Schlage WRI400 User manual
*P516-100*
P516-100
WRI400
Wireless Reader Interface
Instructions for WRI 400
+-
+-
C
B+
1
+
+
1
1
GND
GND
IF RADIO BOARD PRESENT
NC
BATT
COIN CELL NOT NEEDED
NC
C
NO
C
NO
PRIMARY SIDE
BEEPER
BEEPER
ALARM
STRIKE
AUX
PWR/
SIDE UP
LINE
GND
RTE
GND
GND
111
1
RED
GRN
GND
DATA\D0
CLK\D1
GND
SWITCH INPUT
CLK\D1
DATA\D0
RED
GRN
READER1 READER2
TAMP2
TAMP1
DPS
RTX
GND
DEBUG
TAMPER
STATUS
RELAY
RX/TX
USB
+12V
+5V
LID
+3.3V
RX
TX
GND
OPEN
A-
1
11
1
1
1
1
1
23394075_C
SCHLAGE
LINK
RESET
TAMPER
GND
20
19
2
1
ICLK
IDAT
RB8
RB7
GND
VDD
MCLR
USB
AA
BATT
LINE
ALR_NC
ALR_C
ALR_NO
AUX
AUX
AUX
STR
STR
STR
RB+
TB+
TA-
RS485
12/24VDC
THIS
MOUNT
LED2
BATTERY_HOLDER1
R112
C61
U4
REL1
J3
J7
REL2
REL3
U5
TP25
TP24
TP23
TP22
TP21
J6
LED1
LED4
LED7
LED5
LED6
LED3
J18
J17
J13
LED8 LED9
C32
J9
J12
J11
J10
J8
S3
S2 S1
J5
J2
J1
Para el idioma español, navegue hacia www.allegion.com/us
Pour la portion française, veuillez consulter le site www.allegion.com/us
2 • Schlage • WRI400 user guide
Contents
Overview...........................................................................................................................3
Getting started ..................................................................................................................4
Install the WRI400 ............................................................................................................5
PIM400 and WRI400 location .......................................................................................5
Remote antenna............................................................................................................5
Antenna location and safety..........................................................................................5
Antenna grounding........................................................................................................6
Terminate the coax whip at the WRI400 .......................................................................6
Outdoor gate applications .............................................................................................7
Elevator applications.....................................................................................................8
Weather-tight installation of the WRI400.......................................................................9
Non weather-tight installation of the WRI400................................................................9
Mounting the WRI400 ...................................................................................................9
Wiring the WRI400 to access control peripherals .......................................................10
WRI400 Cable/wire specications...............................................................................10
Portal inputs ................................................................................................................12
Portal outputs..............................................................................................................13
Credential readers.......................................................................................................15
Power failure modes ...................................................................................................16
Handheld device (HHD)..................................................................................................17
Coupling with the HHD................................................................................................17
Construction access mode .............................................................................................18
Link the WRI400 to a PIM400.........................................................................................18
Reset to factory defaults .................................................................................................19
Test .................................................................................................................................19
Troubleshooting ..............................................................................................................20
Important things to know before calling technical service...........................................21
WRI400 LED reference...................................................................................................22
FCC/IC statements ........................................................................................................23
UL294 Access Control Levels tested to: Destructive Attack - Level 1; Line Security - Level 1;
Endurance - Level 4; Standby Power - Level 1.
3 • Schlage • WRI400 user guide
Overview
The Schlage Wireless Reader Interface (WRI400) is an open architecture Wireless Access
Point Module (WAPM) designed to interface with third-party panels through a Panel Interface
Module (PIM400-TD2, PIM400-485) by using radio frequency (RF) communication.
• Interfaces credential readers and portal access control with third-party panels.
• May be used with up to two (2) credential readers that use wiegand or clock and data
outputs.
• Supports ve (5) optional inputs: Reader 1 Tamper and Reader 2 Tamper, Request to
Enter, Request to Exit and Door Position (Portal Status).
• Supports two (2) Form C, dry contact relays intended for strike and auxiliary outputs
(i.e., door installations with magnetic locks or strikes).
• Externally powered using a UL294 for UL, and ULC S318/ULC S319 for cUL listed Class
2 power supply (not included) capable of sourcing at least 500 mA @ 12 or 24 VDC,
(example: Schlage models PS902, PS904, PS906).
• Suitable for outdoor use, ambient temperature range -35C to +66C (-31F to +151F).
• The WRI400 is listed under UL294 as an access control system accessory.
• Access equipment manufactured and/or sold by Allegion LLC, is not rated for, or
intended for use in life safety installations. UL listed panic hardware must be used to
allow emergency exit from the protected area.
• The WRI400 has not been evaluated to UL325 or UL508.
• The ANT400 antennas have not been evaluated to UL294 and are not for use in
UL installations.
• This product has been evaluated for ULC-S319 Class I.
