A simple solution
for i/o and serial
communications
Wireless modules • Extension modules • Programming & antenna cables • Antennas
SATEL-LP
– Easy, reliable
and secure
3 modes of
operation
Wire-in – Wire-out
Maps I/O from one location to another via wireless with-
out the need for an additional controller or soware.
Wireless I/O to Modbus
Collects I/O directly at SATEL-LP radio module using
extension modules. I/O is addressed via Modbus with-
out the need for additional hardware.
Wireless Serial
Provides RS-232 and RS-485 networking, reliable
connecting serial end devices, PLCs and RTUs.
3 frequency ranges
available
2.4 GHz
Designed for international use and suitable for
short-range, clear line-of-sight applications.
869 MHz
Designed to be used in Europe for short- or middle-
range applications of up to 20 kilometres.
900 MHz
Designed for North American use and suitable for
either short-range, non-line-of-sight applications or
for long-range applications of up to 30 kilometres.
The SATEL-LP product family oers an
extremely easy solution for simple I/O and
serial communications. With soware-free
radio setup, SATEL-LP oers a cost-eective
wireless solution where it is too costly or not
possible to run a wire.
All SATEL-LP modules are DIN rail mountable.
The communications over the air interface
is secured with a 128-bit AES encryption and
authentication.
SATEL-LP
for simple I/O and
serial communication
• Easy, soware-free conguration
• High-speed communications, up to 500 kbps
• 2.4 GHz, 869 MHz or 900 MHz licence
free frequency range
• Hot-swappable modular I/O
• All-in-one wireless platform
• Mesh networks with up to 250 nodes
• Frequency hopping spread spectrum
SATEL-LP expansion modules oer direct connection
of common industrial signals to the SATEL-LP radio
modules, eliminating the need for RTU or PLC devices.
Expansion modules are hot-swappable and up to 32
expansion modules can be added to one SATEL-LP
radio module.
Mesh networks with up to 250 nodes. Easy point-to-
point or network structures such as line, star or mesh.
Direct connection – no need
for RTU or PLC devices
SATEL-LP9 YM0409
• Licence free 900 MHz
• Designed for North America, South America
and Canada
• For short-range, non-line-of-sight applications or
for long-range applications of up to 30 kilometres
• FHSS (Frequency Hopping Spread Spectrum)
• Licence free ISM (Industrial, Scientic and
Medical) band
• Mesh networks of up to 250 devices
SATEL-LP8 YM0408
• Licence free 869 MHz
• Designed to be used in Europe
• For short- or middle-range applications
of up to 20 kilometres
• FHSS (Frequency Hopping Spread Spectrum)*
• Mesh networks of up to 99 devices
* Depends on the topology and baud rate
Wireless modules
SATEL-LP24 YM0424
• Licence free 2.4 GHz
• Designed for global use
• For short-range, clear line-of-sight applications
up to 5 kilometres
• FHSS (Frequency Hopping Spread Spectrum)
• Licence-free ISM (Industrial, Scientic
and Medical) band
• Mesh networks of up to 250 devices
SATEL-LP24 SATEL-LP9 SATEL-LP8
Frequency Range
2.4002 ... 2.4785 GHz 902 ... 928 MHz 869.4 ... 869.65 MHz
Receiver sensitivity
(adjustable)
-106 dBm (16 kbps) -112 dBm (16 kbps) -122 dBm (1.2 kbps)
-96 dBm
(125 kbps, default)
-105 dBm
(125 kbps, default)
-114 dBm
(9.6 kbps, default)
-93 dBm (250 kbps) -102 dBm (250 kbps) -111 dBm (19.2 kbps)
-95 dBm (500 kbps) -104 dBm (60 kbps)
-103 dBm (120 kbps)
Carrier max. power
100 mW (adjustable)* 1000 mW (adjustable) 500 mW (adjustable)
Supply voltage
19.2 … 30.5 Vdc 10.8 … 30.5 Vdc 19.2 … 30.5 Vdc
Max. current consumption
(@ 24 VDC@25°C, stand-alone)
≤ 65 mA 328 mA ≤ 65 mA
Temperature Range
-40 … +70°C
Serial Interface
RS-232, RS-485 RS-232, RS-485 RS-232, RS-485
Size H x W x D
17.5 x 99 x 114.5 mm 35 x 99 x 114.5 mm 17.5 x 99 x 114.5 mm
Antenna Connector
RSMA (female)
Air Interface Encryption
AES128
Transient Surge Protection
Yes
Degree of protection
IP20
Number of supported devices
≤ 250
(Addressing via soware)
≤ 250
(Addressing via soware)
≤ 99
(per wireless network)
Conformance
CE compliance
(R&TTE 1999/5/EC)
FCC Part 15.247,
IC RSS-210
FCC Part 15.247,
IC RSS-210
CE compliance
(R&TTE 1999/5/EC)
Vibration (operation)
in accordance with IEC 60068-2-6: 5 g, 10 Hz ... 150 Hz
Shock
16 g, 11 ms
Comparison chart
Local radio regulations need to be taken into account.
Values are subject to change without a notice.
* In Europe max. 19 dBm
Many ways
to use
Various network structures can be quickly
and easily implemented with SATEL-LP
from a simple point-to-point connection
to complex mesh networks.
