The 242eM keypad features the most flexibility and options available in a self-contained unit. It has an accessory relay board that
provides an additional three relays. It can perform access control
functions and also its four relay outputs can be assigned independently for timed operation or to latch. The 242eM keypad can
control up to four devices, and is perfect for controlling electronic
locking devices, security systems, CCTV systems, automatic operators, or machinery.
The 212eM keypad features a single-relay output to control any device requiring an on/off switch. The output is timed or latched
and operated by a user’s PIN code. Additionally, the 212eM keypad provides basic keyless entry by controlling a door locking devicewheresecurityisnotanissue.
All eM style keypads are designed for both indoor and outdoor
flush mount applications. The electronics for each keypad are conformal coated in the manufacturing process in order to provide
this level of application flexibility. In addition, each keypad uses
metal keys to assure long-term, high-quality performance. All eM
style keypads mount to any standard single-gang electrical box or
directly to any wall.
NOTE: This manual covers both 212eM and 242eM. All features
referring to the additional relays and outputs are available only
on the 242eM model.
To prevent tampering, a tamper switch can be installed in the single gang box used for mounting the keypad. The tamper switch
must activate if the keypad is removed from the box and must disconnect power from the lock. The lock must be a fail-secure device, meaning the lock remains locked when power is removed. In
addition, once the tamper device is activated, it must be configured
so that it can only be reset from within the protected area. Only a
Sentrol 3012 or Sentrol 3025T tamper switch can be used. The diagrams on the next page show the suggested mounting location for
each device.
3.1 IEI Tamper Power Supplies
IEI access system power supplies are designed specifically for access control applications. Two models are available: board level
and in a cabinet. Both feature a tamper circuit with a reset button
mounted on the circuit board. Using the tamper switch as detailed
and connected to the power supply tamper circuit, unauthorized
opening of the case or prying the unit off the wall triggers this tamper loop, thus preventing the lock from being released until the reset button is pressed.
How to Order
•Access power supply with tamper circuit - in cabinet:
0291200
•Access power supply with tamper circuit - board level:
Thekeypadisdesignedtobeflushmountedusingastandardsinglegang electrical box. In addition, itcanbeflushmounteddirectlyto
the wall surface by cutting a hole in the wall. To properly size the
mounting and wire access hole, use the installation template on the
last page in this manual and on the unit’s container.
Mounting height can vary depending on requirements. An appropriate range is typically between 48 and 52 inches on center off the
floor.
For outdoor installations, use a weatherproof backbox and seal the
wire entry locations with silicone and provide a drain hole. In addition, use the anti-oxidant grease pack for the wire harness connectors.
5.5 Wiring Remote Trigger as Request to Exit
(REX) Button and Door Contacts
Use the following steps to connectthekeypadtoanormallyopen
REX device and normally closed door switch:
1.Connect the brown wire (REX Input) to the normally open
connection the REX device.
2.Connect the white/orange (loop common) to the common on
theREXdeviceandthecommonthedoorswitch.
3.Connect the white wire (door loop) to the normally closed
connection on the door switch.
Figure 8 Wiring a REX Button and Door Contacts
NOTE: By default, the REX function operates the virtual lock output only, but this can be changed using command 49. In addition,
the door loop does not need to be closed for the REX function to
operate, by default, but setting option 8 to 0 under command 30
programs the REX function to operate only when the door loop is
closed. This prevents the REX from re-triggering when the door is
open.
Theaccessoryrelayboardcontainsphysicaloutputs2,3,and4
shown in the table below.
Physical OutputRelayConnector
2K2P1
3K3P2
4K4P3
Use the wire harnesses supplied with the relay board to connect to
therelays.Thewirecolorsareshowninthetablebelow.
Wire ColorRelay Connection
GrayNormally Closed
BlueCommon
GreenNormally Open
5.7 Wiring an Integrated Access Control
System Using t he Accessory Relay Board
Physicaloutputs2,3,and4aredefaulted to the alarm shunt,
propped door, and forced door virtual outputs, respectively. Use the
following steps to wire the ala rm shunt, propped door alarm, and
forced door alarm.
There are two options for plugging the relay board onto the keypad, depending on the installation. For flush mount applications,
plug the relay board onto P3 horizontally, as shown in Option 1 below. If the keypad is mounted using a surface mount backbox, use
the right angle connector included in the backbox. First insert the
right angle connector into S3 on the relay board; then plug the connector onto P3 on the keypad. This is shown in Option 2 below.
