maxxess eMAX-MR62e User manual
eMAX-MR62e
OSDP READER INTERFACE
MODULE
Installation Guide and Specifications
This device complies with FCC Part 15, Class A Specifications.
The device meets CE Specifications, and is RoHS Certified.
This device is UL 294 Recognized. February 2019 ber, 2011
February, 2019 eMAX-MR62e-Man Page 2 of 16
TABLE OF CONTENTS
Paragraph Title Page No.
1. General …………………………………………………………………………………………….. 3
2. eMAX-MR62e Hardware ……………………………………………….……………………...… 4
3. eMAX-MR62e Terminal Blocks & Jumpers …………..…………………………………...… 5
4. Bulk Erase Configuration Memory ……………………………………………………………. 6
5. Input Power ……………………………………………………………….……………………….. 7
6. Communication Wiring …………………………………………………………………………. 7
7. OSDP Reader Wiring …………………..……………………………………………………….. 7
8. Input Circuit Wiring ………………………………………….………………………………….. 8
9. Relay Circuit Wiring ………………………………………………….………….……………… 8
10. Status LEDs ………………………….………………………………………………………...… 9
11. IT Security ………………………………………………………………………………………… 9
12. Specifications …………………………………………………………………...………………. 10
13. Additional Mounting Information ……………………………………………………….…….. 11
14. Warranty and Liability ………………..……………………………………………………….. 12
Appendix A –Configuring the eMAX-MR62 Network …………………………………………… 13
Change History:
Original Document Original February 2019
February, 2019 eMAX-MR62e-Man Page 3 of 16
1. General:
The eMAX-MR62e OSDP Reader Interface Module provides a network connected interface to
control two physical barriers using OSDP readers, and provides a solution for Maxxess
Installers/Integratosr for interfacing to OSDP readers and door hardware. The on-board Ethernet
with PoE/PoE+ support enables easy installation. The eMAX-MR62e supports up to four OSDP
readers configured as paired or alternate readers.
Note: For UL, the Power Sourcing Equipment (PSE) such as a PoE/PoE+ enabled network switch
and/or PoE/PoE+ power injectors must be UL Listed under UL294B.
One serial 2-wire RS-485 data communication port is available and can accommodate up to four
OSDP readers that are controlling two (2) portals (In/Out paired reader mode). Four Form-C Relay
Outputs may be used for door strike control or alarm signaling. The relay contacts are rated at 2 A
@ 30 Vdc resistive, and are in a dry contact configuration.
Six inputs are provided that may be used for monitoring the door contacts, exit push buttons, and
alarm contacts. Input circuits can be configured as unsupervised or supervised. The eMAX-MR62e
requires PoE, PoE+ or local 12 Vdc for power. The eMAX-MR62e may be mounted in a 3-gang
switch box with the mounting plate that is supplied with the unit. Or it can be mounted in a standard
Maxxess enclosure. The supplied mounting plate has mounting holes that match the MR50
mounting footprint.
February, 2019 eMAX-MR62e-Man Page 4 of 16
2. eMAX-MR62e Hardware:
TB5
1
IN1 IN2 IN3 IN4 IN5 IN6
VO GNDVINGND
VIN POEJ5
NO NC2-CNONC1-C NO NC4-CNONC3-C
K1 K2 K3 K4
K4
K3
K2
K1
RVOGND TR- TR+
J3 J4
J1
10519-0000-F, REV-A
7 6 5 4 32 1
2
3
4 1
S1
ON
|
|
V
INPUTS
RELAYS
J5: INPUT
POWER
SELECT
12 Vdc IN &
AUX POWER
OUTPUT
2.55 [64.77]
2.55 [64.77]
5.4 [137.16]
STATUS
LEDs
2.35 [59.69]
2.75 [69.85]
.2 [5.08]
S1: DIP
SWITCH
J3: TAMPER
SWITCH
TO OSDP
READERS
LINK
(GREEN)
SPEED
(YELLOW)
J4: TIA-485
TERMINATION
JUMPER
Ø.125 [3.18]
6 PLACES
EARTH
GROUND
J1: ETHERNET RJ45
CONNECTOR
eMAX-MR62e Layout
February, 2019 eMAX-MR62e-Man Page 5 of 16
3. eMAX-MR62e Terminal Blocks and Jumpers:
MR-51E CONNECTIONS
TB1-1
IN1
Input 1
TB1-2
IN1
TB1-3
IN2
Input 2
TB1-4
IN2
TB2-1
IN3
Input 3
TB2-2
IN3