1
0
2
1
0
2
OFF O N
DIP-1
1
2
3
4
IO-MAP
COM
1
NO
1
NC
1
COM
2
NO
2
NC
2
COM
4
NO
4
NC
4
COM
3
NO
3
NC
3
Pwr
Dat
Err
RAD-DOR4-I FS
1
1
0
0
2
1
1
0
0
2
1
0
2
OFF ON
DIP-1
1
2
3
44
P
MAP
IO-M
COM
COM
1
NO
1
NC
1
COM
2
NO
O
2
2
N
NC
2
COM
4
NO
4
NC
NC
44
COM
COM
3
NO
3
NC
3
Pwr
Da
t
Err
RAD-DOR4-I FS
AD-DOR4-IF S
D
DO1
DO2
DO3
DO4
1
0
2
7
6
8
OFF O N
DIP-1
1
2
3
4
IO-MAP
COM
1
NO
1
NC
1
COM
2
NO
2
NC
2
COM
4
NO
4
NC
4
COM
3
NO
3
NC
3
Pwr
Dat
Err
RAD-DOR4-I FS
7
7
6
6
8
7
7
6
8
1
0
2
OFF ON
DIP-1
1
2
3
44
P
MAP
IO-M
COM
COM
1
NO
1
NC
1
2
NO
O
2
2
N
NC
2
COM
4
NO
4
NC
NC
44
COM
COM
3
NO
3
NC
3
Pwr
Da
t
Err
RAD-DOR4-I FS
AD-DOR4-IF S
-D
DO1
DO2
DO3
DO4
1
0
2
3
3
4
OFF O N
DIP-1
1
2
3
4
IO-MAP
COM
1
NO
1
NC
1
COM
2
NO
2
NC
2
COM
4
NO
4
NC
4
COM
3
NO
3
NC
3
Pwr
Dat
Err
RAD-DOR4-I FS
3
3
3
3
4
3
3
3
3
4
1
0
2
OFF ON
DIP-11
1
2
3
4
4
P
MAP
IO-M
COM
COM
1
N
O
1
NC
1
COM
2
NO
O
2
2
N
NC
2
COM
4
NO
4
NC
NC
44
COM
COM
3
NO
3
NC
3
Pwr
Da
t
Err
RAD-DOR4-I FS
AD-DOR4-IF S
-D
DO1
DO2
DO3
DO4
1
0
2
9
8
0
OFF O N
DIP-1
1
2
3
4
IO-MAP
COM
1
NO
1
NC
1
COM
2
NO
2
NC
2
COM
4
NO
4
NC
4
COM
3
NO
3
NC
3
Pwr
Dat
Err
RAD-DOR4-I FS
9
9
8
8
0
9
9
8
0
1
0
2
OFF ON
DIP-1
1
2
3
44
P
MAP
IO-M
COM
COM
1
NO
1
N
C
1
COM
2
NO
O
2
2
N
NC
2
COM
4
NO
4
NC
NC
4
4
COM
COM
3
NO
3
NC
3
Pwr
Da
t
Err
RAD-DOR4-I FS
AD-DOR4-IF
S
-D
DO1
DO2
DO3
DO4
1
0
2
5
4
6
OFF O N
DIP-1
1
2
3
4
IO-MAP
COM
1
NO
1
NC
1
COM
2
NO
2
NC
2
COM
4
NO
4
NC
4
COM
3
NO
3
NC
3
Pwr
Dat
Err
RAD-DOR4-I
FS
5
5
4
4
6
5
5
4
4
6
1
0
2
OFF ON
DIP-11
1
2
3
44
P
MAP
IO-M
COM
COM
1
NO
1
NC
1
COM
2
NO
O
2
2
N
NC
2
COM
4
NO
4
NC
NC
44
COM
COM
3
NO
3
NC
3
Pwr
Da
t
Err
RAD-DOR4-I
FS
AD-DOR4-IF S
D
DO1
DO2
DO3
DO4
3
4
U
4
U
3
I
4
I
3
1
2U
2
U
1
I
2
I
1
OFF O N
DIP-1
1
2
3
4
1
0
2
6
5
7
IO-MAP
Pwr
Dat
Err
RAD-AO4-IF S
4
I
4
U
U
4
3
II
3
3
U
3
OFF ON
DIP-1
1
2
3
44
6
6
5
5
7
6
6
5
5
7
1
0
2
2
I
2
U
U
2
1
I
11
P
MAP
I
O
-
M
Pwr
Da
t
Err
RAD-AO4-IF S
RAD-AO4-IF S
D-
3
4
U
4
U
3
I
4
I
3
1
2U
2
U
1
I
2
I
1
OFF O N
DIP-1
1
2
3
4
1
0
2
2
1
3
IO-MAP
Pwr
Dat
Err
RAD-AO4-IF S
4
I
4
U
U
4
3
II
3
3
U
3
OFF ON
DIP-1
1
1
2
3
44
2
2
1
1
3
2
2
1
3
1
0
2
2
I
2
U
U
2
1
I
1
1
1
P
MAP
IO-M
Pwr
Da
t
Err
RAD-AO4-IF S
RAD-AO4-IF S
D-
3
4
U
4
U
3
I
4
I
3
1
2U
2
U
1
I
2
I
1
OFF O N
DIP-1
1
2
3
4
1
0
2
8
7
9
IO-MAP
Pwr
Dat
Err
RAD-AO4-IF S
4
I
4
U
U
4
3
II
3
3
U
3
OFF ON
DIP-1
1
2
3
44
8
8
7
7
9
8
8
7
7
9
1
0
2
2
I
2
U
U
2
1
I
1
1
U
1
P
MA
P
IO-M
Pwr
Da
t
Err
RAD-AO4-IF S
RAD-AO4-IF S
D-
3
4
U
4
U
3
I
4
I
3
1
2U
2
U
1
I
2
I
1
OFF O N
DIP-1
1
2
3
4
1
0
2
4
3
5
IO-MAP
Pwr
Dat
Err
RAD-AO4-IF S
4
I
4
U
U
4
3