Use the included tie wrap to bundle all the wires together from the
keypad wire harness and relay board.
NOTE: You MUST wire a normally closed door switch, as
shown in Figure 6, for these functions to work properly.
1.(Wiring the alarm shunt) Using P1 (K2), connect the blue
wire (common) to common on the door switch. Connect the
green wire (normally open) to the normally closed contact on
the door switch.
2.(Wiring the propped door alarm)UsingP2(K3),connectthe
green wire (normally open) to the positive on the alarm
device.Connectthebluewire(common)tothepositiveon
the power supply. Connect the negative on the alarm device
to the negative on the power supply.
3.(Wiring the forced door alarm)UsingP3(K4),connectthe
green wire (normally open) to the positive on the alarm
device.Connectthebluewire(common)tothepositiveon
the power supply. Connect the negative on the alarm device
to the negative on the power supply.
Figure 12 Wiring an Integrated Accessory Relay Board
After installing the keypad, IEI recommends that you perform the
keypad self-test once a year, to ensure that the keypad works properly.
1.To perform the self-test, with the unit powered up, press the
following keys on the keypad:
7890#123456*
•If all 12 keypresses are accepted, the keypad enters self-test
mode.
•The LEDs alternate green, yellow, and red followed by the
sounder beeping three times.
2.Verify that the master code works correctly. (The master code
accesses program mode and activates the main relay to verify
that the locking device is working.)
To program the keypad, you must first enter program mode by
pressing 99 # Master Code *. The default Master Code is 1234.
NOTE: If auto-entry is enabled, the*keyisnotusedtoenter
Program mode.
To change the Master Code, enter:
1 # new Master Code * new Master Code *
7.1 Programming Order
To ensure that the keypad is programmed properly in the initial
installation, program the keypad in the following order:
•Step 1: Assigning Virtual Outputs to Physical Outputs
•Step 2: Programming Output Time Durations
•Step 3: Programming Users
•Step 4: Programming Keypad Options
7.2 Assigning Virtual Outputs to Physical
Outputs
The keypad is equipped with eleven Virtual Outputs and six Physical Outputs. Virtual Outputs are functions that you can
assign to operate any Physical Output. Physical Outputs include
the main relay, the three relays on the accessory relay board, and
the two audio alerts.
•Using command 10, you can assign any Virtual Output to
any Physical Output or disable a Physical Output.
•Each Physical Output can only have one Virtual Output
switch is opened without entering a valid
user code or using the REX feature.
These four independently controlled outputs
are activated by user codes programmed to
activate multiple outputs and the REX
function. See programming commands 59
and 49 in the Programming section.
The duress output is activated when a
duress user enters their code. See Duress
User in the Programming section.
Panicisactivatedbypressingthe* and #
keys at the same time. This is used in case
of emergency to activate an auxiliary device
andshouldnotbeusedtogainaccess.
The Keypad Active output is activated when
any key is pressed. Do not use this output
to gain access.
7.2.2 Audio Alerts
Audio Alerts are produced by the local sounder on the keypad
and can be used as a local propped door alarm or forced door
alarm to free up the other relays for other functions.
•Alert #1 is a constant quick beep (¼ second on and ¼ sec-
ond off).
•Alert #2 is a short beep (100 ms) every two seconds.
•Alert #1 takes priority over Alert #2.
7.2.3 Programming REX Outputs
49#outputlist#0#**
(Use this command to program which outputs the REX operates.
1=LOCK,2=OUT2,3=OUT3,
4=OUT4,and5=OUT4.)
number of time units to operate OUTn when
valid PIN entered (1 through 255)
12#1#10#(for ten seconds)
number of seconds in each time unit
(prescaler)
12#15#1#(for fifteen seconds)
44 # time # 0 # * *
Propped Door Time - rounded down to
nearest 10’s of seconds; entered as 00, 10
through 990, defaults to 30 seconds;
entering a time of zero disables the propped
door function
Command 45. Set
Forced Door Time
Options:
time
Document # 6174000, Rev. 1.119
45 # time # 0 # * *
Forced Door Time - rounded down to
nearest 10’s of seconds; entered as 00, 10
through 990, defaults to 10 seconds;
entering a time of zero latches the virtual
forced door that can be cleared with any
valid PIN or by entering program mode
0 - duress output duration1 through 255 (defaults to 5)
1 - panic output duration1 through 255 (defaults to 5)
2 - error lockout threshold1 through 50 (defaults to 3)
3 - error lockout duration1 through 255 (defaults to 10)
32 # parameter # values # * *
7.4 Programming Users
Command/ActionKeys to Enter/Details
User #1 is the master code; it can a ccess all
commands in program mode. The default
Master Code
Supervisor Code
Add Standard User
(short version)
Add User with
Specific Unlock Time
Delete Useruser location # * *
code is 1234. The master code can be
programmed with command 50 or command
60 as a standard user only.
