Phoenix Contact RAD-ISM-2400-SET-UD-ANT User Manual

Unidirectional Wireless T ransmission System
RAD-ISM-2400-SET-UD-ANT

1. Short Description

The RAD-ISM-2400-SET-UD-ANT unidirectional
radio system comprises a transmitter (Tx) and a
receiver (Rx).

The transmitter detects two digital signals in the
range from 5 - 30 V AC/DC, and one analog current
signal (4...20 mA). These signals are available for
further processing at the receiver in the form of two
relay Form C contacts and one 4...20 mA current
output. In addition, a third relay in the receiver
diagnoses the status of the radio connection (RF link).

The radio connection is established automatically
when the operating voltage U
devices. When the connection has been established,
both RF LEDs are lit and the RF link relay in the
receiver has picked up. From now on, a data
transmission is started every 27 ms.

is applied to both

B

Phone +49 - 52 35 - 30 0 • Fax +49 - 52 35 - 34 12 00 • www.phoenixcontact.com

Phoenix Contact GmbH & Co. KG • 32825 Blomberg, Germany

Local Contact: www.phoenixcontact.com/salesnetwork

Unidirectional Wireless Transmission System – RAD-ISM-2400-SET-UD-ANT

2. T echnical Data

RAD-ISM-2400-SET-UD-ANT

Description

Type Order No.

Pcs.

Pkt.

Unidirectional wireless transmission system

Technical Data
Supply

Supply voltage U
Tolerance
Current consumption (at U

Radio Interface

Frequency range
Reserved frequency (Channel 5 on 802.11b)
Channel distance
Number of channels Groups/channels per group
Transmission power
Antenna

Analog Input

Signal range
Overload capability range
Underload capability range
Input resistance
Tolerance At +25°C (+77°F) Typical/maximum
Temperature coefficient -20°C to +65°C (-4˚F to +149˚F)
Supply for passive sensors (terminal block 7)

Analog Output

Signal range
Overload capability range
Underload capability range
Maximum load resistance
Tolerance At +25°C (+77°F) Typical/maximum
Temperature coefficient -20°C to +65°C (-4˚F to +149˚F)

Digital Input

Signal range
High signal Minimum
Low signal Maximum

Digital Output + RF Link

Contact type Floating Form C contact
Contact material Ag, gold-plated
Switching voltage Maximum
Switching current Maximum
Switching frequency Maximum
Mechanical service life Cycles
Electrical service life Cycles

Climatic Data

Ambient temperature Operation (IEC 68-1/UL 508)
Relative humidity

B

)Typical

B

(at 0.5 A switching current)

Maximum

Storage

RAD-ISM-2400-SET-UD-ANT 28 67 28 3 1

Transmitter Receiver

24 V DC

-50%/+25%
18 mA
35 mA

2.4032 - 2.4799 GHz

2.4220 - 2.4420 GHz
100 kHz
9/63
10 mW
2 dBi Omni

4...20 mA
10%
5%

Ω

< 170

±

0.025%/

B

0.075%

±

0.007%/K
U

–
–
–
–
–
–

5...30 V AC/DC
5 V DC

1.5 V DC
–

–
–
–
–
–
–

-20°C to +65°C (-4˚F to +149˚F)

-40°C to +85°C (-40˚F to +185˚F)

24 V DC

-50%/+25%
54 mA
120 mA

–
–
–
–
–
–
–

4...20 mA
10%
5%

= (U

- 10 V)/20 mA

R

B

B

±

0.075%/

±

0.004%/K
–

–
–

3
60 V DC, 30 V AC

0.5 A
2 Hz
1 x 10
8 x 10

-20°C to +65°C (-4˚F to +149˚F)

-40°C to +85°C (-40˚F to +185˚F)

0.225%

7
5

PHOENIX CONTACT page 2 of 10

Unidirectional Wireless Transmission System – RAD-ISM-2400-SET-UD-ANT

Additional Technical Data
Indicators

Antenna

Cable length
Antenna length
Antenna diameter

Housing

Housing material Polyamide PA, not reinforced
Degree of protection
Mounting On TS 35 DIN rail according to EN 60 715
Mounting position Any
Dimensions (W x H x D)

Weight Approximately

Connection Terminal Blocks

Cable cross section
Cable length Supply

Approval

Standards Used

EMC
Radio
Safety
Health

Additional Tolerances When Subject to EMI
Analog Input

Conducted interference according to EN 61000-4-6
Radiated-noise immunity according to EN 61000-4-3
Radiated-noise immunity according to EN 61000-4-3

For additional information about the antennas, refer to the
"Antennas and Accessories" data sheet.