II
3
3
U
3
OFF ON
DIP-1
1
2
3
4
4
4
4
3
3
5
4
4
3
5
1
0
2
2
I
2
U
U
2
1
I
1
1
U
1
P
MA
P
IO-M
Pwr
Da
t
Err
RAD-AO4-IF S
RAD-AO4-IF S
D-
3
4
U
4
U
3
I
4
I
3
1
2U
2
U
1
I
2
I
1
OFF O N
DIP-1
1
2
3
4
2
1
3
0
9
1
IO-MAP
Pwr
Dat
Err
RAD-AO4-IF S
4
I
4
U
U
4
3
II
3
3
U
3
OFF ON
DIP-1
1
2
3
4
4
0
0
9
9
1
0
0
9
1
2
1
3
2
I
2
U
U
2
1
I
1
11
P
MAP
IO-M
Pwr
Da
t
Err
RAD-AO4-IF S
RAD-AO4-IF S
D-
*
9
1
1
0
2
+24V 0V
RSSI +
S-PO
RT
Re
set
RSSI –
ANT
D(A) D(B)
RX TX
GND
CO
1
NO
1
NC
1
Pwr
Dat
Err
RAD-2400-IF
S
RAD-ID
1
2
2
+24
+24V
0V
RSSI+
S-PO
RT
S-P
Re
RSSI –
SSI–
ANT
D(A)( )
D(B)
D(B)
( )
RX
RX
TX GND
CO
1
NO
1
NC
NC
1
1
Pwr
Dat
Err
RAD-2400-IF
S
RAD-2400-IF
S
D-
2
D
D-ID
RA
D
RX TX
2. .2
*
9
1
2
1
3
+24V 0V
RSSI +
S-PO
RT
Reset
RSSI –
ANT
D(A) D(B)
RX TX
GND
CO
1
NO
1
NC
1
Pwr
Dat
Err
RAD-2400-IF
S
RAD-ID
+24
+24V
0V
SI+
S-PO
RT
S-P
RSSI –
SSI–
ANT
D(A)
( )
)
D(B)
D(B)
( )
RX
RX
TX
GND
CO
1
NO
1
NC
NC
1
1
Pwr
Dat
Err
RAD-2400-IF
S
RAD-2400-IF
S
D-
2
D
D-ID
RA
D
RX TX
-I
4
+I
4
P
wr4
-I3+I3Pwr3
-I
2
+I
2
P
wr2
-I
1
+I
1
P
wr1
1
0
2
2
1
3
OFF O N
DIP-1
1
2
3
4
IO-MAP
Pwr
Dat
Err
RAD-AI4-IF S
-I
4
+I
4
P
P
wr4
-I
3
+I
I33Pwr3
-I
2
+I
2
P
P
wr2
-I
1
+I
I
11
P
wr1
1
1
0
2
2
2
1
1
3
2
2
1
1
3
OFF ON
DIP-1
1
2
3
4
4
P
MAP
IO-M
Pwr
Dat
Err
S
RAD-AI4-IF S
AD
1
0
2
1
0
2
IO-MAP
DI
1L
DI
1H
DI
1
DI2L DI2H DI2
DI
3L
DI
3H
DI
3
DI
4L
DI
4H
DI
4
Pwr
Dat
Err
RAD-DI4-IF S
DI
DI
44
DI
4H
DI
4L
D
I
3
DI
3H
DI
DI
3L
1
1
0
0
2
1
1
0
0
2
1
1
0
2
P
MAP
IO-M
DI
DI
1L
DI
1H
DI
1
DI2L
DI
DI
2H
2H
D
DI
2
Pwr
Dat
Err
S
RAD-DI4-IF S
AD
DI1
DI2
DI3
DI4
2.1 2.2 2.3
*
9
1
3
2
4
+24V 0V
RSSI +
S-PORT
Reset
RSSI –
ANT
D(A) D(B)
RX TX
GND
CO
1
NO
1
NC
1
4.1 4.2 4.3
Pwr
Dat
Err
RAD-2400-IF
S
RAD-ID
+24
+24V
0V
R
SSI+
S-PORT
S-
P
RSSI –
RSSI –
ANT
D(A)
( )
D(B)
D(B)
( )
RX
RX
TX GND
CO
1
NO
1
NC
NC
11
Pwr
Dat
Err
RAD-2400-IF
S
RAD-2400-IF
S
D-
2
D
D-ID
RA
D
RX TX
3.1 3.2 3.3
-I
4
+I
4
P
wr4
-I
3
+I
3
P
wr3
-I
2
+I
2
P
wr2
-I
1
+I
1
P
wr1
1
0
2
4
3
5
OFF O N
DIP-1
1
2
3
4
IO-MAP
4.1 4.2
4.3
Pwr
Dat
Err
RAD-AI4-IF S
-I
4
+I
4
P
P
wr4
I
-I
3
+I
+I
3
3
P
wr3
4
4
3
5
4
4
3
5
1
0
2
-
I
2
+
I
2
P
P
wr2
-I
1
+I
+I
1
1
P
wr1
OFF ON
DIP-1
1
1
2
3
44
P
MAP
IO-M
Pw
r
Dat
E
rr
RAD-AI4-IF S
RAD-AI4-IF S
AD
2.1 2.2 2.3
1
0
2
3
2
4
IO-MAP
DI
1L
DI
1H
DI
1
DI
2L
DI
2H
DI
2
DI
3L
DI
3H
DI
3
DI
4L
DI
4H
DI
4
5.1 5.2
5.3
Pwr
Dat
Err
RAD-DI4-IF
S
DI
DI
4
4
DI
4H
DI
4L
DI
3
DI
3H
DI
DI
3L
3
3
2
4
3
3
2
4
1
0
2
P
MA
P
IO-M
DI
DI
1L
DI
1H
DI
1
DI
2L
DI
DI
2H2H
DI
2
Pwr
Dat
Err
S
RAD-DI4-IF
S
AD
DI1
DI2
DI3
DI4
2.1 2 .2 2.3
*
9
1
4
3
5
+24V 0V
RSSI +
S-PO
RT