User #2, when programmed, is the supervisor
code. The supervisor can a ccess program
mode, but is limited to adding and deleting
users, as well as enabling or disabling users.
The supervisor code can not change, delete,
or disable the master code or supervisor code
itself.
user location # code * code *
unlock time # user location # code * co de *
(This command is used to program a user
with a specific unlock. This user activates the
virtual lock output.)
Toggle UserA toggle user latches the virtual lock output.
Standard User
Lockout User
Single Use Code
Emergency User
60 # type # location # code * code *
(codes can be from 1 to 10 digits in length)
User Types
0 - Toggle User
1-StandardUser
3 - Lockout User
5 - Single Use Code
7 - Emergency User
8-DuressUser
9 - Two-Part User Type A
10 - Two-Part User Type B
Activates the virtual lock output using the lock
duration programmed with command 11.
This user type locks out users in user locations
higher than the lockout user when the lockout
user code is entered. For example, if the lockout
user is programmed for user 20, any user in
location 21 to 120 is locked out and their codes
no longer work to gain access. A lockout is
removed by entering the same lockout code. If
another lockout code in another user location is
entered, the lockout user location level is set to
the new lockout user location. The master code
and emergency users can not be locked out.
The current lockout is cleared when program
mode is entered. “Lockout activated” is indicated
by two double beeps. “Lockout canceled” is
indicated by one double beep.
“Access denied due to lockout” is indicated by 1
long beep followed by 3 short beeps.
“User lockout” can be enabled or disabled with
command 30.
This code can only be entered once to gain
access using the lock virtual output. Once used,
this code is no longer active. A single use code
can be verified by entering 5 # code *. If the
code is a single use code, the green LED flashes
for ½ a second. An “invalid code” is indicated by
3 quick beeps.
This user type is a standard user that can not be
locked out by a lockout user.
duress virtual outputs. This allows you to trigger
another device silently, such as an alarm, and
still gain access in case of an emergency.
When the two-part user option is enabled, two
codes are required to gain access. A “Two-Part
Type A” and “Two-Part Type B” user must enter
their code (not necessarily in that order). After
the first code is entered, the LED alternates
between red and green, indicating another code
is required. The second code must be entered
within 15 seconds of the first code. When two
codes of the same type are entered, a type
mismatch is indicated by 5 beeps. When
Two-Part User is disabled, all Type A and B user
codes are converted to standard user codes.
Two-Part users activate the virtual lock output.
Two-Part Users can be enabled or disabled with
command 30.
Command 56.
Enable/Disable User
Options:1 = Disable
Command 59.
Program users to
operate virtual outputs
OUT2, OUT3, OUT4,
and OUT5 as well as
the virtual lock output.
56 # enable/disable # user location # * *
0 = Enable
The master code and supervisor code
cannot be disabled.
59 # output list # location # code * code *
(Use this command to operate multiple outputs
and the virtual lock output using a single code.
This is useful when you want to operate a
separate device while unlocking the door and
still use some of the access control features
such as alarm shunt, propped door, forced door
and REX.
The output list is specified by entering the
output(s) you want the code to operate.
1 = LOCK, 2 = OUT2, 3 = OUT3,
4=OUT4,and5=OUT5.
0 - audio keypress feedback0=disabled, 1=ENABLED
1 - visual keypress feedback0=disabled, 1=ENABLED
2 - auto-entry enable0=DISABLED, 1=enabled
3 - error lockout0=disabled, 1=ENABLED
4 - user lockout0=disabled, 1=ENABLED
5 - two-part users0=disabled, 1=ENABLED
8 - REX operation0=only when door loop closed
Defaults are in bold.
