dormakaba Apexx Series IP-Connected Safe Locks Installation Guide

June 15, 2024
dormakaba

dormakaba Apexx Series IP-Connected Safe Locks

dormakaba-Apexx-Series-IP-Connected-Safe-Locks-PRODUCT

Product Information

Apexx Series Keypads Axessor Apexx

The Apexx Series Keypads Axessor Apexx is a keypad system designed for use with safe locks. It provides secure access control for safes and features various power options for flexible installation.
The keypad emits radio frequency emissions and should be installed with a minimum distance of 7.9 inches (20 cm) between the device and the user’s body.

System Components

  • Apexx Series Keypad (faceplate + baseplate)
  • Apexx Series Lock(s)
  • Apexx Series Lock Cables
  • Apexx Drill Protection Plate part#804008 (if installing over existing spindle hole)
  • Apexx Termination Connector
  • Relocker Plate part#804017 (Requires lock with Relocker Provisions)
  • Battery (Duracell, Energizer)
  • Mounting Hardware

System Power Options

  • Battery power via the Keypad
  • AC power adapter supplied to the locks
  • External DC power connected to the e-Box
  • Power Over Ethernet (PoE) by connecting PoE power sourcing equipment to the e-Box

Required Tools/Parts

  • Drill (for new installation)
  • Drill Bits: #29 drill bit, #27 drill bit (8/32, 3.5mm), #28 drill bit
  • Tap Set (for new installation): US Customary 8-32 and 1/4-20, Metric M4-0.7 and M6-1.0

Product Usage Instructions

Mounting an Apexx e-Box (optional)

  • Refer to the installation guide for detailed instructions on mounting an Apexx e-Box.

Apexx e-Box Case Hole & Layout Diagram

  • Refer to the installation guide for the Apexx e-Box case hole and layout diagram.

Apexx e-Box Terminal Block Connections

  • Refer to the installation guide for detailed instructions on Apexx e-Box terminal block connections.

Connect a Safe Lock to a Keypad

  • To connect a safe lock to a Keypad, follow the provided instructions in the installation guide.

Keypad – Battery Access & Installation

  • To access and install the battery for the Axessor Apexx Keypad, follow the provided instructions in the installation guide.

Alternative Power Methods

  • Refer to the installation guide for information on alternative power methods for the Axessor Apexx Keypad.

Mount an Axessor Apexx Keypad

  • Before closing the safe door, follow these steps to mount an Axessor Apexx Keypad to the exterior of the safe door:
  1. Refer to the installation guide for specific hardware requirements.
  2. Ensure all necessary tools and parts are available.
  3. Follow the provided instructions in the installation guide for proper mounting of the Keypad.

NOTE: Do not close the safe door until all installation steps have been completed.
CAUTION: The keypad radiates radio frequency emissions, and therefore should be installed and operated with a minimum distance of 7.9 inches (20 cm) between the device and your body.

Required Tools/Parts

  • Tools:
    • Phillips Head Screwdriver
    • 050″ Hex Key
    • Drill (for new installation)
    • Drill Bits (for new installation)
    • 29drill (.136″, 3.3mm)

    • 7drill, 13/64 (.203″, 5mm)

    • 27 drill bit (8/32″3.5mm)

    • 28 drill bit

    • Tap Set (for new installation)
    • US Customary 8-32 and 1/4-20
    • Metric M4-0.7 and M6-1.0

Parts/Accessories:

  • Axessor Apexx Keypad (faceplate + baseplate)
  • Apexx Series Lock(s)
  • Apexx Series Lock Cables
  • Apexx Drill Protection Plate part#804008 (if installing over existing spindle hole)
  • Apexx Termination Connector
  • Relocker Plate part#804017 (Requires lock with Relocker Provisions)
  • 4 “AA” Batteries (Duracell, Energizer)dormakaba-Apexx-Series-IP-Connected-Safe-Locks-FIG-1