TB2-3
IN4
Input 4
TB2-4
IN4
TB3-1
IN5
Input 5
TB3-2
IN5
TB3-3
IN6
Input 6
TB3-4
IN6
TB4-1
VO
Auxiliary Power Output –12 Vdc
TB4-2
GND
Auxiliary Power Output Ground
TB4-3
VIN
Input Power –12 Vdc (from local power supply)
TB4-4
GND
Input Power Ground
TB5-1
NO
Relay K1 –Normally Open Contact
TB5-2
1-C
Relay K1 –Common Contact
TB5-3
NC
Relay K1 –Normally Closed Contact
TB5-4
NO
Relay K2 –Normally Open Contact
TB5-5
2-C
Relay K2 –Common Contact
TB5-6
NC
Relay K2 –Normally Closed Contact
TB6-1
NO
Relay K3 –Normally Open Contact
TB6-2
3-C
Relay K3 –Common Contact
TB6-3
NC
Relay K3 –Normally Closed Contact
TB6-4
NO
Relay K4 –Normally Open Contact
TB6-5
4-C
Relay K4 –Common Contact
TB6-6
NC
Relay K4 –Normally Closed Contact
TB7-1
GND
Reader Power Ground
TB7-2
TR-
2-Wire RS-485 TR- (B) See Note 1 below
TB7-3
TR+
2-Wire RS-485 TR+ (A) See Note 1 below
TB7-4
RVO
12 Vdc Reader Power Output
Note 1: Terms A & B are from the RS-485 standard
February, 2019 eMAX-MR62e-Man Page 6 of 16
Jumpers and Jacks:
JUMPER
SET AT
DESCRIPTION
J1
N/A
Ethernet Connection with PoE/POE+ support
J2
N/A
Factory Use Only
J3
N/A
Tamper Switch (normally open contact) See section
14.
J4
N/A
RS-485 Termination, install only if the MR62e is at the
end of the communication bus
J5
PoE
MR62e powered from the Ethernet connection
VIN
MR62e powered from an external 12 Vdc power
source connected to TB4-3 (VIN), TB4-4 (GND)
J6 –J13
N/A
Factory Use Only
DIP Switches:
The four switches on S1 DIP switch configure the operating mode of the eMAX-MR62e Module. DIP
switches are read on power-up except where noted.
1
2
3
4
Definitions
OFF
OFF
OFF
OFF
Normal operating mode.
ON
X
OFF
OFF
After initialization, enable default User Name (admin) and Password
(password). The switch is read on the fly, no need to re-boot. See IT
Security section for additional information.
OFF
ON
OFF
OFF
Use factory default communication parameters.
ON
ON
OFF
OFF
Use OEM default communication parameters. Contact system
manufacture for details. See Bulk Erase section below.
ON
ON
OFF
OFF
Bulk Erase prompt mode at power up. See Bulk Erase below.
All other switch settings are unassigned and reserved for future use. (X = don’t care)
Factory Default Communication Parameters:
Network: static IP address: 192.168.0.251
Subnet Mask: 255.255.255.0
Default Gateway: 192.168.0.1
4. Bulk Erase Configuration Memory:
The bulk erase function can be used for the following purposes:
➢Erase all configuration, sets MR62e to OEM setting (sanitize board).
➢Restore to OEM default parameters.
Bulk Erase Steps: Do not remove power during steps 4-6.
1. Set S1 DIP switches to: 1 & 2 "ON", 3 & 4 "OFF".
2. Apply power to the MR62e.
3. Watch for LEDs 1 & 2 and 3 & 4 to alternately flash at a 0.5 second rate.
4. Within 10 seconds from applying power, change switches 1 or 2 to "OFF". If these switches are
not changed, the MR62e will power up using the OEM default communication parameters.
5. LEDs 1 and 2 alternately flash at a 0.5 second rate while the memory is being erased.
6. Once the memory is eased, LED 1 will be on for about 3 seconds, then the eMAX-MR62e will
reboot.
February, 2019 eMAX-MR62e-Man Page 7 of 16
5. Input Power:
The eMAX-MR62e is powered by one of two ways (jumper selected, J5):
•Power is supplied via the Ethernet connection using PoE or PoE+.
•Local 12 Vdc power supply, TB4-3 (VIN), TB4-4 (GND).
6. Communication Wiring:
Communication between the LP/ EP controller and the eMAX-MR62e is Ethernet (10Base
T/100Base-TX).
It is not recommended to connect the eMAX-MR62e to a public intranet.