+-
+-
C
B+
1
+
+
1
1
GND
GND
IF RADIO BOARD PRESENT
NC
BATT
COIN CELL NOT NEEDED
NC
C
NO
C
NO
PRIMARY SIDE
BEEPER
BEEPER
ALARM
STRIKE
AUX
PWR/
SIDE UP
LINE
GND
RTE
GND
GND
111
1
RED
GRN
GND
DATA\D0
CLK\D1
GND
SWITCH INPUT
CLK\D1
DATA\D0
RED
GRN
READER1 READER2
TAMP2
TAMP1
DPS
RTX
GND
DEBUG
TAMPER
STATUS
RELAY
RX/TX
USB
+12V
+5V
LID
+3.3V
RX
TX
GND
OPEN
A-
1
11
1
1
1
1
1
23394075_C
SCHLAGE
LINK
RESET
TAMPER
GND
20
19
2
1
ICLK
IDAT
RB8
RB7
GND
VDD
MCLR
USB
AA
BATT
LINE
ALR_NC
ALR_C
ALR_NO
AUX
AUX
AUX
STR
STR
STR
RB+
TB+
TA-
RS485
12/24VDC
THIS
MOUNT
LED2
BATTERY_HOLDER1
R112
C61
U4
REL1
J3
J7
REL2
REL3
U5
TP25
TP24
TP23
TP22
TP21
J6
LED1
LED4
LED7
LED5
LED6
LED3
J18
J17
J13
LED8 LED9
C32
J9
J12
J11
J10
J8
S3
S2 S1
J5
J2
J1
J2
Lid Tamper
Input Switch
J13
Switch Inputs
J10
Reserved
J5
USB
J7
Power
12 or 24
VDC
J17
Reader 1
J18
Reader 2
J6
Relay Outputs
Radio Board
SW1
Lid Tamper
Switch
4 • Schlage • WRI400 user guide
Getting started
Follow these steps when setting up a WRI400 with an access portal.
Before installing the Schlage WRI400, read all documentation for all products in the
installation.
1. Familiarize yourself with the information contained in this user guide.
2. To operate at optimum eciency, cable runs should be kept as short as possible.
3. Install the UL listed lock. See the installation guide that came with the lock or visit
www.allegion.com/us for more information to install Schlage locks.
4. Install the UL listed reader(s).
5. Install the WRI400.
6. Install a UL/ULC listed power supply for the WRI400 and the readers. The power
supply must be compatible with all components and must have the capacity to power the
WRI400 and the readers. (The WRI400 requires a power supply capable of sourcing at
least 500 mA @ 12 or 24 VDC.)
LIf preferred, separate UL listed power sources for the WRI400 and the readers is
an acceptable alternative.
7. Install the Panel Interface Module (PIM400-TD2 or PIM400-485). See the installation
guide that came with the PIM or visit www.allegion.com/us for more information.
8. If a remote antenna is necessary, make sure it is properly located. As with all radio
systems, interference may be a problem. Refer to Remote antenna on page 5.
9. Make sure power is properly connected to all components in the system.
10. Link the WRI400 to its PIM400.
11. Test operation of the WRI400 with the access portal and UL listed access control
system.
LFor compliance with UL 294, product must be used with a UL 294 Listed access control
panel or unit. For compliance with ULC S319, product must be used with a ULC S319
Listed access control panel or unit.
Save this user guide for future reference.
Typical Access Point Configuration
UL listed Access
Control Panel
(ACP)
WRI400 PIM400
Cre
d
en
t
i
a
l
s
Readers
RF Link
Door hardware
connections not shown.
Power
Supply
0 1
2 3
6 7
4 5
*#
8 9
Power
Supply
UL listed exit
device or lock
5 • Schlage • WRI400 user guide
Install the WRI400
PIM400 and WRI400 location
Proper mounting location of the PIM400 and WRI400 ensures reliable RF communication.
Refer to the PIM400 user guide to determine the best location for the PIM400.
• Locate the WRI400 on the secured side of the access portal.
• For optimized radio performance, orient the WRI400 vertically with the radio board at the
top of the enclosure.
• The maximum distance indoors between a PIM400 and a WRI400 is 200 feet (61 meters)
when installed on the same oor in a building that uses normal construction materials.
• If a remote antenna is used with the WRI400, the maximum distance between the
WRI400 and the antenna is 15 cable feet (4.5 meters).
• Do not locate the WRI400 and remote antenna, or the PIM400 (and it’s remote antenna,
if used) on separate oors within a building. The maximum distance for a line-of-sight
installation is 1000 feet (305 meters)1.
• RF signals are diminished by walls, distance, metal objects or barriers. If metal walls or
metal mesh (stucco) walls are between the WRI400 and the PIM400, mount the PIM400
away from the UL listed access control panel. Use a Remote Antenna Module (ANT400)
with the PIM400, and choose a location that is free of obstacles which may cause a
reduction in signal power at the receiver.
The distance between the PIM400 and its antenna should not exceed 15 cable feet (4.5
meters).
1 Use of high-gain antenna (ANT400-REM I/O +6dB) will improve range.
Remote antenna
LIf the installation requires a remote antenna, refer to the optional remote antenna
module (ANT400) user guide for complete instructions and information on the
following antenna models.
Antenna model Application
ANT400-REM-CEILING Intended for indoor applications.
ANT400-REM-HALL
ANT400-REM-I/O Intended for indoor or outdoor applications.
ANT400-REM-I/O+6dB
Antenna location and safety
• Locate within 15 cable feet (4.5 meters) of the PIM400 or the WRI400.