System Components and Connections

System Components

  • A Safe lock system can consist of the following components:
  • An Apexx Series Keypad (required)
  • An Apexx Series Lock (required)
  • An Apexx e-Box (optional)
  • AC power adapter for Apexx e-Box (optional)
  • AC power adapter for Apexx Series Lock (optional)
  • A secondary Apexx Series Keypad (optional)
  • Additional Apexx Series Locks (optional)

System Configurations

  • All connections between system components are done via specialized 6-connector CAN bus cables (Apexx Series Lock Cables)
  • Minimum System can consist of 1 Keypad, 1 Lock
  • Systems can support up to 2 Keypads, 16 Locks, and 1 e-Box on the same CAN bus
  • See System Wiring Diagram Example Setup #1, System Wiring Diagram Example Setup #2, and System Wiring Diagram Example Setup #3 for reference

System Power Options

  • Systems with up to 2 locks:
  • Battery power via the Keypad
  • Systems with greater than 2 locks (see “Alternative Power Methods” section):
  • Battery power via the Keypad (not recommended)
  • AC power adapter supplied to the locks
  • External DC power connected to the e-Box
  • Power Over Ethernet (PoE) by connecting PoE power sourcing equipment to the e-Box.
  • UL compliance was verified with a PoE (PSE injector) Manufactured by Phihong, Model POE16R 560LR (Rated input 100-240VAC (0.8A) 50/60 Hz Output 56VDC, 0.275A (PSE injector))

CAN bus Wiring, Cable Lengths, and Termination

  • The combined cable length of the CAN bus (measured between the power source and the end of the CAN bus) should be no longer than 15m with no more than 8 locks in one set of connections. Refer to the System Wiring Diagrams at the end of the document for example system setups.
  • The C AN bus must be terminated at the end of the CAN bus line, meaning that the final lock of the system must not have any of its two connector ports open. The CAN bus can be terminated in one of the following ways:
  • Connecting a secondary Keypad at the end of the CAN bus
  • Connecting an Apexx Termination Connector at the end of the CAN bus

Mount an Axessor Apexx Keypad

  • NOTICE: Do not close the safe door until all installation steps have been completed.
  • CAUTION: The keypad radiates radio frequency emissions, and therefore should be installed and operated with a minimum distance of 7.9 inches (20 cm) between the device and your body.
  • Prior to connecting a safe lock to a Keypad, the Keypad must first be mounted to the exterior of the safe door. Follow these steps to properly mount a Keypad to the safe door:
  1. 1. Drill and tap the holes into the outside of the safe wall using the provided drill and tap template. Deburr the center hole with a file or rotary tool.
    • NOTICE: Some safe manufacturers might include these holes at the OEM level.
    • Mounting holes (1)&(2) or (3)&(4) > for steel surfaces, use standard screw kit #27, metric 3.5
    • Center hole (5) > for steel surfaces, Min: 0.4″ (10mm),
    • NOTICE: If you are drilling into another surface type (non-steel), you may need to adjust your drill sizes accordingly
  2. Separate the keypad’s faceplate and baseplate by doing the following:
    • Press the spring-loaded button on the bottom of the keypad. If you have difficulty pressing the button, ensure that the button’s set screw has been loosened, then try again.
    • While still pressing the button, lift the faceplate away from the baseplate. The faceplate is connected to the baseplate by two hinges at the top of the keypad.dormakaba-Apexx-Series-IP-Connected-Safe-Locks-FIG-3
    • Gently lift the bottom of the faceplate up, allowing it to swing upwards along the hinge, then lift away from the baseplate to separate.dormakaba-Apexx-Series-IP-Connected-Safe-Locks-FIG-4
  3. Run the keypad connector cable through the center hole in the safe door.dormakaba-Apexx-Series-IP-Connected-Safe-Locks-FIG-5
  4. Attach the Keypad baseplate onto the safe door using the provided Phillips head screws. The screws provided come in two variants: Metric M4-07 or US Customary Unit #8-32. Mounting method 1) use screw holes 1 and 2. Mounting method 2) use screw holes 3 and 4. The Keypad connector cable is fed through hole 5.
    • NOTICE: If installing over a spindle hole, UL approval requires the installation of a drill protection plate.

