EN4201/R EchoStream™ Receiver
A
Installation and Operation Manual - 04056B
1 Overview
The EN4201/R receiver allows you to add one transmitter to any application. With diversity reception and
advanced signal processing, Inovonics Wireless EchoStream technology is designed to minimize dead spots in
transmission areas.
1.1 Inovonics Wireless Contact Information
If you have any problems with this procedure, contact Inovonics Wireless technical services:
• E-mail: support@inovonics.com
• Phone: (800) 782-2709; (303) 939-9336
1.2 EN4201/R LEDs
Alarm LED:
Tamper Fault LED:
Low Battery Fault LED:
Inactive Fault LED:
Power LED :
Decode LED:
the pry-out door on the front panel is removed (Fig. 1G).
Reset Button:
timer. This button is only accessible when the pry-out door on the front panel is removed (Fig. 1H).
Lights when the selected transmitter is sending an alarm transmission (Fig. 1A).
Lights when the transmitter is sending a tamper transmission (Fig. 1B).
Lit when the selected tramsitter has a low battery (Fig. 1C).
Lit when the selected transmitter is inactive (Fig. 1D).
Lit when receiving power (Fig. 1E).
Flashes when any recognizable transmission is received. This button is only accessible when
Clears the current point status and resets outputs and LEDs. Resets the supervision window
A
B
C
D
E
H
I
Figure 1
A.
D.
G.
2 Installation and Startup
2.1 Select the Frequency Band
EchoStream products are able to use a range of radio frequencies, and must be configured for your geographic
area. To configure the receiver:
1.
3A); separate the housing.
2.
Note:
jumper from being lost when selecting North America.
3.
2.2 Program the Receiver
The receiver can be set in program mode to change point settings. The default settings are:
Point Supervision Window Ouput Type Switch (EN4201
1 4 hours Transmitter 1 Follow N/O
F N/A Fault Inactive is set to
2.3 Program Output
To program the transmitter output or the fault output:
1.
separate the housing.
2.
Figure 2
Note:
switch is normally opened or normally closed. If F is selected, the EN4201 automatically advances to the
switch option.
3.
registered to the point, the receiver advances to the supervision window option.
Note:
to delete the point and return to normal operation; press Program to advance to the supervision window
option.
Receiver LEDs
Alarm LED
Inactive Fault LED
Decode LED
Use a small screwdriver to press the housing release tab on the top or bottom of the receiver (Fig. 2A, Fig.
Place a selection jumper on the appropriate frequency band selection pins (Fig. 2F, Fig. 3F).
• Place the jumper on the top two pins, marked AUS, to set the frequency range to 915-928 MHz for
Australia.
• Place the jumper on the bottom two pins, marked NZ, to set the frequency range to 921-928 MHz for
New Zealand.
• Leave the jumper off the pins to set the frequency range to 902-928 MHz for North America.
North American is also selected when the jumper is only attached to one pin. This can prevent the
Cycle power source to reset.
Use a small screwdriver to press the housing release tab on either side of the receiver (Fig. 6A, Fig. 7A);
Use the Advance button to select either the transmitter output or the fault output (Fig. 2).:
Delete
Sup Wind
Output
Out Type
Switch
Select the Transmitter Output or the Fault Ouput
When programming the EN4201, the only programmable parameter for the fault output is whether the
Press the Program button (Fig. 2K, Fig. 3K) to begin programming the point. If no transmitter has been
If a transmitter has already been registered to the chosen point, the Delete LED lights. Press Advance
B.
Tamp er Fau lt LED
E.
Power LED
H.
Reset Button
None
1
Follow
N/O
C.
Low Battery Fault LED
F.
Transmitter Number LEDs
follow; low battery
and tamper are set
to latching.
4h
2h
23 4
Toggle
Moment
N/C
96h
Latch
Only)
N/O
F
4.
Use the Advance button to choose a supervision window of None, 2h, 4h and 96h. Press Program to
complete and advance to the output type option (Fig. 3).
Delete
Sup Wind
Output
Out Type
Switch
Figure 3
5.
Use the Advance button to select the output type (Fig. 4). There are four output types:
Follower:
The output reflects the transmitter’s alarm status.
Momentary:
Toggle:
The output changes state each time the device sends a new activation. A minimum of five seconds
must elapse before the output can send a new activation.