RF link: green LED

Digital 1 + 2: green LED

Signals

Transmitter Receiver

ON/OFF
ON/OFF

1.5 m (4.92 ft.)

82.5 mm (3.25 in.)
10 mm (0.39 in.)

IP20

(17.5 x 99 x 114.5 mm
[0.689 x 3.898 x 4.508 in.])
110 g

2

0.2 - 2.5 mm
< 10 m (32.81 ft.)
< 30 m (98.43 ft.)

cc

cc

EN 301 489-17:V1.2.1, EN 61000-6-2:2001
EN 300 328-17:V1.4.1
EN 60950-1:2001
EN 50371:2002

+/-3.5% @ 10 V
+/-2% @ 3 V/m
+/-19% @ 10 V/m

(25 -14 AWG)

0682

ON/OFF/Flashes
ON/OFF

1.5 m (4.92 ft.)

82.5 mm (3.25 in.)
10 mm (0.39 in.)

137 g

Transmitter

4

+24 V

GND

5

6

Power

µC

Loop Power Out

R

7
8

B

9

RF OUT

0

!

"

+24 V

4...20 mA IN
GND

IN 1

COM

IN 2

Receiver

14 / NO

11 / COM

12 / NC

RF IN

4...20 mA OUT

GND

+24 V

1

2

3

4

5

6

RF Link

Power

µC

OUT 1

7

8

9

0

!

"

OUT 2

NC / 12

COM / 11

NO / 14

NC / 12

COM / 11

NO / 14

PHOENIX CONTACT page 3 of 10

Unidirectional Wireless Transmission System – RAD-ISM-2400-SET-UD-ANT

3. Device View, Connections, and Control Elements

77

77

66

66

55

22

22

33

33

10 11 12

7 8 9

IN 1

55

44

44

1

4-20mA LOOP

PWR

DIGITAL

IN

COM

GND

IN 2

SPREAD SPECTRUM TRANSMITTER

SPREAD SPECTRUM TRANSMITTER

POWER:

POWER:

CURRENT:

CURRENT:

DIGITAL INPUTS:

DIGITAL INPUTS:

ANALOG INPUT:

ANALOG INPUT:

TEMPERATURE:

INPUT RESISTANCE:
TEMPERATURE:

WARNING: EXPLOSION HAZARD

Do not disconnect equipment unless
power has been switched off or the
area is known to be non-hazardous.

APPROBATION / APPROV ALS

APPROBATION / APPROV ALS

2

RF

RAD-ISM-2400-TX

RAD-ISM-2400-TX

Ord.No.: 28 67 31 9

Ord.No.: 28 67 31 9

OMNEX

OMNEX

Trusted Wireless

Trusted Wireless

12-30VDC

12-30VDC

18 mA typ./35 mA max.

50mA MAX

5-30VAC / VDC

5-30VAC / VDC

4-20mA

4-20mA

< 170 ohm

-20°C to 65°C

-20°C to 65°C

-4°F to 149°F

-4°F to 149°F

POWER

GND

+24V

10 11 12

7 8 9

11

11

DIGITAL 2

NC

COM

NC

DIGITAL 1

COM

NO

NO

RSSI

RF

2

1

RAD-ISM-2400-RX

RAD-ISM-2400-RX

Ord.No.: 28 67 30 6

Ord.No.: 28 67 30 6

OMNEX

OMNEX

Trusted Wireless

Trusted Wireless

12-30VDC

12-30VDC
100mA MAX

54mA typ./120mA max.

0.5A @ 120 VAC

0.5A @ 60 VAC/ 30 VAC

SPREAD SPECTRUM RECEIVER

SPREAD SPECTRUM RECEIVER

4-20mA

4-20mA

POWER:

POWER:

-20°C to 65°C

-20°C to 65°C

CURRENT:

CURRENT:

-4°F to 149°F

-4°F to 149°F

CONTACT RATING:

CONTACT RATING:
ANALOG OUTPUT:

ANALOG OUTPUT:
TEMPERATURE:

TEMPERATURE:

WARNING: EXPLOSION HAZARD

Do not disconnect equipment unless
power has been switched off or the
area is known to be non-hazardous.