7. OSDP Reader Wiring:
Connector TB7 of the eMAX-MR62e Module has connections for the 2-wire RS-485 OSDP
communication bus as well as 12 Vdc to power the OSDP readers. Up to four (4) OSDP readers are
supported on the eMAX-MR62e. The four (4) Readers can be used to control two (2) Doors/Portals
in an In/Out (paired) Reader mode for each door. The 12 Vdc output is limited to .5 A maximum.
The OSDP reader wiring diagram below shows the use of a 2-pair cable for data and power. If this
cable cannot support the voltage/current requirements, a 1-pair cable of sufficient gauge must be
used for power. See specification section.
The RS-485 termination jumper, J4, is only installed if the eMAX-MR62e is at one end of the
communication bus. Only devices at each end of the communication bus are terminated. Never
install termination to more than two devices on the communication bus.
When powering any remote device(s) by the eMAX-MR62e, care must be taken not to exceed the
maximum current available. Cable gauge must also be evaluated. See specifications section for
details.
Reader Wiring Diagram:
TR+ (A)
TR+ (A)
RVO
TR- (B)
GND
TR- (B)
GND
TB7
1
12 V
J3 J4
J4: INSTALL ONLY IF MR62e IS AT THE
END OF THE COMMUNICATION BUS
TR+ (A)
GND
TR- (B)
12 V
TR+ (A)
GND
TR- (B)
12 V
TR+ (A)
GND
TR- (B)
12 V
SHIELD: CONNECT TO
EARTH GROUND,
ONE END ONLY!
Typical OSDP Reader Wiring
February, 2019 eMAX-MR62e-Man Page 8 of 16
8. Input Circuit Wiring:
The eMAX-MR62e provided Six (6) inputs that are typically used to monitor door position, request to
exit, or alarm contacts. Input circuits can be configured as unsupervised or supervised. When
unsupervised, reporting consists of only the open or closed states.
When configured as supervised, the input circuit will report not only open and closed, but also open
circuit, shorted, grounded*, and foreign voltage*. A supervised input circuit requires two resistors be
added to the circuit to facilitate proper reporting. The standard supervised circuit requires dual 1K
Ohm, 1% resistors and should be located as close to the sensor as possible. Custom end of line
(EOL) resistances may be configured via the host software.
NOTE: Grounded and foreign voltage states are not a requirement of UL 294 and therefore not
verified by UL.
The input circuit wiring configurations shown are supported but may not be typical:
1K,1%
1K,1%
1K,1%
1K,1%
Standard Supervised Circuit,
Normally Closed Contact
Standard Supervised Circuit,
Normally Open Contact
Unsupervised Circuit,
Normally Open Contact
Unsupervised Circuit,
Normally Closed Contact
TB2
IN4
IN2
IN3
1
IN1
TB1
1
}
9. Relay Circuit Wiring:
The eMAX-MR62e includes four (4) relays with Form-C contacts (dry) that provide for controlling door
lock mechanisms or alarm signaling. Each relay contact is rated at 2A @ 30Vdc resistive. When
controlling the delivery of power to the door strike, the Normally Open and Common poles are
typically used. When momentarily removing power to unlock the door, as with a mag lock, the
Normally Closed and Common poles are typically used. Check with local building codes for proper
egress door installation.
Door lock mechanisms can generate feedback to the relay circuit that can cause damage and
premature failure of the relay. For this reason, it is recommended that a diode be used to protect the
relay. Wire should be of sufficient gauge to avoid voltage loss.
It is possible for the eMAX-MR62e to provide power for a 12 Vdc door strike providing the maximum
current is not exceeded. See specification section.
TB5
DIODE SELECTION:
DIODE Current Rating > 1 X STRIKE CURRENT
DIODE Break Down Voltage: 4X STRIKE VOLTAGE
FOR 12VDC or 24VDC STRIKE, DIODE 1N4002
(100V /1A) TYPICAL
February, 2019 eMAX-MR62e-Man Page 9 of 16
10. Status LEDs:
At Power-up, LED 1 turns ON then LEDs 2 through 7 are turned ON then OFF in sequence.