Re
set
RSSI –
ANT
D(A) D(B)
RX TX
GND
CO
1
NO
1
NC
1
Pwr
Dat
Err
RAD-2400-IF S
RAD-ID
5
5
1
+24
+24V
0V
RSSI+
S-PO
RT
S-P
RSSI –
RSSI –
ANT
D(A)
( )
D(B)
D(B)
( )
RX
RX
TX GND
CO
1
NO
1
NC
NC
1
Pwr
Dat
Err
RAD-2400-IF S
RAD-2400-IF S
D
D-ID
RA
D
RX TX
3.1 3.2 3.3
-I
4
+I
4
P
wr4
-I
3
+I
3
P
wr3
-I
2
+I
2
P
wr2
-I
1
+I
1
P
wr1
1
0
2
6
5
7
OFF O N
DIP-1
1
2
3
4
IO-MAP
Pwr
Dat
Err
RAD-AI4-IF S
-I
4
+
I
4
P
P
w
wr4
I
-I
3
+I
+I
33
P
wr3
-
I
2
+
I
2
P
P
wr2
wr2
-I
1
+I+I
1
1
P
wr1
1
1
1
0
2
6
6
5
5
7
6
6
5
5
7
OFF ON
DIP-1
1
1
2
3
4
4
P
MAPIO-M
Pwr
Dat
Err
S
S
2.1 2.2 2.3
1
0
2
5
4
6
IO-MAP
DI
1L
DI
1H
DI
1
DI
2L
DI
2H
DI
2
DI
3L
DI
3H
DI
3
DI4L DI4H DI4
Pwr
Dat
Err
RAD-DI4-IF S
DI
DI
44DI4HDI4L
DI
3
DI
3H
DI
DI
3L
5
5
4
4
6
5
5
4
6
1
1
0
2
P
MAP
IO-M
DI
DI
1L
DI
1H
DI
1
DI
2L
DI
DI
2H
2H
D
DI
Pwr
Dat
Err
RAD-DI4-IF S
RAD-DI4-IF S
DI1
DI2
DI3
DI4
2.1 2 .2 2.3
*
9
1
5
4
6
+24V 0V
RSSI +
S-PO
RT
Re
set
RSSI –
ANT
D(A) D(B)
RX TX
GND
CO
1
NO
1
NC
1
4.1 4 .2 4.3
Pwr
Dat
Err
RAD-2400-IF S
RAD-ID
+24
+24V
0V
RSSI +
S-PO
RT
S-
P
RSSI –
RSSI –
ANT
D(A)
( )
D(B)
D(B)
( )
RX
RX
TX GND
CO
1
NO
1
NC
NC
11
Pwr
Dat
Err
RAD-2400-IF S
RAD-2400-IF S
D-2
D
D-ID
RA D
RX TX
-I
4
+I
4
P
wr4
-I
3
+I
3
P
wr3
-I
2
+I
2
P
wr2
-I
1
+I
1
P
wr1
1
0
2
8
7
9
OFF O N
DIP-1
1
2
3
4
IO-MAP
4.1 4.2
4.3
Pwr
Dat
Err
RAD-AI4-IF S
-I
4
+I
4
P
P
wr4
I
-I
3
+I
+I
3
3
P
wr3
8
8
7
9
8
8
7
9
1
0
2
-
I
2
+I
2
P
P
wr2
-I
1
+I
+I
1
1
P
wr1
OFF ON
DIP-1
1
1
2
3
44
P
MAP
IO-M
Pwr
Dat
Err
RAD-AI4-IF S
RAD-AI4-IF S
AD
1
0
2
7
6
8
IO-MAP
DI
1L
DI
1H
DI
1
DI
2L
DI
2H
DI
2
DI
3L
DI
3H
DI
3
DI
4L
DI
4H
DI
4
5.1 5.2
5.3
Pwr
Dat
Err
RAD-DI4-IF
S
1
0
2
7
7
6
6
8
7
7
6
8
P
MA
P
IO-M
DI
DI
1L
DI
1H
DI
1
DI
2L
DI
DI
2H
2H
DI
2
DI
DI
3L
DI
3H
DI
3
DI
4L
DI
4H
DI
DI
4
4
Pwr
Dat
Err
S
RAD-DI4-IF
S
AD
DI1
DI2
DI3
DI4
2.1 2.2 2.3
*
9
1
6
5
7
+24V 0V
RSSI +
S-PORT
Reset
RSSI –
ANT
D(A) D(B)
RX TX
GND
CO
1
NO
1
NC
1
4.1 4.2 4.3
Pwr
Dat
Err
RAD-2400-IF S
RAD-ID
+24
+24V
0V
RSSI+
S-PORT
S-P
RSSI –
SSI–
ANT
D(A)( )
)
D(B)
D(B)
( )
RX
RX
TX
GND
CO
1
NO
1
NC
NC
1
Pwr
Dat
Err
RAD-2400-IF S
RAD-2400-IF S
D-
2
D
D-ID
RA
D
RX TX
3.1 3.2 3.3
-I
4
+I
4
P
wr4
-I3+I3Pwr3
-I
2
+I
2
P
wr2
-I1+I1Pwr1
2
1
3
0
9
1
OFF O N
DIP-1
1
2
3
4
IO-MAP
4.1 4.2
4.3
Pwr
Dat
Err
RAD-AI4-IF S
-
I
4
+I
4
P
P
w
wr4
-I
3
+I
+I33Pwr3
0
0
9
9
1
0
0
9
9
1
2
2
2
1
3
-I
2
+I
2
P
P
wr2
-I
1
+I
I
11
P
wr1
OFF ON
DIP-1
1
2
3
4
4
P
MAP
IO-M
Pwr
Dat
Err
S
RAD-AI4-IF S
AD
2.1 2.2 2.3
1
0
2
9
8
0
IO-MAP
DI
1L
DI
1H
DI
1
DI2L DI2H DI2
DI
3L
DI
3H
DI
3
DI
4L
DI
4H
DI
4
5.1 5.2
5.3
Pwr
Dat
Err
RAD-DI4-IF S