• Locate for best RF line-of-sight path with the WRI400 that will be linked to the PIM400.
• Do not locate the WRI400 and antenna or the antenna and PIM400 on separate oors of
a building.
• Outside antenna systems should not be located near overhead power lines or other
electric circuits, or where the antenna can fall into such power lines or circuits. Extreme
care should be taken to keep the antenna from touching any power line or circuit.
WARNING! Antenna contact with electric power lines or close proximity to a high
voltage electrical eld may cause serious or fatal injury.
6 • Schlage • WRI400 user guide
Antenna grounding
National Electrical Code (NEC) requires that every antenna installation be properly grounded.
Local electrical codes may have additional requirements.
• A grounding block is recommended for all antenna installations. Consult the NEC and
local electrical codes, and the local Authority Having Jurisdiction (AHJ) for information
on proper grounding of the antenna system.
• A grounding block kit compatible with all of the previously mentioned antenna models is
available as a kit (sold separately, part number MGB + MCA5). Be sure to consider the
length of the grounding block cable when locating the antenna.
For more information, refer to Accessories in the Optional Remote Antenna Module
(ANT400) user guide.
Terminate the coax whip at the WRI400
LOnly applicable to installations using an optional remote antenna.
LTo avoid damage to electronics inside the enclosure when drilling, use light
pressure so that the bit does not penetrate very far when it breaks through the
enclosure, or remove electronics from the enclosure before drilling.
1. Drill a Z\x” (13 mm) hole in the top of the WRI400 enclosure as shown to accommodate
the mounting of the coax whip to be connected to the WRI400 radio board.
2” (51 mm)
¹⁄₂” (13 mm) hole
1
USED ON CT5000 ONLY
PRIMARY SIDE
400 400
SIDE UP
DEBUG
USB
+3.3V
RX
TX
GND
OPEN
1
1
WRI WSM CT5000
23394075_B
ICLK
IDAT
RB8
RB7
GND
VDD
MCLR
USB
THIS
MOUNT
BATTERY_HOLDER1
J3
TP25
TP24
TP23
TP22
TP21
LED1
LED2
J5
J1
Top of WRI400 Enclosure
Radio Board
1” (25 mm)
1
1
IF RADIO BOARD PRESENT
COIN CELL NOT NEEDED
PRIMARY SIDE
SIDE UP
DEBUG
USB
+3.3V
RX
TX
GND
OPEN
1
1
23394075_C
ICLK
IDAT
RB8
RB7
GND
VDD
MCLR
USB
THIS
MOUNT
LED2
BATTERY_HOLDER1
J3
TP25
TP24
TP23
TP22
TP21
LED1
J5
J1
2. Refer to the Optional Remote Antenna Module (ANT400) user guide for complete coax
connection instructions.
7 • Schlage • WRI400 user guide
Outdoor gate applications
Follow the guidelines below for reliable performance between the WRI400 and PIM400 when
used to control an outdoor gate.
• When using the PIM400’s internal antenna mount the PIM400 at least 6 feet (1.8 meters)
away from the oor.
• If installing the PIM400 in a room with metal walls or metal mesh in the walls, a Remote
Antenna Module (ANT400) is required to be located outside of the room.
• Mount the WRI400 upright within a secured area in direct line-of-sight to the PIM400 (or the
antenna module).
• If the WRI400 to be controlled by this PIM400 is outdoors, install the PIM400 indoors
within a secured area on the inside of the building’s outer wall nearest the gate. Use a
remote antenna with the PIM400 and mount the antenna on the outside the building in
direct line-of-sight to the WRI400(s).
LIf the WRI400 is mounted on a metal wall or wall with metal mesh, refer to page
9 for installation instructions.
• If a site uses more than one WRI400, install a PIM400 within direct sight of WRI400s
under its control. Maximum line-of-sight distance is 1000 feet (305 meters)* between
any WRI400 and PIM400. If necessary, use a separate PIM400 for each WRI400.
• Obstructions between the WRI400’s antenna and the PIM400’s antenna will decrease
the distance that they may be placed apart.
Direct Line of Sight
*Maximum 1000 feet
(305 meters)
WRI400
PIM400
Building
Outside
Wall
Minimum
6 feet
(1.8 meters)
Gate
Remote
Antenna
Module
(ANT400)
*Use of high-gain antenna (ANT400-REM-I/O+6DB) will improve range.
8 • Schlage • WRI400 user guide
Elevator applications
LThe following elevator applications pertain to access control and not elevator control.
Follow the mounting location guidelines below for reliable performance between the WRI400
and PIM400 when used to control a typical cabled hoist or hydraulic elevator.
Cabled hoist machine installations with upper machine rooms:
• Mount the WRI400 on top of the cab, lying down if possible.
• Mount the PIM400 inside a secured area, e.g., within the secured elevator machine room.
• If required, mount a Remote Antenna Module (ANT400) on the ceiling of the shaft.
• Locate the PIM400 within range of the antenna module’s coax cable (15 cable feet
(4.5 meters)).
• Mount the antenna module with direct line-of-sight to the WRI400 throughout the entire
travel of the cab through the shaft. Ensure that structural members do not obstruct
line-of-sight to the WRI400.