Mounting a Safe Lock

Prior to connecting a safe lock to a Keypad, each safe lock must first be mounted to the interior of the safe door.

NOTICE Observe the following when installing a safe lock:

  • Only mount the lock using the provided mounting screws
  • Recommended mounting screw torque: 30 in-lbs (3.4 Nm)
  • The mounting screws have a nylon patch that acts to lock the screw in place. Additional thread lock is not recommended.
  • There shall be no openings in the door of the strongbox or strongroom in the area where the lock is installed.
  • Do not close the safe door until all the installation steps have been completed.
  • Do not damage or remove the warranty seal or the VdS Label. Damage or removal of these labels will void the product warranty and VdS approval respectively.
  • If using the lock’s slambolt function, remove the retainer screw underneath the VdS label. Operating the lock in slam bolt mode voids the VaS approval.dormakaba-Apexx-Series-IP-Connected-Safe-Locks-FIG-7
Mounting a Lock (deadbolt or slam bolt)

If mounting a deadbolt or slam bolt, do the following:

  1. On the inside of the safe door, use the provided drilling template to mark the locations of the mounting holes
  2. Drill the mounting holes using the provided template and tap for either 1/4-20 or M6-1.0.
  3. Deburr all mounting holes, then install a 1/4-20 or M6 thread into each of the three mounting holes.
  4. Install the Keypad on the front of the safe door using the Keypad Installation instructions described earlier
  5. If you are installing the Axessor Apexx Keypad and Lock back-to-back over a spindle hole, align the drill protection plate over the mounting holes, then mount the lock on top of the drill protection plate.
  6. Secure the drill protection plate and lock it to the safe door using the three supplied 1/4-20 or M6 screws.
    • The drill protection plate adds protection and is used to prevent unwanted lock access when a lock and keypad are installed back-to-back over a spindle/cable hole. The use of a drill protection plate is a UL requirement.
  7. If installing a Relocker plate, align the plate with the two rocker mounting studs on the back of the lock, then fasten in place with the two 6-32 nuts.
  8. If using the lock’s slam bolt function, remove the retainer screw underneath the VdS label.
    • NOTICE: Operating the lock in slam bolt mode voids the VdS approval.
  9. If required, you can install two M4 threads into the end of the bolt to add an extension to increase the length of the bolt.dormakaba-Apexx-Series-IP-Connected-Safe-Locks-FIG-9

External connections to the lock

dormakaba-Apexx-Series-IP-Connected-Safe-Locks-FIG-10

Terminal/Socket # Description Unit Notes
1 / 2 Output 2

Factory setting: lock open (OR Boolean operation with bolt open, motor open, or door open)

| Resistive Load: 30VDC / 2A

30VAC / 0.5A

| Relay with potential-free working contact, Normally Open (NO).

Contact is open when the lock is closed.

3 / 4| Output 1

Factory setting: duress alarm

| Resistive Load: 30VDC / 2A

30VAC / 0.5A

| Relay with potential-free working contact, Normally Open (NO).

Contact is closed when the duress alarm is active.

Duress function not evaluated by UL

5(-) / 6(+)| Input 1

Factory setting: off (not assigned)

| 12VDC /

min. 13mA, max. 20mA

| —
7 / 8| Input 2

Factory setting: off (not assigned)

| Potential-free contact only (do not apply any voltage!)| Use a micro switch with gold-plated contact 12VDC/50mA (e.g., DB

series by Cherry). If Input 2 is assigned as

inverted, an open switch contact stands for

. The bolt is open as long as pins 7 and 8 remain electrically disconnected.