DI
I
44
D
I
4H
DI
4L
DI
3
DI
3H
DI
DI
3L
9
9
8
8
0
9
9
8
8
0
1
1
0
2
P
MA
P
IO-M
DI
DI
1
L
D
I
1
H
D
I
1
DI
2L
DI
DI
2H
2H
D
DI
2
Pwr
Dat
Err
S
RAD-DI4-IF S
AD
DI1
DI2
DI3
DI4
*
*
9
1
2
2
1
1
3
2
2
1
1
3
*
9
1
3
3
2
2
4
3
3
2
4
*
9
1
4
4
3
3
5
4
4
3
5
*
9
1
5
5
4
6
5
5
4
6
*
*
9
1
6
6
5
5
7
6
6
5
5
7
*
*
9
1
1
1
0
0
2
1
1
0
0
2
Reset
R
Re
One option for transmitting wireless I/O
signals in both directions is to use a point-to-
point connection. Connect the signals, apply
the operating voltage and set the addresses
via the thumb wheel - and the wireless con-
nection is established automatically without
any further settings.
If the network is extended with additional I/O
modules, they can be assigned to one another
quickly and easily via the thumb wheel on the
front of the module (I/O mapping).
8
7
9
8
7
9
IO-MAP
DI1L DI1H DI1
DI2L DI2H DI2
Pwr
Dat
Err
RAD-DI4-IFS
8
8
7
7
9
8
8
7
9
8
7
9
MA
P
IO-M
D
DI
1L DI1H DI1
DI2L
DI
DI
2H
2H
DI2
Pwr
Dat
Err
RAD-DI4-
RA
S
IFS
DI1
DI2
DI3
DI4
-I2+I2Pwr2
-I1+I1Pwr1
2
1
3
2
1
3
OFF ON
DIP-1
1
2
3
4
IO-MAP
Pwr
Dat
Err
RAD-AI4-IFS
2
2
1
3
2
2
1
3
2
2
1
3
-
I
2
+
I
2
P
P
wr2
-I1
+I
+I
1
1
Pwr1
OFF ON
DIP-1
1
1
2
3
4
4
MAP
IO-M
Pwr
D
at
Er
r
RAD-AI4-
RA
S
IFS
.2
0
9
1
1
0
2
+24V 0V
RSSI+
S-PORT
Reset
RSSI–
ANT
Pwr
Dat
Err
RAD-2400-IFS
RAD-ID
+2
+24V
0V
RSSI+
S-PORT
S-P
Reset
Re
RSSI–
SSI–
ANT
Pwr
Dat
Err
RAD-2400
AD
S
-IFS
D-ID
RAD
RX TX
8
7
9
8
7
9
OFF ON
DIP-1
1
2
3
4
IO-MAP
COM
1
NO1 NC1
COM
2
NO2 NC2
COM
4
NO
4
NC
4
COM
3
NO3 NC3
Pwr
Dat
Err
RAD-DOR4-IFS
8
8
7
7
9
8
8
7
9
8
8
7
9
OFF ON
DIP-1
P 1
1
2
3
4
4
MAP
IO-M
CO
COM
1
NO
1
NC
1
1
COM
2
NO
NO
2
2
NC2
CO
M
4
N
O
4
NC
NC
4
COM
COM
3
N
O
3
N
C
3
Pwr
Dat
Er
r
RAD-DOR4
D-
R
S
-IFS
DO1
DO2
DO3
DO4
3
4
U4
U3
I4
I3
2U2
U1
I2
I1
OFF ON
DIP-1
1
2
3
4
2
1
3
2
1
3
IO-MAP
Pwr
Dat
Err
RAD-A
O4-IFS
4
I
4
U
U
4
3
I
I
3
3
U
3
OFF ON
DIP-1
P 1
1
2
3
4
4
2
2
1
1
3
2
2
1
3
2
2
1
3
2
I
2
U
U
2
I
I
1
1
1
MA
P
IO-M
Pwr
Dat
Er
r
RAD-A
O4
-
AD
S
IF
S
2.1 2.2
0
9
1
2
1
3
+24V 0V
RSSI+
S-PORT
Reset
RSSI–
ANT
D(A) D(B)
RX TX
GND
CO
1 NO1 NC1
Pwr
Dat
Err
R
AD-2400-IFS
RAD-ID
+2
+24V
RSSI+
S-PORT
S-P
Reset
Re
RSSI–
SSI–
ANT
D(A)
D(B)
D(B)
RX
RX
T
X
G
ND
CO
1 N
O
1
NC
NC
1
Pwr
Dat
Er
r
R
AD-2400
AD
S
-IFS
D-ID
RAD
RX TX
1
1
0
0
2
1
1
0
2
0
9
1
2
2
1
1
3
2
2
1
3
0
9
1
Signals can also be transmitted bidirectionally
with SATEL-LP in a star conguration. Connect
the signals, apply the operating voltage and
set the addresses via the thumb wheel - and
the wireless connection is established auto-
matically without any further settings.