Cabled hoist machine installations with lower machine rooms:
• Use a Remote Antenna Module (ANT400) with the PIM400 to prevent contamination of
the PIM400 from settled dust, oil, and debris.
Hydraulic machine installations
• Mount the WRI400 on the underside of the cab.
• Locate the PIM400 in a secured area, outside the shaft pit, where it will be free of
contamination from oil.
• If required, use a Remote Antenna Module (ANT400) with the PIM400.
• Locate the PIM400 within range of the antenna module’s coax cable (15 cable feet
(4.5 meters)).
• Mount the antenna module horizontally in the shaft pit, at a height where oil leakage and
debris cannot submerge it.
• The antenna module must have direct line-of-sight to the WRI400 throughout the entire
shaft. Ensure that structural members, including the ram, do not obstruct line-of-sight
to the WRI400.
Direct
Line
of
Sight
WRI400
PIM400
Elevator Cab
Remote
Antenna
UL listed
Card
Reader
Elevator
Shaft/Pit
Elevator
Machine
Room
Direct
Line
of
Sight
WRI400
PIM400
Elevator Cab
Remote
Antenna
Elevator
Shaft/Pit
Ram
Cabled Hoist Elevator Hydraulic Elevator
9 • Schlage • WRI400 user guide
Weather-tight installation of the WRI400
A NEMA 4X certied cable gland should be used for a weather-tight installation when wires
enter or exit the WRI400.
The Bud Industries cable gland (part number N4-CG) is recommended (www.budind.com).
An appropriate cable gland should consist of: a black molded nylon body, a hex nut and a
cable nut with a rubber gasket and cable seal.
Choose the appropriate cable gland size depending on the number and type of cables used
in each installation.
Drill access
hole(s) in this area.
Drill hole(s) in the WRI400
enclosure to accommodate the
size and number of cable gland(s)
to be used.
Typical Cable Gland
Non weather-tight installation of the WRI400
When the WRI400 is located where weather tightness is not required, use cable entry/exit
connectors that comply with local electrical codes (i.e. conduit, etc.).
Drill hole(s) in the WRI400 enclosure to accommodate the size and number of entry/exit
connectors to be used (refer to diagram above).
To avoid damage to electronics inside the enclosure when drilling, use light pressure
so that the bit does not penetrate very far when it breaks through the enclosure, or
remove electronics from the enclosure before drilling.
Mounting the WRI400
Follow these steps to permanently attach the WRI400 enclosure to its desired location.
1. Place the WRI400, cover removed, against the wall in the position where it successfully
linked.
2. Mark the four mounting holes at the corners of the WRI400 housing using the housing
as a template.
3. Remove the WRI400 and drill the four holes, >\cx” diameter drill bit, 1C\v” (44 mm) deep.
4. Orient the WRI400 vertically with the radio board at the top of the enclosure.
5. If the wall does not adequately support the WRI400 wall anchors should be used (not
included).
6. If mounted on a non-metallic surface or where no metal is within 1 inch (25 mm) of
the back of the WRI400, attach the WRI400 directly to the wall using appropriate #8
mounting hardware.
7. If mounted on a metallic surface or where metal is within 1 inch (25 mm) of the back of
the WRI400, attach the WRI400 1 inch (25 mm) from the wall.
8. For a metallic wall installation, a spacer kit is available by contacting Schlage technical
service. (Kit #K381-000-001 includes: four #8 x 1Z\x” screws and four heavy-duty
anchors. Kit #K384-003-001 includes: four #8 x 2Z\x” screws and four 1” round by 1” high
(1” O.D. x 1”) spacers.)
10 • Schlage • WRI400 user guide
Wiring the WRI400 to access control peripherals
The WRI400 will monitor two (2) UL listed credential readers, up to ve (5) status inputs and
control two (2) relays for access control peripherals. Some of the connections are optional
based on the specic application of the WRI400. See WRI400 Cable/wire specications on
page 10 for more information.
Power
The J7 Input Power connection is mandatory. An external, UL294 or ULC S318/ULC S319
listed power supply capable of sourcing at least 500 mA @ 12 or 24 VDC must be provided.
RS-485
J10 RS-485 connection is reserved for future expansion.
Tamper input
SW1 Lid Tamper Switch monitors the state of the WRI400 enclosure door and generates a
tamper trouble signal when the lid is open. When terminals J2-1 and J2-2 are shorted a
tamper trouble signal is sent to the UL listed access control panel.