The following table describes the LED’s in the Normal Running mode:
LED
DESCRIPTION
1
On-line = four pulses per second; 0.1 second ON, 0.1 second OFF, OFF for .3 seconds
Off-line: 0.2 second ON, 0.8 second OFF
Waiting for application firmware to be downloaded: .1 sec ON, .1 sec OFF
2
Input IN1 Status: OFF = Inactive, ON = Active, Flashing = Fault. See note 2
3
Input IN2 Status: OFF = Inactive, ON = Active, Flashing = Fault. See note 2
4
Input IN3 Status: OFF = Inactive, ON = Active, Flashing = Fault. See note 2
5
Input IN4 Status: OFF = Inactive, ON = Active, Flashing = Fault. See note 2
6
Input IN5 Status: OFF = Inactive, ON = Active, Flashing = Fault. See note 2
7
Input IN6 Status: OFF = Inactive, ON = Active, Flashing = Fault. See note 2
J1-YELLOW
Ethernet speed: OFF = 10 Mb/S, ON = 100 Mb/S
J1-GREEN
OFF = No Link, ON = Good Link, Flashing = Ethernet Activity
Note 2: If this input is defined, every three seconds the LED is pulsed to its opposite state for 0.1
second, otherwise, the LED is off.
11. IT Security
When installing When installing the eMAX-MR62e, it is important to ensure that it is done in a secure
manner.
Upon installation, the user accounts to the web configuration page should be created with secure
passwords, and that all DIP switches are in the off position for the normal operating mode. The
eMAX-MR62e is shipped from the factory with a default login account, which is enabled when DIP 1
is moved from OFF to ON. The default login user name and password will be available for five
minutes once enabled. Therefore, it is important that at least one user account is defined, and the
DIP switches are set to OFF before the MR62e is commissioned. It is also highly recommended not
to configure the MR62e with an IP address that is accessible from the public Internet.
To further enhance network security, options are available to disable Zeroconf discovery, as well as
the web configuration module itself.
February, 2019 eMAX-MR62e-Man Page 10 of 16
12. Specifications:
The eMAX-MR62e is for use in low voltage, Class 2 circuits only.
Power Input: PoE (12.95 W), compliant to IEEE 802.3af
or
PoE+ (25 W), compliant to IEEE 802.3at
or
12 Vdc 10 %, 1.7 A maximum
For UL, the Power Sourcing Equipment (PSE) such as a PoE/PoE+ enabled network switch and/or
PoE/PoE+ power injectors must be UL Listed under UL294B. Wiring for the 12V input shall not
extend more than 30m from the product.
Power Output: PoE: VO (TB4-1) and RVO (TB7-4), combined: 12 Vdc @ .66 A
maximum
PoE+ or 12 Vdc: VO (TB4-1) 12 Vdc @ 1 A maximum, RVO, (TB7-4) 12
Vdc @ .5 A maximum
Output: Four relays, Form-C contacts rated at 2 A @ 30 Vdc
Inputs: Six unsupervised/supervised, End of Line resistors, 1k/1k ohm, 1%, ¼
watt standard
Reader Interface:
Power: 12 Vdc @ .5 A maximum (RVO, TB7-4)
Communication: 2-Wire RS-485, OSDP protocol, four devices maximum
Cable Requirements:
Communication: Ethernet, Category 5, minimum
External Input Power: 1 twisted pair, 18 AWG (if required)
Alarm Inputs: 1 twisted pair per input, 30 ohm maximum
Relay Outputs: As required for the load
Reader Data RS-485/power: 2 twisted pair with shield, 24 AWG, 120 ohm impedance
and Power* 4000 foot (1220 m) maximum.
or
RS-485: 1 twisted pair with shield, 24 AWG, 120 ohm impedance, 4000
foot (1220 m) maximum
and
power: 1 pair 18 AWG*
* Type of cable(s) and gauge determined by length and voltage/current
requirements. Local power source may be required.
Environment:
Temperature: -55 to +85 C, storage
0 to +70 C, operating
Humidity: 5 to 95 % RHNC
February, 2019 eMAX-MR62e-Man Page 11 of 16
Mechanical:
Dimension: 5.5 in. (140 mm) W x 2.75 in. (70 mm) L x 0.96 in. (24 mm) H without
bracket
5.5 in. (140 mm) W x 3.63 in. (92 mm) L x 1.33 in. (34 mm) H with
bracket
Weight: 4 oz. (112 g) without bracket
5 oz. (142 g) with bracket
UL294, 6th edition Performance Levels:
Feature
Level
Standby Power
I
Endurance
IV
Line Security
I
Destructive Attack
I
13. Additional Mounting information:
Sources for the optional items shown below:
▪3-gang stainless steel blank cover. Available from:
Leviton part number 84033-40
Graybar part number 88158404
▪Magnetic switch set: G.R.I. part number: 505
Side View:
FIELD WIRING
MR51e WITH INCLUDED
MOUNTING PLATE
TO ETHERNET
NETWORK
OPTIONAL 3-GANG
JUNCTION BOX
OPTIONAL BLANK
COVER W/SCREWS
OPTIONAL MAGNETIC
TAMPER SWITCH
February, 2019 eMAX-MR62e-Man Page 12 of 16
Mounting Plate Dimensions:
3.85 [97.8]
2.35 [59.7]
5.50 [139.7]
3.63 [92.1]
3.30 [83.8]
3.63 [92.1]
Ø0.16 [Ø4.0]
MR50 MGT HOLES
4PL
Ø0.16 [Ø4.0]
3-GANG MGT HOLES
4PL
14. Warranty
Maxxess Systems, Inc. warrants this product is free from defects in material and workmanship under
normal use and service with proper maintenance for one year from the date of factory shipment.