X1 / X2| Connection for input unit (Keypad), e-Box, or power supply| —| Use only the connecting cables provided

  • NOTICE All safe lock inputs and outputs can be configured using the Apexx Series Software.
  • Important! If running Duress through the e-Box, the duress signal would not be sent in the event of a power loss. For this reason, dormakaba recommends that the Duress signal be run directly from a lock to the alarm system.

Protection from Magnetic Attack

  • In order for a safe to be protected from magnetic attack the container must be made from (or contain) a steel protective layer capable of diverting magnetic fields.

Lock Case Hole & Layout Diagram

dormakaba-Apexx-Series-IP-Connected-
Safe-Locks-FIG-10

Maximum Bolt Load  Deadbolt or Slambolt:

  • Maximum load movable by the bolt: 1.12 lbs. (5N)*
  • NOTICE: Apexx Series motorized deadbolt locks may not open if more than 1.12 lbs. (5N)* of force is applied to the end or side of the bolt.
  • Maximum load against bolt when thrown (all directions): 224.8 lbs. (1kN)*
  • Force not evaluated by UL

Lock Dimensions Deadbolt/Slamboltdormakaba-Apexx-Series-IP-Connected-
Safe-Locks-FIG-11

Mounting an Apexx e-Box (optional)

  • NOTICE As a requirement of EN 1300, the e-Box must be installed inside the safe.
  • If using the optional e-Box as part of your safe lock setup, follow the steps below to mount the device:

Option A: tape mount:

  • As an alternate mounting method, the e-Box also comes with double-sided tape that can be used to adhere the underside of the e-Box to the inside of the safe.
  1. Remove the protective layer from one side of the double-sided tape then stick it to the bottom of the Apexx e-Box.
  2. Remove the protective layer from the other side of the tape, then mount the Apexx e-Box onto the mounting surface, pressing firmly to ensure adherence.
    • NOTICE: for best results, ensure the surface you are mounting to has been cleaned.

Option B screw mount:

  1. Mark the two mounting holes as shown on the e-Box Hole & Layout Diagram.
  2. Drill and tap the mounting holes using the provided template. For M4-0.7 x 6mm long mounting screws drill Φ3.5mm and tap, or Φ.144 if using the #8-32 x .25in long mounting screws.
  3. Deburr all mounting holes.
  4. Place the e-Box over the mounting holes, then mount it using the appropriate set of supplied mounting screws.
Apexx e-Box Case Hole & Layout Diagram

dormakaba-Apexx-Series-IP-Connected-Safe-Locks-FIG-12

Apexx e-Box Terminal Block Connectionsdormakaba-Apexx-Series-IP-
Connected-Safe-Locks-FIG-13

Pin Number Pairs Description Unit Notes

1 / 2 ISO Input 1 / ISO

Input 1 GND

3 / 4 **** ISO Input 2 / ISO

Input 2 GND

5 / 6 **** ISO Input 3 / ISO

Input 3 GND

| Factory setting: OFF (not assigned)

Inputs 1, 2, and 3 are configurable through software

| Potential-free contact only (do not apply any voltage!)| Use a micro switch with gold-plated contact 12VDC/50mA (e.g., DB

series by Cherry). The Signal is open as long as the pins remain electrically disconnected.

7 / 8 Relay Output 1 (+)

/ Relay Output 1 (-)

9 / 10 Relay Output 2 (+) / Relay Output 2 (-) 11 /12 Relay Output 3 (+) / Relay Output 3 (-)

| Factory setting: OFF (not assigned)

Outputs 1, 2, and 3 are configurable through the software

| Resistive Load: 30VDC / 2A

30VAC / 0.5A

| e-Box contains a relay with potential-free working contact for output. Output pins will be shorted together when the signal is asserted and open when unasserted.
13/14 ** Tamper Input 1 / Tamper Input 1 GND 15/16 ** Tamper Input 2 / Tamper Input 2 GND 17/18 **** Tamper Input 3 / Tamper Input| Factory setting: OFF (not assigned)

Tamper Inputs 1, 2, and

3 are configurable through software

| Potential-free contact only (do not apply any voltage!)| -Box Tamper Switch Resistor

for proper wiring details.