WRI400 Cable/wire specications
Application Part number AWG Description Maximum distance
DC power input Belden 8760 18 2 conductor 1000 feet (305 meters)
Request to enter Belden 8760 18
2 conductor
shielded
2000 feet (610 meters)
Request to exit Belden 8760 18 2000 feet (610 meters)
Strike relay output Belden 8760 18 2000 feet (610 meters)
Auxiliary relay output Belden 8760 18 2000 feet (610 meters)
Credential reader
tamper Belden 8760 18 500 feet (152 meters)
Credential reader 1
Alpha 1296C 22 6 conductor
shielded 500 feet (152 meters)
Alpha 1298C 22 8 conductor
shielded
Credential reader 2
Alpha 1296C 22 6 conductor
shielded 500 feet (152 meters)
Alpha 1298C 22 8 conductor
shielded
11 • Schlage • WRI400 user guide
+-
+-
C
B+
1
+
+
1
1
GND
GND
IF RADIO BOARD PRESENT
NC
BATT
COIN CELL NOT NEEDED
NC
C
NO
C
NO
PRIMARY SIDE
BEEPER
BEEPER
ALARM
STRIKE
AUX
PWR/
SIDE UP
LINE
GND
RTE
GND
GND
111
1
RED
GRN
GND
DATA\D0
CLK\D1
GND
SWITCH INPUT
CLK\D1
DATA\D0
RED
GRN
READER1 READER2
TAMP2
TAMP1
DPS
RTX
GND
DEBUG
TAMPER
STATUS
RELAY
RX/TX
USB
+12V
+5V
LID
+3.3V
RX
TX
GND
OPEN
A-
1
11
1
1
1
1
1
23394075_C
SCHLAGE
LINK
RESET
TAMPER
GND
20
19
2
1
ICLK
IDAT
RB8
RB7
GND
VDD
MCLR
USB
AA
BATT
LINE
ALR_NC
ALR_C
ALR_NO
AUX
AUX
AUX
STR
STR
STR
RB+
TB+
TA-
RS485
12/24VDC
THIS
MOUNT
LED2
BATTERY_HOLDER1
R112
C61
U4
REL1
J3
J7
REL2
REL3
U5
TP25
TP24
TP23
TP22
TP21
J6
LED1
LED4
LED7
LED5
LED6
LED3
J18
J17
J13
LED8 LED9
C32
J9
J12
J11
J10
J8
S3
S2 S1
J5
J2
J1
Ground
Request to Enter
Ground
Request to Exit
Ground
Door Position Switch
Ground
Reader 1 Tamper
Ground
Reader 2 Tamper
CLK/D1
DATA/D0
Ground
Beeper
Green
Red
CLK/D1
DATA/D0
Ground
Beeper
Green
Red
18 AWG, 1000 feet
max run length
If required by
local code or site
requirement, run
shielded cable
through grounded
conduit.
12 or 24 VDC 500 mA
+−
Earth
Ground
WRI400
Power Supply
Reader 2Reader 1
Portal Status Signals
Earth
Ground
Portal Output Connections
J13
Switch Inputs
J10 Reserved
J17 Reader 1 J18 Reader 2
Typical WRI400 to readers and portal wiring diagram
12 • Schlage • WRI400 user guide
Portal inputs
Request to Enter, Request to Exit, and Door Position Switch are designed to be dry contact
switches tied to Ground when the switch is closed.
Reader 1 Tamper and Reader 2 Tamper are designed to be dry contact switches tied to
Ground when the switch is closed, OR a signal level input for 5V logic. Any voltage greater
than 5V may cause damage to either the WRI400 or the reader.
Connect the shield of the portal input cables to the appropriate WRI400 GND terminal.
LTo ensure proper integration with the ACP, the switch input may be changed from
the default condition using the Schlage Utility Software (SUS) on the HHD.
Switch input terminal Description Default condition
GND J13-1 Ground Electrical ground (common) for the
WRI400.
RTE J13-2 Request
to enter
When the switch opens or closes, the
WRI400 will send a Request to Enter
status signal to the ACP.
Switch closed
(GND) = Request to
Enter
GND J13-3 Ground Electrical ground (common) for the
WRI400.
RTX J13-4 Request
to exit
When the switch opens or closes, the
WRI400 will send a Request to Exit
status signal to the ACP.
Switch closed
(GND) = Request
to Exit
GND J13-5 Ground Electrical ground (common) for the
WRI400.
DPS J13-6
Door
position
switch
When the switch opens or closes to
GND, the WRI400 will send a door
position switch status signal to the ACP.
Switch closed
(GND) = Door
Closed
GND J13-7 Ground Electrical ground (common) for the
WRI400.
TAMP1 J13-8 Reader 1
tamper
When a signal level input is used,
connect the wire to TAMP1
OR
When a dry contact switch is used,
connect one wire to TAMP1 and the other
to Pin 7 (GND).
Signal low or switch
closed (GND) =
Reader 1 Tamper
GND J13-9 Ground Electrical ground (common) for the
WRI400.
TAMP2 J13-10 Reader 2
tamper
When a signal level input is used,
connect the wire to TAMP2
OR
When a dry contact switch is used,
connect one wire to TAMP2 and the other
to Pin 9 (GND).
Signal low or switch
closed (GND) =
Reader 2 Tamper
13 • Schlage • WRI400 user guide
Portal outputs
The two (2) optional portal outputs consist of strike output and auxiliary output. These are
Form C type relay outputs with common, normally open and normally closed contacts.
• The default conguration of the strike relay is as follows:
• When the strike relay is de-energized the portal is assumed to be secure.
• When the strike relay is energized the portal is assumed to be unsecure.
Accordingly, the appropriate side of the relay contact (normally open/normally closed)
must be used to ensure that when the relay is de-energized the portal is locked, and
when the relay is energized the portal is unlocked. The aux relay is de-energized by
default.