APPROBATION / APPROV ALS

APPROBATION / APPROV ALS

NC

+24V

RF LINK

COM

POWER

GND

NO

4-

20mA

Transmitter:

11

11

Connector: Operating voltage U

22

22

Connector: 4…20 mA input

33

33

Connector: Digital inputs

4444

LED: Digital input 1

5555

LED: Digital input 2

6666

LED: RF link

77

77

Antenna connection

Figure 06

Receiver:

B

Connector: Operating voltage U
+ analog output

B

Connector: RF link relay
Connector: Digital output 1
Connector: Digital output 2
LED: Digital output 1
LED: Digital output 2
LED: RF link
RSSI test socket
Antenna connection

PHOENIX CONTACT page 4 of 10

Unidirectional Wireless Transmission System – RAD-ISM-2400-SET-UD-ANT

4. Use

The RAD-ISM-2400-SET-UD-ANT radio
system may only be used in the
countries listed below:

Austria, Belgium, Denmark, Finland,
France, Germany, Great Britain, Greece,
Iceland, Ireland, Italy, Luxembourg, the
Netherlands, Norway (not including
Spitzbergen), Portugal, Spain, Sweden,
and Switzerland.

Phoenix Contact hereby declares that the
RAD-ISM-2400-SET-UD-ANT radio system complies
with the basic requirements and other relevant
regulations specified in directive 1999/5/EC.

The radio system should only be operated using
authorized accessories from Phoenix Contact. The use
of other additional components may invalidate the
device approval status.

4.1 Installation

The modules are snapped onto a DIN rail within a
control cabinet or control box. The control cabinet/box
must meet the requirements of EN 60 950-1:2001 in
terms of fire protection shielding.

In the electrical system of the building, a two-pole
disconnecting device must be provided to isolate the
equipment from the supply circuit.

In order to protect the modules against electrostatic
discharge when working on control cabinets, the
operating personnel must remove electrostatic
discharge before opening control boxes or control
cabinets and before touching the modules.

Observe the mounting instructions for the
antenna used. The antenna cable is plugged into the

antenna connection sockets

77

77

/.

4.2 T ransmitter Display and Diagnostic Elements

44

44

LED: Digital input 1 = Status of digital input 1

55

55

LED: Digital input 2 = Status of digital input 2

66

66

LED: RF link ON = Operating voltage U

transmitter is sending data

present,

B

4.3 Receiver Display and Diagnostic Elements

RF link relay
The RF link relay in the receiver diagnoses the status
of the radio connection. It picks up when the radio
connection is established.
If no data packets are received correctly over a
period of approximately 3.4 seconds, the relay drops
again.
It picks up again automatically when the radio
connection is re-established. The RF link rela y has a
Form C contact.

LED: Digital output 1 = Status of digital output 1

LED: Digital output 2 = Status of digital output 2

LED: RF link OFF = No operating voltage U
Flashes briefly approximately every 2 seconds

;

B

= No reception;
Flashes quickly = Connection breaking up

RSSI test socket
A voltage measuring device (manual multimeter) can
be connected to the RSSI test socket to measure a
voltage to GND, which provides information about
the received radio signal (the higher the voltage , the
better the reception).
Using the diagram below, the received signal
strength in dB can be determined using the voltage
value. This can be useful, e .g., when positioning and
aligning the antenna.

5

4,5

4

3,5

3

2,5

2

RSSI [V]

1,5

0,75

1

0,5

0

-125 -115 -105 -95 -85 -75 -65 -55 -45

1,25

1,75

2,25

signal loss (-dB)

2,75

3,25

3,75

4,25

4,75

Analog Output (Also Operating Voltage)

The analog output is supplied internally from the

unregulated operating voltage U
provides a power source at which the actuator is wired

. Terminal block 4

B

to ground (terminal block 5).

The output requires an internal drop voltage of 10 V.
The maximum load at the current output with a

nominal voltage of 24 V = (24 V - 10 V)/
20 mA = 700 Ohm. The maximum load therefore
depends on the operating voltage U

used.

B

Analog Input

22

22

The 4...20 mA analog input detects active and

passive current sensors.

For passive current sensors, the unregulated

operating voltage U

Digital Inputs

is provided at terminal block 7.

B

33

33

Both digital inputs on the transmitter can process
voltages from 5 - 30 V AC/DC. They have a shared
ground potential (terminal block 11) and are electrically
isolated from the operating voltage U

.