19 / 20 Power Supply (+)

/ Power Supply GND (-)

| Power Connection| Dormakaba recommends using part # 802027 for this power option| for wiring details. Operating range: 12-24V Recommended minimum power: 5W

Connect a Safe Lock to a Keypad

Once the keypad and lock are physically installed on the safe container, follow these steps to connect a safe lock to a Keypad:

  1. For single lock systems, do the following:
    • a. Connect the cable from the keypad into one of the two ports on the safe lock.
    • b. Install the batteries in the keypad as outlined in the Keypad – Battery Access & Installation section of this document.
    • c. Use the keypad and on-screen menu on the Axessor Apexx Keypad to logically install and commission the locks (and e-Box, if using one). Refer to Initial Setup Commissioning your first lock and creating an Administrator User for more details, or consult the System User Guide (Document #802.0622).
  2. For multi-lock systems, do the following:
    • a. Connect the cable from the Keypad to one of the two ports on the first safe lock (known as Lock #1 to the System).
    • b. From the first lock, connect another cable from the unused port to one of the two ports on the second lock in your system.
    • c. Use a cable tie to secure and clean up any excess cabling.
    • d. Repeat Step b and c for each additional safe lock, to create a daisy-chain connecting all the locks together. If using an e-Box, you can also connect it in-line with your locks using its 6-connector ports.
    • e. Terminate the CAN bus by connecting either a second keypad or an Apexx Termination Connector to the open 6-connector port of the final lock in your system. If the e-Box is the last part of your bus chain, terminate by connecting the secondary keypad or Apexx Termination Connector to the open 6-connector port on the e-Box.
    • f. Apply power to the system using one of the following methods:
    • Battery power via the Keypad
    • AC power adapter supplied to the locks
    • External DC power connected to the e-Box
    • Power Over Ethernet (PoE) by connecting PoE power sourcing equipment to the e-Box Refer to the Keypad – Battery Access & Installation and Alternative Power Methods sections of this document for more details.
    • g. Use the keypad and on-screen menu on the Axessor Apexx Keypad to logically install and commission the locks (and e-Box, if using one). Refer to Initial Setup Commissioning your first lock and creating an Administrator User for more details, or consult the System User Guide
      (Document #802.0622).

Keypad – Battery Access & Installation

The Axessor Apexx keypad is powered internally using 4 x AA batteries (Duracell, Energizer) . These batteries are sufficient to run a system with a single keypad and one or two locks. For systems using more than 2 locks, an AC power adapter or an e-Box are required to provide system power.

  • NOTICE When removing and replacing the keypad faceplate, be sure to hold the unit tightly to avoid dropping it and causing damage.
  • If using batteries in the entry as a secondary/backup power source, please note the following:
  • Batteries should be replaced on a regular basis. The frequency of backup battery replacement will depend on the quality of the batteries used.
  • After a power outage, it is recommended that the backup batteries are replaced with new ones once the power has been restored.

Battery Installation Axessor Apexx Keypad

For Axessor Apexx Keypads, do the following to access and install the batteries:

