HID ESH400 Installation Guide

®

EDGE EVO

15370 Barranca Parkway
Irvine, CA 92618-2215
USA

EDGE EVO is the next evolution in access control hardware solutions. A true IP solution that meets the demands of open architecture,
IP-centric environments, EDGE EVO provides fully distributed intelligence and decision making right to the door, leveraging the IT
infrastructure to the maximum extent possible. Wire the EDGE EVO device to Hi-O interface modules providing connectivity to electronic
door components and access control readers.

Hi-O involves devices with built-in intelligence and a CANbus that links all the devices together. Password protect or encrypt Hi-O CANbus

data trafc. Each Hi-O device (such as the push plate, electric strike, card reader and door operator) is connected to the CANbus by a

single, four-wire cable. Two of the wires supply power and the other two are used for data communication.

Specifications

Hi-O Networked Controller

EH400 / ESH400

InstallatIon GuIde

82000-920, Rev D.1

October 2012

© 2009 - 2012 HID Global Corporation. All rights reserved.

CONDITIONS VOLTAGE DC (VDC)

+12 VDC 0.14 Amp 1.68

DC Input (NSC)

Input

DC Input (MAX)

CAN DC
Output

(MAX)

Output

AUX 12 / 24 VDC Input +10.8 to +24 VDC 1.2 Amp* 28.80

PoE Input + 24 VDC (NOM) 0.4 Amp* 9.60

NSC = Normal Standby Condition

+24 VDC 0.08 Amp 1.92

PoE (+48VDC NOM) 0.05 Amp 2.40

+12 VDC 1.5 Amp 18.00

+24 VDC 1.5 Amp 36.00

PoE (+48 VDC NOM) 0.3 Amp 14.40

* Combined output ratings not to exceed V*I = W.

Values:

• 1.2 Amp (+24 VDC AUX Input, 28.80 W)

• 1.2 Amp (+12 VDC AUX Input, 12.46 W)

• 0.4 Amp (PoE Input, 9.6 W)

CURRENT

(Amp)

Power (W)

OPERATING
TEMPERTURE

32° - 122°F

(0° - 50° C)

CABLE LENGTH

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 ● 0.33mm

RJ45 = 328 ft (100 m) - Category 5 K

2

2

X1 = K for Black
G for Gray
X2 = N for non-Solo
S for Solo

UL REF
NUMBER

E400CX1X2N

EDGE EVO Hi-O Networked Controller

ted

M

a

g

n

e

H

N

Con

EH400

82000-920, D.1

1

Power Analysis

Before starting installation, determine which components will be used in the system and analyze the power requirements to avoid

over-loading the EDGE EVO Hi-O Networked Controller (EH400).

The following steps illustrate sizing power requirements for the system.

Step 1 - Identify System Components

Identify the components that will be used in the system. A typical installation may include the following components:

• Door Position Switch – Detects when the door is open or closed.

• Magnetic Lock – Holds the door locked.

• Request to Exit (REX) Switch – Unlocks the door when exiting the secured area.

• Local Exit Alarm – Sounds an alarm upon an unauthorized exit.

• EDGE EVO Hi-O Edge Door Module (EDM-M) – Connects peripheral devices to the Hi-O bus.

• EDGE EVO Hi-O Networked Controller (EH400) – Provides access control and manages all peripherals

around the door.

• Hi-O iCLASS Wiegand Reader – Provides entry into the secured area.

Step 2 - Create System Layout

Using the components identied in “Step 1 - Identify System Components” on page 2, create the system layout.

In this example, the EH400 is connected to the remote server through an Ethernet connection and manages door
peripherals over the Hi-O bus. The EDM-M receives inputs from the Door Position Switch and REX Switch to drive the
Magnetic Lock and Local Exit Alarm outputs.

Unprotected

Area

Hi-O iCLASS

S

Reader

i-O

Hi-O Networked

Controller

CANbus Data

Door Position

Switch

Magnetic Lock

Protected Area

Ethernet Data

Local Sounder

Exit Alarm

Door
Module

REX Switch

Remote Area

Ethernet Switch

Physical Access

Control Server

(real-time functions

not required )

Figure 1 - System Layout Example

INSTALLATION GUIDE2

©2009 - 2012 HID Global Corporation. All rights reserved.

82000-920, D.1

Step 3 - Analyze Power Requirements

EDGE EVO Hi-O Networked Controller

A - Door Peripheral Operational Currents

For the door peripherals identied in “Step 1 - Identify System Components” on page 2, consult the vendor data
sheets to determine the operational current draw. Typical operational current draw is provided below.