B

PHOENIX CONTACT page 5 of 10

Digital Outputs /

Two floating Form C contacts are used as the digital

outputs for the receiver.

4.4 Behavior If the Radio Connection Is Interrupted

If the radio connection is interrupted, all outputs
(analog and digital) retain their last value or status (see
connection examples in Section 5).

To configure a reset response (revert back to "0") f or
a digital signal or the analog signal when a radio
connection is interrupted, connect the RF link relay
contact in series.

To configure a reset response for all signals, use the
RF link relay to control one or more additional relays.

Unidirectional Wireless Transmission System – RAD-ISM-2400-SET-UD-ANT

5. Connection Examples

5.1. T ransmitter

Connection of a passive current sensor in

3-wire technology (see Figure 07).

+24V

GND

COM

6 5 4

7 8 9

10 11 12

RF

2

1

INPUT 2

INPUT 1

GND

4...20mA
Power
+24V

5...30VAC/DC

Figure 07

Connection of a passive current sensor in

2-wire technology (see Figure 08).

Connection of an active current sensor with separate

power supply connection (see Figure 09).

+24V

GND

+24V

GND

COM

6 5 4

7 8 9

10 11 12

6 5 4

RF

2

1

INPUT 2

INPUT 1

4...20mA
Power
+24V

5...30VAC/DC

Figure 08

PHOENIX CONTACT page 6 of 10

COM

7 8 9

10 11 12

RF

2

1

INPUT 2

INPUT 1

GND

4...20mA

+24V

GND

5...30VAC/DC

Figure 09

Unidirectional Wireless Transmission System – RAD-ISM-2400-SET-UD-ANT

5.2. Receiver

Connection Diagram for "Hold" Response for
All Outputs

The hold response retains the states of the digital
outputs and the analog signal when the radio
connection is interrupted (see Figure 10).

Connection Diagram for "Reset" Response for
Digital Outputs

In this example, the RF link rela y is connected to the
digital outputs in series. This means that the digital
outputs are set to "0" when the radio connection is
interrupted (see Figure 11).

GND

+24V

+24V

+24V

+24V

NO = Form A contact
NC = Form B contact

GND

+24V

+24V

6 5 4

3 2 1

7 8 9

10 11 12

6 5 4

3 2 1

4...20 mA

RSSI

RF

2

1

4...20 mA

A

RF link diagnostics

1 = NO
3 = NC

Digital output 1

7 = NO
9 = NC

Digital output 2

10 = NO
12 = NC

A

RF link diagnostics

1 = NO
3 = NC

Figure 10

Connection Diagram for "Reset" Response for the
Analog Output

In this example, the RF link rela y is connected to the
analog output in series. This means that the analog
output is set to 0 mA when the radio connection is
interrupted (see Figure 12).

GND

+24V

+24V

+24V

7 8 9

10 11 12

6 5 4

3 2 1

7 8 9

10 11 12

RSSI

RF

2

1

4...20 mA

RSSI

RF

2

1

Digital output 1

7 = NO
9 = NC

Digital output 2

10 = NO
12 = NC

A

RF link diagnostics

1 = NO
3 = NC

Digital output 1

7 = NO
9 = NC

Digital output 2

10 = NO
12 = NC

Figure 11

Caution:

The RESET response sets output to 0 mA

PHOENIX CONTACT page 7 of 10

Figure 12

Unidirectional Wireless Transmission System – RAD-ISM-2400-SET-UD-ANT

5.3. System Versions

Point-to-Point

In the point-to-point system version, the set is
installed, the signals are connected, and the operating
voltage is applied. The radio connection is established
automatically – no other settings are required
(see Figure 13).

Transmitter Receiver

Figure 13

Point-to-Multipoint

In the point-to-multipoint system version, the set
(RAD-ISM-2400-SET-UD-ANT Order No. 28 67 283) is
installed, the signals are connected, and the operating
voltage is applied. The radio connection is established
automatically.

Signal paths can be divided or multiplied through the
installation of additional receivers (RAD-ISM-2400-RX
Order No. 28 67 306) (see Figure 14).

Transmitter Receiver

Figure 14

PHOENIX CONTACT page 8 of 10

Unidirectional Wireless Transmission System – RAD-ISM-2400-SET-UD-ANT

5.4 Additional Receivers

Any number of additional receivers
(RAD-ISM-2400-RX Order No. 28 67 306) can be
used. The devices are supplied without a HOPKEY.