  1. If you haven’t done so already, separate the keypad’s faceplate and baseplate. To do this, press the spring-loaded button on the bottom of the keypad. While still pressing the button, pull the faceplate away from the baseplate. The faceplate is connected to the baseplate by two hinges at the top of the keypad. Gently lift the bottom of the faceplate up, allowing it to swing upwards along the hinge, then lift away from the baseplate to separate.
  2. The Axessor Apexx keypad’s battery holder is built to the keypad’s faceplate. Install the four AA batteries, one at a time, into the battery holder. Use the markers in the battery holder to ensure proper +/- orientation for each battery.
    • NOTICE: Important! DO NOT remove any of the internal screws inside of the keypad. This could damage the device and void the warranty.
  3. When finished installing the batteries, reattach the faceplate by inserting the two hinges back into their respective slots along the top of the base plate, then hinging downward and pressing firmly until the faceplate locks in place. You should hear a loud “snap” sound, indicating that the spring-loaded button has secured the faceplate in place.
  4. Use the provided .050″ drive to tighten the set screw into the threaded hole on the spring-loaded button at the bottom of the keypad. Rotate the screw clockwise until the button is secured in place and not able to be operated by hand. This screw will hold the faceplate and backplate of the keypad together so that they aren’t accidentally dislodged.
  5. If using two keypads in your system setup, repeat steps 1-4 to install batteries in your second keypad.
Alternative Power Methods
  1. Though battery power alone is often enough suitable to run most lock smaller lock systems, it is recommended that larger multi-lock systems utilize one of the alternative power methods described in this section.

Lock & e-Box Connector Diagramsdormakaba-Apexx-Series-IP-Connected-Safe-
Locks-FIG-18

AC Line Power Adapter – Lock

  • Safe locks can be used to supply system power using an AC power adapter. dormakaba recommends you use part# 802028 (Not evaluated by UL), which consists of a 6V, 1A power supply, and a cable adapter to connect the power supply to one of the 6-pin connectors on the lock. To supply power to the lock using the AC power adapter, do the following:
  1. Once all other system connections are complete, connect the cable adapter to the terminal blocks of the e-Box.
    • a. Insert the negative wire (black) of the cable adapter into terminal contact 20, then use a screwdriver to tighten the terminal contact to secure the wire in place.
    • b. Insert the positive wire (with a white dashed line) of the power adapter into terminal contact 19, then use a screwdriver to tighten the terminal contact to secure the wire in place.
  2. Ensure that the male barrel connector of the power supply is plugged firmly into the female barrel connector of the cable adapter, then plug the other end of the power supply into a wall socket to provide power.
e-Box AC Line Power Adapter Apexx e-Box

The optional e-Box can be used to provide system power using an AC power adapter. The Apexx e-Box can accept a 12-24V input voltage range. dormakaba recommends you use part# 802027, which consists of a 12V, 5W power supply, and a cable adapter to connect the power supply to the terminal connectors on the e-Box. (UL tests were performed with a PSA15R-120P6-R AC/DC wall adapter, manufactured by Phihong Rated input 100-240VAC (0.8A) 50/60 Hz Output 12 Volt DC 1.25A)
Observe the following steps when connecting the AC power adapter to the e-Box:dormakaba-Apexx-Series-IP-Connected-Safe-Locks-
FIG-20

  1. Once all other system connections are complete, connect the cable adapter to the terminal blocks of the e-Box.
    • a. Insert the negative wire (black) of the cable adapter into terminal contact 20, then use a screwdriver to tighten the terminal contact to secure the wire in place.
    • b. Insert the positive wire (with white dashed line) of the power adapter into terminal contact 19, then use a screwdriver to tighten the terminal contact to secure the wire in place.
  2. Ensure that the male barrel connector of the power supply is plugged firmly into female barrel connector of the cable adapter, then plug the other end of the power supply into a wall socket to provide power.
  3. If the Apexx e-Box is the last device on the CAN bus, insert an Apexx Termination Connector into the open port (X3 or X4).

NOTICE: for systems containing 6 or more locks, the e-box should be placed as close to the center/middle of the CAN bus as possible to ensure even power distribution across the system.