The signals can be easily split or multiplied by
additional receivers. If the network is extend-
ed with additional I/O modules, they can be
assigned to one another quickly and easily via
the thumb wheel on the front of the module
(I/O mapping).
Use in a star network
Use as a point-to-point connection
0
9
1
2
1
3
+24V 0V
RSSI+
S-PORT
Reset
RSSI–
ANT
D(A) D(B)
RX TX
GND
CO
1
NO
1
NC
1
Pwr
Dat
Err
RAD-2400-IFS
RAD-ID
RX TX
1
0
2
1
0
2
IO-MAP
DI1L DI1H DI1
DI
2L
DI
2H
DI
2
DI
3L
DI
3H
DI
3
DI
4L
DI
4H
DI
4
Pwr
Dat
Err
RAD-DI4-IFS
DI1
DI2
DI3
DI4
-I
4
+I
4
P
wr4
-I3+I3Pwr3
-I2+I2Pwr2
-I
1
+I
1
P
wr1
1
0
2
2
1
3
OFF ON
DIP-1
1
2
3
4
IO-MAP
Pwr
Dat
Err
RAD-AI4-IFS
0
9
1
4
3
5
+24V 0V
RSSI+
S-PORT
Reset
RSSI–
ANT
D(A) D(B)
RX TX
GND
CO
1
NO
1
NC
1
Pwr
Dat
Err
RAD-2400-IFS
RAD-ID
RX TX
2.1 2.2 2.3
1
0
2
3
2
4
IO-MAP
DI
1L
DI
1H
DI
1
DI
2L
DI
2H
DI
2
DI
3L
DI
3H
DI
3
DI
4L
DI
4H
DI
4
Pwr
Dat
Err
RAD-DI4-IFS
DI1
DI2
DI3
DI4
-I
4
+I
4
P
wr4
-I
3
+I
3
P
wr3
-I2+I2Pwr2
-I
1
+I
1
P
wr1
1
0
2
4
3
5
OFF ON
DIP-1
1
2
3
4
IO-MAP
Pwr
Dat
Err
RAD-AI4-IFS
OFF ON
DIP-1
1
2
3
4
DI1
DI2
DO1
DO2
1
0
2
5
4
6
IO-MAP
DI
1L
DI
1H
DI
1
DI
2L
DI
2H
DI
2
-I1+I1
U
1
I
1 1
UL1
COM
2
NO2 NC2
COM
1
NO
1
NC
1
Pwr
Dat
Err
RAD-DAIO6-IFS
2.1 2.2 2.3
0
9
1
5
4
6
+24V 0V
RSSI+
S-PORT
Reset
RSSI–
ANT
D(A) D(B)
RX TX
GND
CO
1
NO
1
NC
1
Pwr
Dat
Err
RAD-2400-IFS
RAD-ID
RX TX
3
4
U4
U
3
I4
I
3
1
2U
2
U
1
I
2
I
1
OFF ON
DIP-1
1
2
3
4
1
0
2
4
3
5
IO-MAP
Pwr
Dat
Err
RAD-AO4-IFS
0
9
1
1
0
2
+24V 0V
RSSI+
S-PORT
Reset
RSSI–
ANT
D(A) D(B)
RX TX
GND
CO
1
NO
1
NC
1
4.1 4.2 4.3
Pwr
Dat
Err
RAD-2400-IFS
RAD-ID
RX TX
Up to 250 devices can be used in one
high-performance mesh networks. In the
event that a connection in the network fails,
information is redirected via another network
node (roaming).
Self-organization and self-healing functions
keep the network stable, each device has
multiple communications paths.
