implement an external relay
if necessary.

Figure 1: Door Strike Configuration Using Internal Power (PoE or 24 VDC)

Figure 2: Door Strike Configuration Using External Power

Callout Description

1 Strike Relay Normally Closed (NC)
2 Strike Relay Common
3 Strike Relay Normally Open (NO)
4

5

Protection diode required

12 or 24 VDC Strike

[1]

[2]

6 Strike voltage selection. Jumper pins 1 and 2 for 24 VDC strikes;

jumper pins 2 and 3 for 12 VDC strikes.

7 See strike manufacturer’s installation guide for conductor size

(AWG).

1. Use 1N4002, 1N4003, or 1N4004 diodes.

2. Refer to the TruPortal IPSDC Power Requirements Wattage

Calculator worksheet included on the product disc for strike
type and size.

The following table describes connector J2 in Figure 2.

Callout Description

1 Strike Relay NC
2 Strike Relay Common
3 Strike Relay NO
4

5

Protection diode required

12 or 24 VDC Strike

6 Strike voltage selection. Set jumper to Neutral (no connection)

position.

7 See strike manufacturer’s installation guide for conductor size

(AWG)
8 Strike power supply
9 Provide current restriction device, less than 2 amps through relay.

1. Use 1N4002, 1N4003, or 1N4004 diodes and Metal Oxide
Varistors (MOVs) for AC strikes.

2. Refer to the TruPortal IPSDC Power Requirements Wattage
Calculator worksheet included on the product disc for strike
type and size.

[1]

[2]

TruPortal IP-based Single Door Controller Quick Reference 3

Grounding Procedure and Regulatory Information

Note: All bullets must be followed for regulatory compliance.

• All cables connected to the IPSDC must be shielded with
shield terminated as shown in Figure 3. Use #8-32 SEMS
screws provided.

• When wiring readers, ground the shields of the cable at the
IPSDC enclosure grounding studs to avoid electrical noise.

• The IPSDC enclosure must be connected to the nearest
earth ground. (See Figure 4.)

• A convenient earth ground, such as an electrical box or a
ground bus, must be provided to the IPSDC enclosure.

• The earth ground connection must be made to the terminal
lug provided. Mount the terminal lug to the PEM nut on the
bottom of enclosure using the #8-32 SEMS screw provided,
as shown in Figure 4. Use #14-18 AWG wire.

• Before connecting the network cable to connector J10, loop
the cable through ferrite provided as shown in Figure 5.

Note: Ferrite must be installed inside of the enclosure.

Figure 3: Using Shielded Cable and Drain Wire

Figure 5: Installing Ferrite

Connecting the Power

The IPSDC provides two methods of connecting power, both of
which are sold separately:

• Network connector J10 as PoE. (See Figure 6).

• Auxiliary power connector J8 with network hub POE device or
24 VDC supply with battery backup (Figure 7).

Figure 6: Connecting Through PoE Hub

Figure 4: Wiring Earth Ground

Using PoE

Not evaluated by UL.

1. Install a PoE supply (IEEE802.3af 16 watt Class 0 Mode A or
B PoE Power Sourcing Equipment (PSE)) in accordance with
the manufacturer's instructions.

2. By Ethernet standards, the maximum cable length is limited
to 328 ft. (100 m) between the PoE source and the IPSDC.

3. Attach supplied ferrite to the network cable by looping the
network cable through the ferrite as shown in Figure 5.

4. Connect the network cable to connector J10 on the IPSDC.

5. Connect the other end of the network cable to the PoE supply
per the manufacturer’s instructions.

4 TruPortal IP-based Single Door Controller Quick Reference

Figure 7: Connecting Through Network Hub Using PoE or Auxiliary Supply

Using an Auxiliary Power Supply

The IPSDC requires a 24 VDC nominal, 1 amp power supply with
battery backup. The IPSDC, readers, and other devices should be
referenced to the same ground.

For UL-listed installations, the auxiliary power supply must be an
approved UL294 power-limited supply, such as the Altronix Corp.
Model AL176ULX power supply. For UL of Canada (ULC)
installations, the auxiliary power supply must be listed to S319 or
S318.

1. Mount the power supply near the IPSDC enclosure.

2. Run the wire through the knockout hole to connector J8 (see

Figure 8). Pinouts include:

• Pin 1 = +24 VDC

• Pin 2 = – Ground (24 VDC return)

Note: If the polarity is reversed, the fuse blows to prevent

damage. If the fuse blows, it automatically resets within
approximately five (5) seconds.

Figure 8: Auxiliary Power Supply Wiring

Callout Description Wire Color

3 Factory-wired chassis ground. Do not remove. Green
4 +24 VDC auxiliary power supply

Configuring the IPSDC

After an IPSDC is installed, follow the instructions in the TruPortal
Software User Guide to use the browser-based Integrated

Configuration Tool (ICT) to:

• Configure the IPSDC to recognize the IP address of the
System Controller (TP-SYS).

• Change the IP address of the IPSDC.