Power Over Ethernet (PoE) – Арехх e-Box
The rosal to can ver a rode ye owe sia verm point moment to, opin following:

  1. Once all other system connections are complete, connect an Ethernet cable from the PoE power sourcing equipment to the RJ45 Ethernet terminal on the e-Box. PSE (Power Sourcing Equipment) used with the Axessor Apexx IP needs to be capable of Class
  2. from IEEE 802.3af-standard LAN-based power for each Axessor Apexx IP system connected.

Before you install an Axessor Apexx IP locking system verify with the LAN administrator whether the LAN supports IEEE 802.3af Class 2, and if so, whether the Axessor Apexx IP locking system should be powered locally or by means of the LAN.

**Emergency Power – USB***

In the event of total system power loss, the system can be powered temporarily using USB power. Simply connect the USB end of a USB-to-USB-C cable from a power-sourcing USB device (computer, USB power adapter, etc.), then connect the USB-C end of the cable to the USB-C port located on the side of the keypad.
NOTICE: Recommended power for emergency use through a USB connector is 5W (1A) for a fully loaded system.dormakaba-Apexx-Series-IP-Connected-Safe-
Locks-FIG-21

Factory Mode

Prior to installation, the locks are in what’s known as factory mode. When the locks are in factory mode, the numeric keys on the Apexx Series keypad can be used to perform certain functions prior to adding/installing the locks.

  1. In the keypad menu, highlight the Add Devices” icon, then press the Enter key.
  2. Checking System” > A system check is performed, and the number of devices found is shown on the display screen. Press the Enter key to view all found devices.
  3. A list of all new devices will appear on the display screen. Use the arrow keys to highlight the name of one of the locks, then press one of the following numeric keys to perform the associated function:
Key Function (when lock name
1 Bolt open The highlighted lock will open for 6 seconds, then close.
2 The Arrow key __ moves the cursor/highlight up

screen

3

| Lock I/O test toggles the outputs of the highlighted lock. If the

outputs are in different states, they will all be switched to the same state after the first toggle.

4| Arrow key no function
5| Bolt open The highlighted lock will open for 6 seconds, then close.
6| Arrow key
no function
7| RFID test
8| The Arrow key __ moves the cursor/highlight down the screen
9| Lock I/O test

on the state of its inputs.

0| Bolt open The highlighted lock will open for 6 seconds, then close.

Initial Setup – Commissioning your first lock and creating an Administrator User

  • After the physical installation of the safe lock equipment has been completed, the devices must be logically installed (commissioned). Commissioning can be done conveniently using the keypad’s menu system.
  1. In the keypad menu, highlight the Add Devices” icon, then press the Enter key.
  2. Checking System… ” appears onscreen as a system check is performed, and the number of devices found is shown on the display screen. Press the Enter key to view all found devices.
  3. Add Devices” appears onscreen along with a list of all new/found devices. Highlight the lock that you want to commission, then press the Enter key.
    • NOTICE: You must first commission a lock before adding any other devices.
  4. Enter Lock Number (1-16)” > After selecting a lock, use the numeric keys to enter a valid lock number (1-16), then press the Enter key.
    • NOTICE: It is recommended that Lock #1 be used for the outer door.
  5. Add device?” > Press Enter to confirm, or Back to cancel.
  6. Enter New Administrator ID” > Use the numeric keys to enter a new Administrator ID (1-10 digits), then press the Enter key.
  7. Highlight one of the PIN length options, then press the Enter key. To save the setting, highlight the word “Save”, then press the Enter key.
  8. Enter Administrator PIN” > Enter a PIN for the new User, then press the Enter key.
    • NOTICE: Important! For improved security, ensure that the User PINs you use are not simple (e.g., 1,2,3,4,5,6) or easy to guess (based on dates, addresses, etc.)
  9. Confirm Administrator PIN” > Confirm the new PIN by entering it a second time, then press the Enter key.
  10. Select Group” > Select a Group by highlighting the group name and pressing the Enter key. then scroll to the bottom of the screen and highlight the word “Save”, then press the Enter key.
  11. Initial Commissioning…” appears on the display screen. After a brief period, “Administrator Setup Success” will appear on the display screen. Press the Enter key to go to the Keypad Main Menu.