1
0
2
1
0
2
OFF O N
DIP-1
1
2
3
4
IO-MAP
COM
1
NO
1
NC
1
COM
2
NO
2
NC
2
COM
4
NO
4
NC
4
COM
3
NO
3
NC
3
Pwr
Dat
Err
RAD-DOR4-I FS
1
1
0
0
2
1
1
0
0
2
1
0
2
OFF ON
DIP-1
1
2
3
44
P
MAP
IO-M
COM
COM
1
NO
1
NC
1
COM
2
NO
O
2
2
N
NC
2
COM
4
NO
4
NC
NC
44
COM
COM
3
NO
3
NC
3
Pwr
Da
t
Err
RAD-DOR4-I FS
AD-DOR4-IF S
D
DO1
DO2
DO3
DO4
1
0
2
7
6
8
OFF O N
DIP-1
1
2
3
4
IO-MAP
COM
1
NO
1
NC
1
COM
2
NO
2
NC
2
COM
4
NO
4
NC
4
COM
3
NO
3
NC
3
Pwr
Dat
Err
RAD-DOR4-I FS
7
7
6
6
8
7
7
6
8
1
0
2
OFF ON
DIP-1
1
2
3
44
P
MAP
IO-M
COM
COM
1
NO
1
NC
1
2
NO
O
2
2
N
NC
2
COM
4
NO
4
NC
NC
44
COM
COM
3
NO
3
NC
3
Pwr
Da
t
Err
RAD-DOR4-I FS
AD-DOR4-IF S
-D
DO1
DO2
DO3
DO4
1
0
2
3
3
4
OFF O N
DIP-1
1
2
3
4
IO-MAP
COM
1
NO
1
NC
1
COM
2
NO
2
NC
2
COM
4
NO
4
NC
4
COM
3
NO
3
NC
3
Pwr
Dat
Err
RAD-DOR4-I FS
3
3
3
3
4
3
3
3
3
4
1
0
2
OFF ON
DIP-11
1
2
3
4
4
P
MAP
IO-M
COM
COM
1
N
O
1
NC
1
COM
2
NO
O
2
2
N
NC
2
COM
4
NO
4
NC
NC
44
COM
COM
3
NO
3
NC
3
Pwr
Da
t
Err
RAD-DOR4-I FS
AD-DOR4-IF S
-D
DO1
DO2
DO3
DO4
1
0
2
9
8
0
OFF O N
DIP-1
1
2
3
4
IO-MAP
COM
1
NO
1
NC
1
COM
2
NO
2
NC
2
COM
4
NO
4
NC
4
COM
3
NO
3
NC
3
Pwr
Dat
Err
RAD-DOR4-I FS
9
9
8
8
0
9
9
8
0
1
0
2
OFF ON
DIP-1
1
2
3
44
P
MAP
IO-M
COM
COM
1
NO
1
N
C
1
COM
2
NO
O
2
2
N
NC
2
COM
4
NO
4
NC
NC
4
4
COM
COM
3
NO
3
NC
3
Pwr
Da
t
Err
RAD-DOR4-I FS
AD-DOR4-IF
S
-D
DO1
DO2
DO3
DO4
1
0
2
5
4
6
OFF O N
DIP-1
1
2
3
4
IO-MAP
COM
1
NO
1
NC
1
COM
2
NO
2
NC
2
COM
4
NO
4
NC
4
COM
3
NO
3
NC
3
Pwr
Dat
Err
RAD-DOR4-I
FS
5
5
4
4
6
5
5
4
4
6
1
0
2
OFF ON
DIP-11
1
2
3
44
P
MAP
IO-M
COM
COM
1
NO
1
NC
1
COM
2
NO
O
2
2
N
NC
2
COM
4
NO
4
NC
NC
44
COM
COM
3
NO
3
NC
3
Pwr
Da
t
Err
RAD-DOR4-I
FS
AD-DOR4-IF S
D
DO1
DO2
DO3
DO4
3
4
U
4
U
3
I
4
I
3
1
2
U
2
U
1
I
2
I
1
OFF O N
DIP-1
1
2
3
4
1
0
2
6
5
7
IO-MAP
Pwr
Dat
Err
RAD-AO4-IF S
4
I
4
U
U
4
3
II
3
3
U
3
OFF ON
DIP-1
1
2
3
44
6
6
5
5
7
6
6
5
5
7
1
0
2
2
I
2
U
U
2
1
I
11
P
MAP
I
O
-
M
Pwr
Da
t
Err
RAD-AO4-IF S
RAD-AO4-IF S
D-
3
4
U
4
U
3
I
4
I
3
1
2
U
2
U
1
I
2
I
1
OFF O N
DIP-1
1
2
3
4
1
0
2
2
1
3
IO-MAP
Pwr
Dat
Err
RAD-AO4-IF S
4
I
4
U
U
4
3
II
3
3
U
3
OFF ON
DIP-1
1
1
2
3
44
2
2
1
1
3
2
2
1
3
1
0
2
2
I
2
U
U
2
1
I
1
1
1
P
MAP
IO-M
Pwr
Da
t
Err
RAD-AO4-IF S
RAD-AO4-IF S
D-
3
4
U
4
U
3
I
4
I
3
1
2
U
2
U
1
I
2
I
1
OFF O N
DIP-1
1
2
3
4
1
0
2
8
7
9
IO-MAP
Pwr
Dat
Err
RAD-AO4-IF S
4
I
4
U
U
4
3
II
3
3
U
3
OFF ON
DIP-1
1
2
3
44
8
8
7
7
9
8
8
7
7
9
1
0
2
2
I
2
U
U
2
1
I
1
1
U
1
P
MA
P
IO-M
Pwr
Da
t
Err
RAD-AO4-IF S
RAD-AO4-IF S
D-