Latching:
The output turns on when activated and remains on until the receiver is reset.
Delete
Sup Wind
Output
Out Type
Switch
Figure 4
Press Program to complete and advance to the switch type option.
6.
Use the Advance button to choose between N/O and N/C (Fig 5). Press Program to complete..
Delete
Sup Wind
Output
Out Type
Switch
Figure 5
7.
All the option LEDs will light and the point you’ve just programmed will flash. If you wish to register the
transmitter, push the Reset button on the transmitter to be registered; otherwise, press Program to return to
normal operation mode.
Note:
All LEDs will turn off when the receiver has received the transmitter’s registration message. If the
LEDs do not turn off, press Reset on the transmitter again. The registration is not complete until all LEDs turn
off, indicating the receiver has received the transmitter’s registration message.
None
1234
Follow
Moment
N/O
Select the Supervision Window
The output turns on for seven seconds, then turns off, regardless of the device status.
None
1234
Follow
Moment
N/O
Select the Output Type
None
1234
Follow
Moment
N/O
Select the Switch Type
2h
N/C
2h
N/C
2h
N/C
4h
Toggle
4h
Toggle
4h
Toggle
96h
Latch
96h
Latch
96h
Latch
F
F
F
2.4 Connect Cabling
Note:
Always test point programming before connecting cabling.
1.
Connect power cabling to the Vs (Fig. 6B, Fig. 7B) and GND (Fig. 6C, Fig. 7C) connections.
• Power source should be 11-14 VDC. Power supply must be unswitched, uninterrupted, and regulated.
2.
Connect cabling to the tamper output (Fig. 6J, Fig. 7J).
• The optional tamper output is a normally open (N/O) output that reports receiver case tamper to an
external device.
3.
Connect cabling to the jam output (Fig. 6I, Fig. 7I).
• The optional jam output is a normally closed (N/C) output that opens when noise thresholds on all
transmission channels remain above a predetermined value for more than 20 seconds.
4.
Connect cabling to the reset input (Fig. 6H, Fig. 7H).
• The optional reset input circuit permits installation of a remote momentary normally open (N/O) switch
to clear faults, unlatch outputs and reset the receiver to a normal state.
5.
Connect cabling to the output terminal (Fig. 8-11).
• The EN4201 provides one open collector circuit (Fig. 6D) and an open collector fault output (Fig. 6E);
the EN4201R provides one Form C relay alarm output (Fig. 7D) and a relay fault output (Fig. 7E).
6.
Close the receiver housing.
A
B
C
Delete
None
Sup Wind
D
E
Output
Out Type
Switch
1234
Follow
N/O
F
Moment
4h
96h
2h
Togg le
N/C
AUS
NZ
F
Latch
L
DVANCE
K
PROGRAM
I
TAMP
J
A
C.
GND connection
F.
Frequency selection pins
I.
Jam output
L.
Advance button
Figure 6
A.
Housing release tabs
D.
Output terminals
G.
Reset button
J.
Tamper output
RESET
G
A
EN4201 Components
H
B.
E.
H.
K.
Power (11-14 VDC)
Fault output
Reset input
Program button
© 2004 Inovonics Wireless - www.inovonicswireless.com
A
A
B
D
RESET
Delete
None
Sup Wind
1234
Output
Follow
Out Type
N/O
Switch
F
E
Moment
4h
96h
2h
Togg le
N/C
AUS
NZ
F
Latch
DVANCE
H
TAMP
K
PROGRAM
I
J
A
B.
Power (11-14 VDC)
E.
Fault output
H.
Reset input
K.
Program button
EE4201
Vs
GND
Out 1
Fault
EE4201R
Vs
GND
NC
COM 1
NO
NC
COM 2
NO
0°- 60°C (32°- 140°F), 90% relative humidity, non-condensing
11 - 14 VDC; 150 mA (EN4201), ~400 mA max (EN4201R with relays energized)
Approx. 135 mA; approx. ~400 mA max (EN4201R with relays energized)
Open collector, drive down to .4V @ 100 mA (EN4201); Form C relay 1A @ 28 VDC,
Vs
GND
Zone 1
Return
Zone 1
Figure 9
Out, Normally Closed, with an EOL Resistor
Vs
GND
Zone 1
Return
Zone 1
Figure 11
Out, Normally Open, with an EOL Resistor
A low is less than .5 V; a high is greater than 2.5 V. Reset input: Contact closure,
915-928 MHz (Australia), 921-928 MHz (New Zealand) 902-928 MHz (USA)
Four
EN4201: one open collector output; EN4201R: one Form C relay output
EN4201: one open collector output; EN4201R: one Form C relay output
GND
C.