Specifications

  • Batteries Dormakaba used standard Duracell AA alkaline batteries to evaluate discharge curves to determine battery cutoffs

Environmental

  • Operating & Storage Temperature Range: For UL compliance, this product was verified for operation at 32 – 122 °F (0 – 50 °C)
  • Relative Humidity Range: 0 – 95% non-condensing

Approved Standards

  • The AXESSOR APEXX family of safe locks conforms to the following approved standards:
  • UL 2058 (High-Security Electronic Locks)
  • EN 1300:2018
  • Model: APX01 – FCC ID: 2ASNP-APX01, IC ID: 24793-APX01

FCC

Note: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:

  • Reorient or relocate the receiving antenna
  • Increase the separation between the equipment and the receiver
  • Connect the equipment to an outlet on a circuit different from that to which the receiver is connected
  • Consult the dealer or an experienced radio/TV technician for help

Changes or modifications not expressly approved by Dormakaba USA Inc. could void the user’s authority to operate the equipment.

This device contains license-exempt transmitter(s)/receiver(s) that comply with Innovation, Science and Economic Development Canada’s license-exempt RSS(s). Operation is subject to the following two conditions:

  1. This device may not cause interference.
  2. This device must accept any interference, including interference that may cause undesired operation of the device.

Safe Lock Models

Keypad Model “Axessor Apexx” (Input Units Keypads) for use with High Security Lock Models Apexx Motorized Deadbolt (MDS) LOCk, Apexx Motorized Latchbolt (MLB) Lock, Apexx Motorized Swingbolt (MSWB) Lock, Apexx Motorized Redundant Deadbolt (RDB) Lock, Apexx Deadbolt (DB) Lock, Apexx Swingbolt (SWB) Lock

System Wiring Diagram

Example Setup #1dormakaba-Apexx-Series-IP-Connected-Safe-Locks-
FIG-25

System:

  • 1 x Axessor Apexx Keypad
  • 3 x Apexx Series Locks
  • 1 x Apexx e-Box
  •  x e-Box AC Line Power Adapterdormakaba-Apexx-Series-IP-Connected-Safe-Locks-FIG-26

System:

  • 1 x Axessor Apexx Keypad
  • 5 x Apexx Series Locks
  • 1 x AC Line Power Adapterdormakaba-Apexx-Series-IP-Connected-Safe-Locks-FIG-27

System:

  • 1 x Axessor Apexx Keypad
  • 16 x Apexx Series Locks
  • 1 x Apexx e-Box
  • 1 x e-Box AC Line Power Adapter
  • 1 x Apexx Termination Connector

NOTICE: For systems containing 6 or more locks, the Apexx e-box should be placed as close to the center /middle of CAN bus as possible to ensure even power distribution across the system.

Drill and Tap Template Axessor Apexx Keypad

Drill and Tap Template Apexx Series Lockdormakaba-Apexx-Series-IP-
Connected-Safe-Locks-FIG-29

Drill and Tap Template Apexx e-Boxdormakaba-Apexx-Series-IP-Connected-
Safe-Locks-FIG-30dormakaba-Apexx-Series-IP-
Connected-Safe-Locks-FIG-31

  • dormakaba USA
  • 1525 Bull Lea Road, Suite 100
  • Lexington, KY 40511
  • 1859 253 4744
  • 1 888 950 4715 (toll free)
  • dormakaba.us
  • dormakaba.com

Documents / Resources

| dormakaba Apexx Series IP-Connected Safe Locks [pdf] Installation Guide
APX01, 2ASNP-APX01, 2ASNPAPX01, Apexx, Apexx Series IP-Connected Safe Locks, IP-Connected Safe Locks, Safe Locks, Locks
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References

Read User Manual Online (PDF format)

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