The HOPKEY contains the transmission frequencies
used and the hop sequence. This information is
required when installing an additional receiver in an
existing system.

To install an additional receiver, proceed as follows:

1. To protect the modules against ESD, the operating

personnel must remove electrostatic discharge at

appropriate points (e.g., control cabinet) before

touching the modules.

2. The existing system must have already established

a radio connection.

3. Disconnect the power to the existing system.

4. Open the housing of the receiver in the existing

system by pressing both the housing latches on the

sides. Remove the electronics module from the

housing (see Figure 15).

5. At the bottom right on the printed circuit board is a

small printed circuit board in a 10-pos. base – this is

the HOPKEY. Remove the HOPKEY and insert it in

the same position in the new receiver that you wish

to install (see Figure 16).

6. Close all the housing co vers and reinsert the devices

in the control cabinet(s).

7. Reconnect the supply voltage – the additional

receiver now receives the same information as the

receiver in the existing system.

8. Repeat the procedure for all additional receivers.

P001.1

J10562

Explanation:

When the supply voltage is connected, the
information is transmitted from the connected
HOPKEY to a non-volatile memory inside the module.
This HOPKEY can then be used to "teach" other
receivers. The HOPKEY can be stored in the last
receiver.

If no HOPKEY is connected, the information inside
the module is used.

Figure 15

J10562

P001.1

PHOENIX CONTACT page 9 of 10

Figure 16

Unidirectional Wireless Transmission System – RAD-ISM-2400-SET-UD-ANT

6. Tips and Notes

6.1 Notes on the General Assignment of Frequencies

In Gazette 22/1999, Order 154, the German
regulating body for telecommunications and mail
(RegTP) has stipulated a general assignment of
frequencies.

This general assignment applies to radio systems in
the frequency range from 2.400 - 2.4835 GHz for
general use.

Section 10 specifies that the radio system operator
has a duty to notify the RegTP in writing of the
installation of a system, if it uses transmission paths
that extend beyond the site.

If, for example, another radio system is installed,
which adversely affects an existing RAD-ISM system,
then this system must adjust its operation if the existing
system was already registered with the RegTP. System
registration is therefore designed to protect the system
operator.

A form, which the system operator can use to notify
the RegTP is provided in the appendix.

6.2 Notes for Operating Other Radio Systems in Close Proximity

If other radio transmission systems are operated on
the same frequency close to an INTERFACE wireless
system, interference may occur.

The effects on the RAD-ISM-2400-SET-UD-ANT are
marginal and barely noticeable.

However, in certain circumstances an installed
WLAN system (IEEE 802.11b) may be disturbed by
frequency hopping, even if all specified maximum
values are observed.

To provide a solution for these cases, the
RAD-ISM-2400-SET-UD-ANT reserves a small
frequency range in the 2.4 GHz band.

This is the range from 2.4220 GHz - 2.4420 GHz,
which corresponds to channel 5 of a WLAN system
according to IEEE 802.11b.

Should you experience the problem described
above, please configure your WLAN system to
channel 5.

7. Appendix

• CE declaration of conformity

• Declaration of conformity with

health requirements

• Form to notify the RegTP of an installed radio path

in/over a public area

PHOENIX CONTACT page 10 of 10

TNR: 101511-00-gb/10/15/03  Phoenix Contact 2003

Regulierungsbehörde für
Telekommunikation
und Post (Reg TP)

Postfach 80 01

53105 Bonn

Telefon 02 28/14-0
Fax 02 28/14-88 72

Informationen zu Funkanlage im 2,4GHz ISM Band

Sehr geehrte Damen und Herren,

hiermit setzen wir Sie über die Errichtung einer Funkanlage bei grundstücksüberschreitendem
Übertragungsweg gemäss Amtsblatt 22/1999, Verfügung 154/1999, Punkt 10 in Kenntnis.

Genaue Anschrift der ortsfesten Funkanlage:

Höhe der Antenne über Grund: m

Antennencharakteristik: F Rundstrahler (OMNI)

F Richtantenne (PANEL)

Bei Richtantenne: Anschrift der Gegenstelle:

Datum der Inbetriebnahme: ___.___.______

Betreiber der Funkanlage:

Name:

Strasse:

Ort:

Telefon:

Mit freundlichen Grüssen

Datum Unterschrift