Both the strike and aux relay outputs can be congured by the SUS on the HHD.
Relay output terminal Description
STR_NO J6-1 Strike normally open The strike relay is capable of switching up to a
6 Amp resistive load at 24 VDC, 6 Amp at 120
VAC or 3 Amp at 240 VAC.
STR_C J6-2 Strike common
STR_NC J6-3 Strike normally closed
AUX_NO J6-4 Auxiliary normally open The aux relay is capable of switching up to a
2 Amp resistive load at 24 VDC or 0.5 Amp at
120 VAC.
AUX_C J6-5 Auxiliary common
AUX_NC J6-6 Auxiliary normally closed
ALR_NO J6-7 Alarm normally open
Not used in the WRI400.ALR_C J6-8 Alarm common
ALR_NC J6-9 Alarm normally closed
A transient suppressor must be installed with every electrical device switched
through a portal output relay contact.
Refer to the Portal output suppression diagram on page 14.Follow the UL listed
electrical lock/load manufacturer’s recommendation for suppression of magnetic/inductive
loads. Use a properly rated transient voltage suppression (TVS) diode (or silicon avalanche
diode). Install the suppressor within 18 inches (46 cm) of the switched electrical load.
14 • Schlage • WRI400 user guide
LPortal outputs must utilize a dedicated shielded cable to prevent transient
contamination of other WRI400 signal wiring. Do not run portal output wires in
the same cable or conduit as any other WRI400 wiring. Connect the shield of the
portal output cables to the appropriate earth ground terminal of the electrical
lock/load or auxiliary load power supply. The shield SHOULD NOT be connected
at the WRI400.
Transient
Suppressor
Portal
Relay or
Solenoid
UL Listed
Power
Supply
_
+WRI400
NC or NO depending on
fail safe/fail secure configuration
Common
Portal output suppression diagram
15 • Schlage • WRI400 user guide
Credential readers
An input device with either Wiegand (Data1/Data0) or magnetic (clock and data) bit stream
can be used with the WRI400. The WRI400 provides two separate credential reader
interfaces.
Connect the shield of the Reader 1 cable to the WRI400 J17-3 terminal (GND). Connect the
shield of the Reader 2 cable to the WRI400 J18-3 terminal (GND). Do not connect the cable
shield at the credential reader.
LReader input ports are designed for 5V logic. Any voltage greater than 5V may
cause damage to either the WRI400 or the readers.
The WRI400 does not provide power to the readers. Power must be provided to the
readers separately by a UL listed power supply.
The WRI400 may not provide complete control of the reader’s beeper or LEDs. Please
consult with your reader’s manufacturer for instruction on reader conguration.
Reader 1
terminal
Reader 2
terminal Description
CLK/D1 J17-1 J18-1 Credential reader inputs: Each input line is pulled to GND
through a 12V transient suppressor and a 2 mega-ohm
resistor.
Wiegand or magnetic format is automatically detected.
DATA/D0 J17-2 J18-2
GND J17-3 J18-3 The signal ground of the WRI400 must be tied to the
signal ground at the reader.
BEEPER J17-4 J18-4
Beeper signal line connection to the reader.
This is an “open collector” style output and has a 12V
transient suppressor to GND.
The output is switched to GND through a 100 Ohm
resistor to activate the beeper on the reader.
NOTE: Most readers beep independently, and beeper
performance depends on the specic reader model.
GRN J17-5 J18-5
Green LED signal line connection to the reader.
This is an “open collector” style output and has a 12V
transient suppressor to GND.
The output is switched to GND through a 100 Ohm
resistor to activate the green LED on the reader.
RED J17-6 J18-6
Red LED signal line connection to the reader.
This is an “open collector” style output and has a 12V
transient suppressor to GND.
The output is switched to GND through a 100 Ohm
resistor to activate the red LED on the reader.
16 • Schlage • WRI400 user guide
Power failure modes
The installer may congure the strike and/or auxiliary relay status (with SUS on the HHD) for
the possible event of power failure.
The default power failure mode is fail secure (locked).
To maximize security, a valid credential must be presented before any change to the
strike relay can take eect.
• For the system to fail secure, the secure mechanism must be tied to the normally
closed side.
• For fail secure, UL listed panic hardware must be used to allow emergency exit from
the protected area.
• To fail safe (unlocked), the secure mechanism must be tied to the normally open side
and the SUS must also be congured to enable fail safe mode. Strike and auxiliary
relays need not be congured the same.
• Third party locking devices must have some form of uninterruptible power supply for the
WRI400 to control their power failure mode.
17 • Schlage • WRI400 user guide
Handheld device (HHD)
The HHD can be used to congure WRI400 settings.
For information about the HHD and WRI400 settings, see the Schlage Utility Software (SUS)
User Guide at www.allegion.com/us.
To connect the HHD to the WRI400:
1. Verify power is connected to the WRI400.
2. Loosen the 4 screws and remove the WRI400 cover. The power LED should blink when
the cover is o. The WRI400 will signal tamper to the access control panel while the
cover is o.
3. Log in to the SUS software. (Refer to the SUS User Guide for log-in procedure.)
LMake sure the HHD connection type is set to “USB Connection”.