Maxxess Systems, Inc. assumes no responsibility for products damaged by improper handling or
installation. This warranty is limited to the repair or replacement of the defective unit.
There are no expressed warranties other than set forth herein. Maxxess Systems, Inc. does not
make, nor intends, nor does it authorize any agent or representative to make any other warranties,
implied or otherwise, and expressly excludes and disclaims all implied warranties of merchantability
or fitness for a particular purpose.
Returned units are repaired or replaced from a stock of reconditioned units. Returns must be
accompanied by a return authorization number (RMA) obtained from customer service, and prepaid
postage and insurance.
Liability
The Interface should only be used to control exits from areas where an alternative method for exit is
available. This product is not intended for, nor is rated for operation in life-critical control applications.
Maxxess Systems is not liable under any circumstances for loss or damage caused by or partially
caused by the misapplication or malfunction of the product. Maxxess Systems liability does not
extend beyond the purchase price of the product.
February, 2019 eMAX-MR62e-Man Page 13 of 16
Appendix A - Configuring the eMAX-MR62e
The eMAX-MR62e local controllers include an internal web page for configuring the communication
parameters of the device. It is recommended that the device be preconfigured in a controlled
environment before installing the device on site.
Default IP is 192.168.0.251
Default user and password is admin and password
Configuration of the eMAX-MR62e controller requires the following information.
•IP Address _____.______.______._____
•Subnet Mask _____.______.______._____
•Gateway IP _____.______.______._____
Connecting to the eMAX-MR62e local controller
1. Connect the device to a computer using a standard network cable.
2. Set the computer’s IP to a Statis IP Address of 192.168.0.10.
3. At the eMAX-MR62e Module, be sure to turn dipswitch #1 to the ON position. This enables the use of
the DEFAULT Login credentials, and will time out in 5 minutes.
4. Connect to the device from your browser using http://192.168.0.251. The following screens will
appear.
This message may be different, depending on the version of Operating System that you have installed.
First Click on “Details “, which will tell you that your PC does not recognize the Web Pages’s Security
Certificate. This is Normal. Then click on “Go on to the webpage “.
February, 2019 eMAX-MR62e-Man Page 14 of 16
The Login Screen will then appear:
Login using username ‘admin’and password’password’.
The following message will appear if you FAILED to turn Switch #1 to ON, or if 5 minutes have elapsed
since turning switch #1 to ON.
.
If you entered the incorrect UserName or Password, you will see the Login Screen display “Login Failed”,
and you should click on “Retry”.
February, 2019 eMAX-MR62e-Man Page 15 of 16
After logging in with the correct UserName and Password, the following screen should be displayed:
Click on the Network page to configure the IP parameters. Click on the “Use Static IP configuration”
circle to enable the configuration and use of the Static IP addressing.
Configure the required IP Address, Subnet Mask, Default Gateway (as applicable) for the eMAX-MR62e.
To SAVE, Click on “Accept”button,
then select the ‘Apply Settings’button
February, 2019 eMAX-MR62e-Man Page 16 of 16
You should then see:
The first check box is telling you that the Dip Switch settings must be reset to off.
The 2nd check box is telling you that no special User Accounts were defined.
If you wish to proceed, check both of the check boxes, then click on the “Apply and Reboot”box to
proceed.
You should see a message that says “Board is rebooting”.
You can then logout.
Remember that you should ALWAYS create a USER Account. When a new user is added, it disables the
default admin user. It is strongly recommended that a new user account be added during this
configuration process. Browse to the Users link and add a user. If the new user details are ever lost, the
controller dipswitch S1 may be used to re-enable the default user.
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