Note: See individual peripheral data sheets for actual operational current draw.

Device Conditions Typical Operational Current

Door Position Switch Vin = 12VDC 15mA

(For example, Securitron MSS) Vin = 24VDC 15mA

Mag Lock Vin = 12VDC 300mA

(For example, Securitron M32) Vin = 24VDC 150mA

REX Switch Vin = 12VDC 28mA

(For example, Securitron EEB) Vin = 24VDC 38mA

Exit Alarm

(For example, Detex 411)

iCLASS Wiegand Reader Vin = 12VDC 150mA

Consult HID datasheets for Hi-O enabled interface devices.

Vin = 12VDC

Vin = 24VDC

70mA

70mA

EH400

B - Match I/O Requirements to the Hi-O Interface Device

For the door peripherals identied in “Step 1 - Identify System Components” on page 2, the system requires
connection to a Hi-O interface device. In this example, the EDGE EVO Hi-O Edge Door Module (EDM-M) provides

general purpose I/O connectivity.

The Hi-O iCLASS reader does not require connection to the EDM-M and derives power and data connectivity from the
Hi-O CANbus directly.

Device Ports Conditions I out

Strike / Aux

EDGE EVO Hi-O Door
Module EDM-M

* Shared between each relay

** Each relay

The combined current requirement for the four door peripherals identied in “Step 1 - Identify System Components” on
page 2 is 413mA @ +12VDC,

or 273mA @ +24VDC.

The EDM-M provides sufcient power when the door peripherals are connected to the Strike/AUX relays congured for
unregulated output at +12VDC/+24VDC. Alternatively, connect the door peripherals to the Strike/AUX relays congured

for Dry contact.

The Hi-O iCLASS reader does not require connection to the EDM-M and derives power and data connectivity from the
Hi-O CANbus directly.

NC or NO
DC Output

Dry Jumpers

+12VDC unregulated (@+12VDC EDM-M input) 700mA*

+24VDC unregulated (@+24VDC EDM-M input) 700mA*

+12VDC regulated (@+24VDC EDM-M input) 310 mA*

+12 to +24VDC External 2.00 Amp**

©2009 - 2012 HID Global Corporation. All rights reserved.

INSTALLATION GUIDE 3

EDGE EVO Hi-O Networked Controller

EH400

C - Compute and Compare Overall Current Draw

Calculate the total current draw for all door peripherals, all Hi-O interface devices, and all Hi-O enabled readers with the
following equation, adding terms as required.

I

= I

+ I

+ I

+ I

total

dps

mag

rex

alarm

+ I

Hi-O iCLASS reader

For this example, the total current draw is shown.

I

@ +12VDC = 15mA + 300mA + 28mA + 70mA + 160mA* + 40mA* = 613mA

total

I

@ +24VDC = 15mA + 150mA + 38mA + 70mA + 160mA*+ 40mA* = 473mA

total

* Notes:

a. The EDM-M draws 40mA standby current.

b. The Hi-O iCLASS reader requires a +24VDC to +12VDC converter module (EDGE EVO Hi-O Voltage Module

- EVM), adding approximately 5 to 10mA for overall load requirements.

Compare the required current draw (I

total

1) to select the EH400 power scheme. The CAN DC PWR Output represents the entire power output capacity of the
EH400.

Device Port Conditions V out I out

Hi-O Networked Controller

(EH400)

CAN DC PWR

Output (MAX)

+ … + I

) to the output current capacity of the EH400 (see “Specications” on page

EDM-M

AUX +12/24 VDC Input +10.8 to

+24VDC

1.2Amp

PoE Input +24VDC (NOM) 400mA

82000-920, D.1

In this example, the EH400 provides sufcient power when operating with +12/+24VDC auxiliary power supplies.

Directly connect the door peripherals identied in “Step 1 - Identify System Components” on page 2 to the I/O ports
of the EDGE EVO Hi-O Edge Door Module (EDM-M). Consult the EDM-M datasheet to determine the available current

capacity for the selected input power scheme of the EH400.

Ensure all door peripherals connected to the Strike/AUX relays and the Reader DC PWR Output or both do not exceed

1.2 Amps (AUX Input) or 400mA (PoE Input) combined. Alternatively, connect the door peripherals to the Strike/AUX
relays congured for Dry contact up to 2 Amps per relay.

INSTALLATION GUIDE4

©2009 - 2012 HID Global Corporation. All rights reserved.