Following is an overview of that procedure; see the TruPortal
Software User Guide or online help for details.

1. Configure a local client workstation for static IP address

192.168.6.1 or a similar valid IP address (e.g., 192.168.6.x
where x is any number between 1 and 254 except 6).

2. Make sure that the PC is not blocked from connecting to IP
address 192.168.6.6. (If the workstation normally connects to
the Internet via a proxy , the proxy settings in the browser may
need to be adjusted.)

3. Open an Internet browser and go to http://192.168.6.6, the
default address of the IPSDC.

4. Type the User ID and Password for the ICT.
The default values are install and install.

5. On the Controller Parameters > Primary Network page,
configure the correct IP address for this IPSDC. A static IP
address is highly recommended. Make a note of the address
for your records. Click Save and then Apply.

6. On the Controller Parameters > Panel Configuration page,
type the IP address of the System Controller. Click Save and
then Apply.

7. Click Restart Application to commit the changes.
After a few minutes, the IPSDC will be accessible via the new

IP address and can be detected by the System Controller
when the [Scan for Hardware Changes] button is clicked in
the TruPortal User Interface.

8. Repeat the procedure for each IPSDC.

Safe Shutdown Procedure

The following procedure can be performed in maintenance mode
or normal operation mode to turn off the IPSDC.

WARNING: Do not reset or restart the IPSDC in the middle of a

firmware update or the IPSDC will become

Note: For UL-listed installations, Pin 3 is used for AC Power

Fail notifications; Pin 5 is used for Low Battery
notifications.

Callout Description Wire Color

1 +24 VDC from auxiliary power supply Red
2 Ground (0V) from auxiliary power supply Black

5 TruPortal IP-based Single Door Controller Quick Reference

1. Press SW6 and hold the button for three seconds until LEDs
D14 through D21 turn on and stay on. (See Figure 11 for
locations of reset switches and LEDs.)

2. Wait for about five seconds.

3. Remove power to the IPSDC or push SW5 to reset the
IPSDC.

nonfunctional. Refer to the TruPortal Software User

Guide for more information about firmware updates.

Figure 9: IPSDC Board Layout

The following table lists the items shown in Figure 9.

Callout Description Callout Description

1 IPSDC board with overlay 11 Network (Ethernet) port J10
2 Reader In (Access) J1 12 Console port J9
3 Door Contact, Request to Exit (RTE) and

Strike Relay J2
4 Strike Voltage Select W2 14 Boot Mode switch SW4
5 Custom Wiegand Card Format DIP switch

SW1
6 Reader Out (Egress) J3 16 Shutdown Request switch SW6
7 DIP Switch 2 (set all to OFF) SW2 17 Restore Defaults switch SW7
8 Status LEDs typical 18 Aux Power Input 24 VDC

9 UCSIMMPlus Module 19 Fire Alarm Control Panel (FACP) Input J6

10 IPSDC board mounting holes

13 Enclosure tamper W5

15 Hardware Reset switch SW5

Note: Jumpers between pins 3 and 4, and pins 4
and 5 must remain in place.

Note: The IPSDC does not support FACP so
this jumper must remain in place.

6 TruPortal IP-based Single Door Controller Quick Reference

Figure 10: Wiegand Wiring

The following table lists the items shown in Figure 10.

Callout Description Wire Color
Connector J1

1 Reader 1 (access)
2 +12 VDC Red
3 Ground (0V) Black
4 Reader Data 0 Green
5 Reader Data 1 White
6 Door DO (green LED) Orange
7—9 Not used
10

Drain wire (cable shield)

Connector J2

11 Door DI (DC+)
12 Door DI Return (DC-)
13 Exit DI (REX+)
14 Exit DI Return (REX-)
15

16

Door Contact

REX

[2]

[2]

[1]

Callout Description Wire Color

17

1K EOL resistors typical

[3]

Connector J3

18 Reader 2 (egress)
19 +12 VDC Red
20 Ground (0V) Black
21 Reader Data 0 Green
22 Reader Data 1 White
23 Door DO; green LED Orange
24—26 Not used
27 Drain wire (cable shield). See footnote 1

1. Use 20 A WG shielded cable and terminate drain wire
(cable shield) at enclosure (see Figure 3 on page 4).
Use plenum-rated cable if cable will be run above a
false ceiling in the air circulation space.