GND connection
F.
Frequency selection pins
I.
Jam output
Control
Panel
EE4201
Vs
GND
Out 1
Fault
EN4201 Cabling Option: Open Collector
Control
Panel
EE4201R
Vs
GND
NC
COM 1
NO
NC
COM 2
NO
EN4201R Cabling Option: Relay
C
G
Figure 7
A.
D.
G.
J.
Figure 8
Collector Out, Normally Open, with an EOL
Resistor
Figure 10
Out, Normally Closed, with an EOL Resistor
2.5 Mount the Receiver
Caution:
screens, boxes) will reduce RF range.
1.
maintenanc e.
2.
response.
3 Specifications
Housing:
Operating environment:
Power requirement:
Current consumption:
Output specifications:
0.5A @ 30 VAC resistive load (EN4201R); N/O receiver case tamper contact closure, N/O receiver jam input
indication.
Input specifications:
momentary low.
Receiver type:
Operating frequency:
Number of points/transmitters:
Number of alarm outputs:
Number of fault outputs:
Tamp er
A
EN4201R Components
Housing release tabs
Output terminals
Reset button
Tamper output
Control
Panel
Vs
GND
Zone 1
Return
Zone 1
EN4201 Cabling Option: Open
Control
Panel
Vs
GND
Zone 1
Return
Zone 1
EN4201R Cabling Option: Relay
Mount the receiver in a location removed from metal. Metal objects (duct work, wire mesh
Use the provided anchors and screws to mount the receiver in a location accessible for future
Perform a walk test, activating each transmitter assigned to the receiver and ensuring an appopriate
162 mm x 92 mm x 28 mm (6.38" x 3.60" x 1.10")
Frequency hopping spread spectrum
4 Warranty/Disclaimer
Caution:
may void the installer's authority to operate the equipment as well as the product warranty.
Inovonics Wireless Corporation ("Inovonics") warrants its products ("Product" or "Products") to conform to
its own specifications and to be free of defects in materials and workmanship under normal use for a period
of twenty-four (24) months from the date of manufacture. Within the warranty period, Inovonics will repair
or replace, at its option, all or any part of the warranted Product. Inovonics will not be responsible for
dismantling and/or reinstallation charges. To exercise the warranty, the User ("User", "Installer" or
"Consumer") must work directly through their authorized distributor who will be given a Return Material
Authorization ("RMA") number by Inovonics. Details of shipment will be arranged directly through the
authorized distributor.
This warranty is void in cases of improper installation, misuse, failure to follow installation and operating
instructions, alteration, accident or tampering, and repair by anyone other than Inovonics.
This warranty is exclusive and expressly in lieu of all other warranties, obligations or liabilities, whether
written, oral, express, or implied. There is no warranty by Inovonics that Inovonics product will be
merchantable or fit for any particular purpose, nor is there any other warranty, expressed or implied, except
as such is expressly set forth herein. In no event shall Inovonics be liable for an incidental, consequential,
indirect, special, or exemplary damages, including but not limited to loss of profit, revenue, or contract,
loss of use, cost of down time, or interruption of business, nor any claim made by distributor's customers or
any other person or entity.
This warranty will not be modified or extended. Inovonics does not authorize any person to act on its behalf
to modify or extend this warranty.
This warranty will apply only to Inovonics Products. Inovonics will not be liable for any direct, incidental, or
consequential damage or loss whatsoever, caused by the malfunction of Product due to products,
accessories, or attachments of other manufacturers, including batteries, used in conjunction with Inovonics
Products.
Note:
Changes or modifications to this unit not expressly approved by Inovonics Wireless Corporation
E-mail support@inovonics.com for a copy of the CE Declaration of Conformity.
Reset
Jam
Figure 12
Tamper, Reset and Jam Circuits
GND
GND
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