4. Connect the HHD to the WRI400 USB port (J5). The WRI400’s USB LED will blink green.
+-
+-
C
B+
1
+
+
1
1
GND
GND
IF RADIO BOARD PRESENT
NC
BATT
COIN CELL NOT NEEDED
NC
C
NO
C
NO
PRIMARY SIDE
BEEPER
BEEPER
ALARM
STRIKE
AUX
PWR/
SIDE UP
LINE
GND
RTE
GND
GND
111
1
RED
GRN
GND
DATA\D0
CLK\D1
GND
SWITCH INPUT
CLK\D1
DATA\D0
RED
GRN
READER1 READER2
TAMP2
TAMP1
DPS
RTX
GND
DEBUG
TAMPER
STATUS
RELAY
RX/TX
USB
+12V
+5V
LID
+3.3V
RX
TX
GND
OPEN
A-
1
11
1
1
1
1
1
23394075_C
SCHLAGE
LINK
RESET
TAMPER
GND
20
19
2
1
ICLK
IDAT
RB8
RB7
GND
VDD
MCLR
USB
AA
BATT
LINE
ALR_NC
ALR_C
ALR_NO
AUX
AUX
AUX
STR
STR
STR
RB+
TB+
TA-
RS485
12/24VDC
THIS
MOUNT
LED2
BATTERY_HOLDER1
R112
C61
U4
REL1
J3
J7
REL2
REL3
U5
TP25
TP24
TP23
TP22
TP21
J6
LED1
LED4
LED7
LED5
LED6
LED3
J18
J17
J13
LED8 LED9
C32
J9
J12
J11
J10
J8
S3
S2 S1
J5
J2
J1
J5
USB
LThe WRI400 is communicating with the HHD when the USB LED blinks green and
the HHD display indicates “WRI400” at the bottom of the main screen. The SUS is
now ready to view the WRI400 settings.
5. To Edit Settings or Update Firmware on the WRI400, the SUS software and the WRI400
must be coupled. Follow the steps below to couple the WRI400 and the HHD.
Coupling with the HHD
1. On the WRI400, press and hold the Schlage button while pressing the LINK button three
(3) times within 5 seconds.
+-
+-
C
B+
1
+
+
1
1
GND
GND
IF RADIO BOARD PRESENT
NC
BATT
COIN CELL NOT NEEDED
NC
C
NO
C
NO
PRIMARY SIDE
BEEPER
BEEPER
ALARM
STRIKE
AUX
PWR/
SIDE UP
LINE
GND
RTE
GND
GND
111
1
RED
GRN
GND
DATA\D0
CLK\D1
GND
SWITCH INPUT
CLK\D1
DATA\D0
RED
GRN
READER1 READER2
TAMP2
TAMP1
DPS
RTX
GND
DEBUG
TAMPER
STATUS
RELAY
RX/TX
USB
+12V
+5V
LID
+3.3V
RX
TX
GND
OPEN
A-
1
11
1
1
1
1
1
23394075_C
SCHLAGE
LINK
RESET
TAMPER
GND
20
19
2
1
ICLK
IDAT
RB8
RB7
GND
VDD
MCLR
USB
AA
BATT
LINE
ALR_NC
ALR_C
ALR_NO
AUX
AUX
AUX
STR
STR
STR
RB+
TB+
TA-
RS485
12/24VDC
THIS
MOUNT
LED2
BATTERY_HOLDER1
R112
C61
U4
REL1
J3
J7
REL2
REL3
U5
TP25
TP24
TP23
TP22
TP21
J6
LED1
LED4
LED7
LED5
LED6
LED3
J18
J17
J13
LED8 LED9
C32
J9
J12
J11
J10
J8
S3
S2 S1
J5
J2
J1
Link
button
Schlage
button
2. The USB LED will blink red and green. On SUS, select the option “Couple HHD to
Device”. SUS will report when coupling is successful.
3. Successful coupling will be indicated on the WRI400 with a blinking green USB LED.
18 • Schlage • WRI400 user guide
Construction access mode
Construction access mode is used to allow access before the WRI400 has been linked to a
PIM400, and for testing purposes.
To program a master construction credential:
1. Remove the WRI400 cover.
2. Press and hold the Schlage button.
3. Present a credential to the reader within 5 seconds of
pressing the Schlage button.
4. The debug LED will blink green 5 times.
5. This credential becomes the Master Construction
Credential.
LIf the credential is not presented within 5 seconds
timeout will occur. Repeat steps 2-5 above.
To program construction access user credentials:
The Master Construction Credential must be programmed
before programming construction access user credentials.
1. Present the Master Construction Credential to the reader.
2. The debug LED will light green for 20 seconds.
3. Present the credential to be programmed within 20
seconds.
Construction access mode is cancelled by any one of the
following actions:
• Couple the WRI400 to the HHD.
• Link the WRI400 to the PIM400.
• Reset the WRI400 to factory defaults.
Note: Construction access mode is intended for use during construction of the site.
Construction Access Mode shall not be used once construction has been completed, and the
WRI400 must be linked to the PIM400.
Link the WRI400 to a PIM400
The WRI400 and PIM400 must be linked for programmed credentials to function.