2. Door or Exit DIs Normally Open or Closed.

3. Include resistors for Wiegand Four-State interface.
For Wiegand Two-State interface, omit resistors.

TruPortal IP-based Single Door Controller Quick Reference 7

Callout Description State

Figure 11: IPSDC LEDs and Switches

LEDs
1 D85 Power On ON: power is present
2 D14 Offline Normally OFF
3 D15 Address RX Normally OFF
4 D16 Badge Activity Normally OFF; flashes when badge is read
5 D17 Database Pending Flashes while waiting to receive database from host
6 D18 File System Active Normally OFF
7 D19 Watchdog Flashes one beat per second if watchdog is healthy
8 D20 Flash Upload ON when IPSDC is booting up
9 D21 Shutdown Request Normally OFF/Flashes and then ON
10 D33 Strike Activated ON during strike activation
11 D24 FACP (not supported by IPSDC) ON = contact open
12 D25 Door Contact ON = contact closed; OFF = contact open; Flashing = fault
13 D26 Door REX ON = contact closed; OFF = contact open; Flashing = fault
14 DS and DS5 Link ON = link activity; OFF = no activity. Flashing = network activity
15 DS4 and DS8 Collision ON = Collision
16 DS3 and DS7 Full Duplex ON = Full duplex; OFF = Half duplex
17 DS2 and DS6 100/10 Mbps ON = 100 Mbps; OFF = 10 Mbps
Switches
18 SW4 Boot Mode Manually enables the ICT.
19 SW5 Hardware Reset Reboots the IPSDC.
20 SW6 Shutdown Request Initiates Safe Shutdown of the IPSDC.
21 SW7 Restore Defaults Returns configuration to factory defaults.

8 TruPortal IP-based Single Door Controller Quick Reference

Specifications

Regulatory Information

Dimensions (Height ×
Width × Depth)

Operating
environment

temperature

Humidity range
Thermal air cooling At least 6 in. (15.2 cm) of clearance is required on all

Power input
requirements

IPSDC to reader
cabling

[1]

[2]

10.15 in. x 9.15 in. x 3.04 in.
(258 mm x 232 mm x 77 mm)

+35 to +122° F (+2 to +50° C)

5 to 95% non-condensing

four sides of the enclosure.
IEEE802.3af 16 watt Class 0 Mode A and B PoE/

PSE) on Standard Category 5 (CAT 5) Ethernet cable
Note: By Ethernet standards, the maximum cable
length is limited to 328 ft. (100 m) between the PoE
source and the IPSDC.

-or­Auxiliary 24 VDC 1 A local supply (24 watts).

Reader voltage: 12 VDC
Note: If the cable distance is greater than 500 feet
(152.4 m), but less than or equal to 2000 feet
(609.6m) and/or the current per reader is greater than
150 mA, use 20 A WG shielded cable.
If the cable distance is less than 500 feet (152.4 m),
use 22 A WG shielded cable.
Recommended: Use 20 AWG shielded cable to wire
reader, DOs, and DIs. Use plenum-rated cable for
applications where cable will run above a false (i.e.,
suspended) ceiling in the air circulation space.
Recommended: Alpha Xtra Guard1 foil shield cable,
non-plenum-rated, or Belden-series security and
alarm cable (commercial applications shielded),
plenum-rated.

Manufacturer Interlogix

Headquarters and Regulatory responsibility:

Interlogix
3211 Progress Dr .
Lincolnton, NC 28092 USA

EU authorized manufacturing representative:

UTC Climate, Controls & Security B.V .,
Kelvinstraat 7, 6003 DH Weert,
The Netherlands

Y ear of
manufacture

North American
standards

FCC
compliance

Environmental
Class

Certification

European Union
directives

The first two digits of the product serial number (located
on the product identification label) are the year of
manufacture.

UL 294

This device complies with part 15 of the FCC Rules.
Operation is subject to the following two conditions: (1)
This device may not cause harmful interference, and (2)
this device must accept any interference received,
including interference that may cause undesired
operation.

UL: Indoor dry

We declare under our sole responsibility that this product
is in conformity with Directive 1999/5/EC (R&TTE), 2004/
108/EC (EMC), 2006/95/EC (LVD), and 93/68/EEC
(Marking) based on test results using harmonized
standards in accordance with the Directives mentioned.

Readers Maximum number of readers supported: 2

Reader technology supported: Wiegand
Output devices maximum ratings: Door DO (Reader
LED) = 20.mA @ 12 VDC maximum; Door strike
(DO) relay = 2 A @ 28 VDC or 30 V AC maximum

Strikes Maximum current: 390 mA per strike output. See

T able 2 on page 2 for recommended strike models
and associated power requirements.

Network
requirements

UL evaluation for UL-Listed Installations:

1. +32° to +120° F (0° to +49° C)

2. Up to 85% non-condensing

Although IPSDCs are equipped with a fallback mode,
they should be placed on a network with an adequate
reliability rate. (A network reliability rate of 99.98
percent is typical for mission-critical operations.)

If a typical Mean Time To Repair (MTTR) goal is one
hour, then using the 99.98% reliability rate equates to
a mean network reliability, or Mean Time Between
Failure (MTBF), goal of approximately 5,000 hours (or
1hr/.0002). In other words, the network that the
IPSDC is being placed on (from the door controller to
the System Controller), should not fail more often than
once every 5,000 hours (or approximately 208 days)
on average.

Contact Information

www.interlogix.com

Customer support:
© 30OCT13 United Technologies Corporation
Interlogix is part of UTC Climate, Controls & Security, a unit of

United Technologies Corporation. All rights reserved.

www.interlogix.com/support

Document number: 460939301C - October 2013

TruPortal IP-based Single Door Controller Quick Reference 9