HID EWM-M Installation Guide

®
EDGE EVO
15370 Barranca Parkway Irvine, CA 92618-2215 USA
The EDGE EVO Door and Reader module is designed for interfacing with the EDGE EVO Hi-O Networked Controller to electronic door components and a traditional Wiegand reader.
Designed for providing interface to traditional discrete access inputs and outputs, the Door component provides four analog/digital inputs
and two outputs. Congure the Door component in two ways; as a primary door interface to REX, Door Position Switch, Battery Fail, Power Fail, Lock, and Aux (Group 1) or as a general purpose input/output module (Group 2).
Congure the Reader Module in two ways, either a Group 1 or Group 2 device. When two readers are present at one access control point, the secure reader side is assigned Group 1.
Specifications
CONDITIONS
DC Input (NSC)
DC Input (MAX)
Input
Supervised inputs
(AC, Batt, REX, Door Mon) (MAX)
Strike *** /
AUX
NC or NO
DC Output
Output
(MAX)
AUX 12 VDC
Input @
Controller
AUX 24VDC
Input @
Controller
PoE Input @
Controller
AUX 12-24 VDC
/ PoE Input @
Controller
Unregulated (Wet)
Jumpers
Unregulated (Wet)
Jumpers
Regulated (Wet)
Jumpers – 12 VDC Unregulated (Wet)
Jumpers
Regulated (Wet)
Jumpers – 12 VDC
Jumpers Set to Dry
VOLTAGE DC (VDC)
+12 VDC 0.04 Amp 0.48 +24 VDC 0.04 Amp 0.96 +12 VDC 0.80 Amp 9.6 +24 VDC 0.80 Amp 19.2 0-5 VDC
Reference
+10 to +12 VDC 0.70 Amp* 8.40
+23 to +24 VDC 0.70 Amp* 16.80
+10 to +12 VDC 0.70 Amp* 8.40
+16.5 to 24 VDC 0.30 Amp* 7.2
+10 to +12 VDC 0.50 Amp* 6.0
+12 to 24 VDC
External
CURRENT (Amp)
0.005 Amp
(Sink)
2.00 Amp** 24.00
POWER (W)
0.025
OPERATING TEMPERTURE
32° - 122°F
(0° - 50° C)
Door & Reader Module
EDWM-M
InstallatIon GuIde
82363-901, Rev C.1
December 2012
© 2009 - 2012 HID Global Corporation. All rights reserved.
2
UL REF NUMBER
MEDMAxNN
x = K for Black
G for Grey
CABLE LENGTH
Inputs = 500 ft (150 m)
Outputs = 500 ft (150 m)
Hi-O CAN Bus Total Length 100 ft (30 m) -
22 AWG ● 0.65mm ● 0.33mm
Maximum between drops 30 ft (10 m)
22 AWG ● 0.65mm ● 0.33mm2

Reader Module

CONDITIONS VOLTAGE DC (VDC)
DC Input (NSC)
DC Input (MAX)
Input
Data 1/CLK , Data 0/Data (MAX) 0-5 VDC Reference N/A N/A
AUX 12 VDC
Reader PWR
Output VDC
(MAX)
Output
GRN LED, RED LED,
Beep and Hold (MAX)
External Tamper - (MAX) +5 VDC (NOM) 0.017Amp 0.085
@ Controller
AUX 24 VDC
@ Controller
PoE Input @
Controller
NSC = Normal Standby Condition ** Each Relay * Combined output rating not to exceed V*I = W *** Shared between relays
1.2 Amp (+24VDC AUX Input, 28.8 W)
1.2 Amp (+12VDC AUX Input, 12.96 W)
+12 VDC +24 VDC 0.72 +12 VDC +24 VDC 16.8
+9.8 to +12.25 VDC
0-5 VDC Reference
CURRENT (Amp)
0.03 Amp
0.70 Amp
0.30 Amp* 3.67
0.60 Amp* 7.35
0.50 Amp* 6.12
0.005 Amp
(sink)
POWER (W)
0.36
8.4
0.025
OPERATING TEMPERTURE
32° - 122°F
(0° - 50° C)
CABLE LENGTH
Wiegand = 500 ft (152.4 m) - 22 AWG ● 0.65mm ● 0.33mm
UL REF NUMBER
MEWMAxNN
2
x = K for Black
G for Grey
Door / Reader Module
EDWM-M
82363-901 C.1

1 Wiring

= Internal Tamper Disable Jumpers
*
(12 VDC or 24 VDC) CAN V+
Hi-O Group Select Jumper Short = Group 1, Open = Group 2
( )
Outside Door Inside Door
Optional Supervised Inputs
1-6K
1-6K
CAUTION: Some magnetic locks exhibit both high inrush current when activated and a
high instantaneous break voltage when de-energized due to magnetic eld collapse. It
is recommended you use of a snubber circuit across the controlling relay terminals to protect the controlling relay contacts. Go to support.hidglobal.com, see Solution 891 ­How do I wire a High In-Rush Current locking device to VertX/EDGE EVO. Not evaluated by UL.
1-6K
N/C
1-6K N/O
N/O
GND
CAN_H
CAN_L
CAN V+
GND
CAN_H
CAN_L
HI-O CANbus
12 P2 14 P1 1
*
1 P1 41 P10 6 1 P3 10
*
P7
P4
P6
P8
P5
P9
Relay
NC
DS
COM
NO
Jumpers
NC
AUX
COM
*
*
NO
Hi-O Group Select Jumper
Short = Group 1, Open = Group 2
( )
Outside Door Inside Door
Reader Tamp -
Reader Tamp+
Hold
Beep RED LED
GRN LED
Data1 / CLK
Data0 / DATA
GND
Reader PWR
Door
+
-
Mon
+
REX
-
+
BATT Fail Input Sense
-
+
AC Fail Input Sense
-
Notes:
Connect the Door Monitor to avoid a Door Forced Alarm.
Use Ground (GND) for the drain or tie the drain to the
reader ground if the reader is not powered off of the
module (5 VDC reader).

1.1 Internal Optical Tamper Disable Jumpers

To disable the internal optical tamper sensor for the right side PCB (Door interface board), attach a jumper wire from P3 pin 1 to P3 pin 2.
To disable the internal optical tamper sensor for the left side PCB (Reader interface board), attach a jumper wire from P2 pin 10 to P2 pin 5.
CAUTION: The unit ships from the factory with the Door interface board jumper pre-installed on the connector.
Removing this jumper causes false tampers to trigger.
Note: If desiring an external tamper, wire an unsupervised Normally Closed contact, replacing the pre-installed jumper.

1.2 Relay Jumpers

AUX Wet
CAN V+
3 1
JUMPER =
AUX Wet
+12VDC
3 13 1 3 1
AUX Dry
P9
P5
P8
DS Wet
CAN V+
DS Wet
+12VDC
3 13 1
DS Dry
P6
P4
P7
INSTALLATION GUIDE
2
©2009 - 2012 HID Global Corporation. All rights reserved.
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