LMake sure the PIM400 is in link mode. Refer to the PIM400 user guide for more
information.
1. Make sure power is connected to the WRI400.
2. Remove the WRI400 cover.
3. Press and hold the WRI400’s LINK button until the RX/TX LED blinks red and green.
4. When linking is successful the RX/TX LED will blink to indicate the quality of the RF link.
RX/TX LED Link quality
Solid green, fast green blinks, or green with very few red blinks Good link
Solid red or fast red blinks Poor or no link
LThe WRI400 will fail to link if it is not in RF range of the PIM400. Refer to PIM400
and WRI400 location on page 5 for distance specications.
LRefer to Troubleshooting on page 20 for more information on linking.
5. Once successfully linked to the PIM400, the WRI400 will signal tamper to the access
control panel until the WRI400 cover is replaced.
TIPS
Use the same Master
Construction Credential for
all the readers in the facility.
If you present the rst
card to a new WRI400’s
reader to create the Master
Construction Credential and
the card is not accepted,
the WRI400 has either been
programmed or already
has a Master Construction
Credential.
If the Master Construction
Credential cannot be
located, reset the WRI400
to factory settings. See
Reset to factory defaults on
page 19.
19 • Schlage • WRI400 user guide
Reset to factory defaults
All information in the WRI400 will be deleted and reset to factory defaults!
1. Remove the WRI400 cover.
The WRI400 will signal tamper to the access control panel while the cover is o.
2. Press and hold both the Schlage and link buttons for three (3) seconds.
3. Upon completion of factory default reset the WRI400 debug LED will blink green
for one second, and the WRI400 will signal the reader’s LED to blink green for one
second and the beeper to sound.
4. Replace the cover.
Test
Test the WRI400 with power applied
1. The lid tamper LED will blink green when the WRI400 cover is removed and will light
solid green when the lid tamper switch is pressed.
2. Most readers are designed to function independently of the WRI400. If the reader’s LED
and beeper performance is irregular or unexpected, refer to the instructions that came
with the reader.
Schlage button test
LPerforming the Schlage Button Test will not result in the loss of any WRI400
settings or programming changes.
1. While holding the Schlage button, press and release the reset button.
2. All relays, on-board LEDs, reader LEDs and reader beeper will be active while the
Schlage button is pressed.
WRI400 in construction mode
1. After programming a Construction Credential (refer to page 18), present a valid
Construction Credential to the reader.
2. The WRI400 strike relay will activate for the length of the default relock delay. The aux
relay will not activate.
WRI400 linked to PIM400 and communicating with ACP
1. Present a valid credential to the reader.
2. The WRI400’s strike relay and strike LED will activate for the relock delay.
LA valid credential will not activate the AUX relay unless the ACP has given the
credential authorization to do so.
3. If an invalid credential is presented to the reader, the WRI400’s RX/TX LED will blink
red twice.
LThe ACP may be capable of indicating the WRI400 status for the following:
- Lid tamper
- Request to enter
- Request to exit
- Door position switch
Default settings for the above inputs can be congured using the HHD and/or the ACP.
20 • Schlage • WRI400 user guide
Troubleshooting
Problem
Problem
indication Solution
WRI400 is not
operating
No blink from
PWR/TAMPER
LED
Conrm connection to external power supply. See
Wiring the WRI400 to access control peripherals on
page 10.
The PWR/TAMPER LED should ash green when the
WRI400 is powered and the cover is removed.
WRI400 to
PIM400 linking
is unsuccessful
Four RED blinks at
the end of a LINK
attempt
No data is getting
to the ACP
No data is getting
to the PIM –
diagnostics do not
show DOOR status
Check the distance between the WRI400 and the
PIM400. Maximum distance is 200 feet (61 meters).
The WRI400 and the PIM400 must be located on the
same oor of the building.
Make sure the PIM400 is in link mode before
attempting to link to the WRI400. See Link the
WRI400 to a PIM400 on page 18.
A remote antenna module connected to the WRI400
and/or the PIM400 will improve RF communication.
See PIM400 and WRI400 location on page 5.
NOTE: Two short red blinks from the RX/TX is normal
for an unauthorized card.
The credential
reader is not
operating
properly
The WRI400
STRIKE Relay/LED
is not activated
when a card or
keypad credential
is presented
Conrm that the four connections required for basic
operation readers are properly connected: Power,
Ground, CLK/D1 and DATA/D0.
Conrm that CLK/D1 and DATA/D0 wiring is not
reversed.
Consult the reader’s user guide and conrm that the
reader has specied power.
The reader’s
beeper and/or LED
is not functioning
as expected
The WRI400 may not control or congure the
reader’s beeper or LED settings.
Consult the reader’s user guide for more information
on conguring the reader’s beeper, or the reader’s
LED patterns.
HHD is not
communicating
with the
WRI400
No USB LED
HHD display
reads “No Device
Connected”
Make sure the USB connector is properly connected.
The USB LED will blink green.
Set the HHD connection type to “USB”.
See Handheld device (HHD) on page 17.
Unable to
congure
settings with
HHD
HHD display reads
“Your HHD is not
authenticated to
perform this action”
Check that the HHD is properly coupled to the
WRI400.
See Handheld device (HHD) on page 17.
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