Auto-entry
30 # option # enable/disable # * *
1=always
When auto-entry is enabled, users with codes
the same length as the master code do not have
to press the * key after entering their code. If
you have a code greater than the master code,
you can use Auto-Entry Suspend. Just enter the
# key prior to your code followed by the * key.
Example:
# 23456 * if the master code is four digits.
If auto-entry is enabled, the * key is not used to
enter Program mode.
When enabled, the keypad keeps track of the
number of consecutive invalid codes entered,
including attempts to access program mode.
When the threshold is reached, the yellow LED
Error Lockout
Command 40. Reset
defaults only.
Command 46. Erase
Users and Reset
Default Settings.
turns on solid and the keypad no longer
responds to key presses for the programmed
time duration. The count is reset by entering a
valid code, including entering program mode.
The error lockout threshold and duration is
programmed with command 32.
40 # 00000 # 00000 # ** (master code, all
keypad options and parameters)
Refer to this section if the 212eM/242eM keypad is not operating correctly as described in this manual.
ProblemSolution
The 212eM/242eM keypad is designed to
The LEDs are slowly
cycling from right to
left and backlighting is
off.
The LEDs are rapidly
cycling from left to
right and the keypad
has lost all operation.
Themastercodedoes
not work.
No LEDs are lit on the
keypad
DEALERS/INSTALLERS ONLY! End users must contact dealer/installer for support. If the 212eM/242eM Keypad still does not work
after troubleshooting, please call IEI’s technical support department at 1-800-343-9502 (outside MA) or 1-800-733-9502 (inside MA).
Operating hours are Monday through Friday from 8:00 A.M. to 7:00
P.M. Eastern Standard Time.
24Document # 6174000, Rev. 1.1
monitor the input voltage and this is an
indication of under-voltage. The under-voltage
threshold is set to 8.5VDC, and when the voltage
drops below this limit, the low voltage warning
starts and backlighting is turned off. To solve,
raise the voltage to between 12-24V.
The 212eM/242eM keypad is designed to
monitor the input voltage, and this is an
indication of over-voltage. The over- voltage
threshold is set to 36VDC, and when the voltage
rises above this limit, the over-voltage warning
starts and the keypad loses all operation. To
solve, lower the voltage to between 12-24V.
Perform the programming mode loopback and
reset the master code using the programming
command.
Power is not reaching the keypad. Using a
voltmeter, confirm that there is voltage at the
keypad on the red and black wires. If there is no
voltage at the keypad, verify that there is voltage
at the power supply. If there is no voltage at the
power supply, call the manufacturer of the power
supply. If there is voltage at the power supply
but not at the keypad, verify there is no break in
the wires, then check continuity in the whole
length of the wire run. To verify that the keypad
is working, you can power the keypad with a
12-Volt Battery.
If the master code is either not working or forgotten, power
down the system, connect the wire harness as shown in Figure 13
below, and then power the system up again. Next, change your
master code and power down the system and restore the wire harness to its original configuration and power the system back up.
Figure 13 Programming Mode Loopback Standalone
First, disconnect power from the system. Next, connect the
White/Yellow wire to the Brown (REX) and White (Door Loop)
wire as shown in Figure 13, and then power up the keypad again.
International Electronics Inc. (IEI) warrants its products to be free
from defects in material and workmanship when they have been
installed in accordance with the manufacturer’s instructions and
have not been modified or tampered with. IEI does not assume
any responsibility for damage or injury to person or property due
to improper care, storage, handling, abuse, misuse, normal wear
and tear, or an act of God.
IEI’s sole responsibility is limited to the repair (at IEI’s option) or
the replacement of the defective product or part when sent to IEI’s
facility (freight and insurance charges prepaid) after obtainingIEI’s Return Material Authorization. IEI will not be liable to the
purchaser or any one else for incidental or consequential damages
arising from any defect in, or malfunction of, its products.
Except as stated above, IEI makes no warranties, either expressed
or implied, as to any matter whatsoever, including, and without
limitation to, the condition of its products, their merchantability, or
fitness for any particular purpose.
Warranty Periods Are:
1YearPowerKey
2 YearsDoor Gard & Secured Series
Products
2 YearsLS Series
2 YearsGlass Break
5 Years‘e’ and ‘eM’ Series Keypads
Allproductshavedatecodelabelingtodeterminethewarrantyperiod.A
90-day grace period is added to all products to account for shelf life.
26Document # 6174000, Rev. 1.1
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