3
4
U
4
U
3
I
4
I
3
1
2
U
2
U
1
I
2
I
1
OFF O N
DIP-1
1
2
3
4
1
0
2
4
3
5
IO-MAP
Pwr
Dat
Err
RAD-AO4-IF S
4
I
4
U
U
4
3
II
3
3
U
3
OFF ON
DIP-1
1
2
3
4
4
4
4
3
3
5
4
4
3
5
1
0
2
2
I
2
U
U
2
1
I
1
1
U
1
P
MA
P
IO-M
Pwr
Da
t
Err
RAD-AO4-IF S
RAD-AO4-IF S
D-
3
4
U
4
U
3
I
4
I
3
1
2
U
2
U
1
I
2
I
1
OFF O N
DIP-1
1
2
3
4
2
1
3
0
9
1
IO-MAP
Pwr
Dat
Err
RAD-AO4-IF S
4
I
4
U
U
4
3
II
3
3
U
3
OFF ON
DIP-1
1
2
3
4
4
0
0
9
9
1
0
0
9
1
2
1
3
2
I
2
U
U
2
1
I
1
11
P
MAP
IO-M
Pwr
Da
t
Err
RAD-AO4-IF S
RAD-AO4-IF S
D-
*
9
1
1
0
2
+24V 0V
RSSI +
S-PO
RT
Re
set
RSSI –
ANT
D(A) D(B)
RX TX GND
CO
1
NO
1
NC
1
Pwr
Dat
Err
RAD-2400-IF
S
RAD-ID
1
2
2
+24
+24V
0V
RSSI+
S-PO
RT
S-P
Re
RSSI –
SSI–
ANT
D(A)( )
D(B)
D(B)
( )
RX
RX
TX GND
CO
1
NO
1
NC
NC
1
1
Pwr
Dat
Err
RAD-2400-IF
S
RAD-2400-IF
S
D-
2
D
D-ID
RA
D
RX TX
2. .2
*
9
1
2
1
3
+24V 0V
RSSI +
S-PO
RT
Reset
RSSI –
ANT
D(A) D(B)
RX TX GND
CO
1
NO
1
NC
1
Pwr
Dat
Err
RAD-2400-IF
S
RAD-ID
+24
+24V
0V
SI+
S-PO
RT
S-P
RSSI –
SSI–
ANT
D(A)
( )
)
D(B)
D(B)
( )
RX
RX
TX
GND
CO
1
NO
1
NC
NC
1
1
Pwr
Dat
Err
RAD-2400-IF
S
RAD-2400-IF
S
D-
2
D
D-ID
RA
D
RX TX
-I
4
+I
4
P
wr4
-I3+I3Pwr3
-I
2
+I
2
P
wr2
-I
1
+I
1
P
wr1
1
0
2
2
1
3
OFF O N
DIP-1
1
2
3
4
IO-MAP
Pwr
Dat
Err
RAD-AI4-IF S
-I
4
+I
4
P
P
wr4
-I
3
+I
I33Pwr3
-I
2
+I
2
P
P
wr2
-I
1
+I
I
11
P
wr1
1
1
0
2
2
2
1
1
3
2
2
1
1
3
OFF ON
DIP-1
1
2
3
4
4
P
MAP
IO-M
Pwr
Dat
Err
S
RAD-AI4-IF S
AD
1
0
2
1
0
2
IO-MAP
DI
1L
DI
1H
DI
1
DI2L DI2H DI2
DI
3L
DI
3H
DI
3
DI
4L
DI
4H
DI
4
Pwr
Dat
Err
RAD-DI4-IF S
DI
DI
44
DI
4H
DI
4L
D
I
3
DI
3H
DI
DI
3L
1
1
0
0
2
1
1
0
0
2
1
1
0
2
P
MAP
IO-M
DI
DI
1L
DI
1H
DI
1
DI2L
DI
DI
2H
2H
D
DI
2
Pwr
Dat
Err
S
RAD-DI4-IF S
AD
DI1
DI2
DI3
DI4
2.1 2.2 2.3
*
9
1
3
2
4
+24V 0V
RSSI +
S-PORT
Reset
RSSI –
ANT
D(A) D(B)
RX TX GND
CO
1
NO
1
NC
1
4.1 4.2 4.3
Pwr
Dat
Err
RAD-2400-IF
S
RAD-ID
+24
+24V
0V
R
SSI+
S-PORT
S-
P
RSSI –
RSSI –
ANT
D(A)
( )
D(B)
D(B)
( )
RX
RX
TX GND
CO
1
NO
1
NC
NC
11
Pwr
Dat
Err
RAD-2400-IF
S
RAD-2400-IF
S
D-
2
D
D-ID
RA
D
RX TX
3.1 3.2 3.3
-I
4
+I
4
P
wr4
-I
3
+I
3
P
wr3
-I
2
+I
2
P
wr2
-I
1
+I
1
P
wr1
1
0
2
4
3
5
OFF O N
DIP-1
1
2
3
4
IO-MAP
4.1 4.2
4.3
Pwr
Dat
Err
RAD-AI4-IF S
-I
4
+I
4
P
P
wr4
I
-I
3
+I
+I
3
3
P
wr3
4
4
3
5
4
4
3
5
1
0
2
-
I
2
+
I
2
P
P
wr2
-I
1
+I
+I
1
1
P
wr1
OFF ON
DIP-1
1
1
2
3
44
P
MAP
IO-M
Pw
r
Dat
E
rr
RAD-AI4-IF S
RAD-AI4-IF S
AD
2.1 2.2 2.3
1
0
2
3
2
4
IO-MAP
DI
1L
DI
1H
DI
1
DI
2L
DI
2H
DI
2
DI
3L
DI
3H
DI
3
DI
4L
DI
4H
DI
4
5.1 5.2
5.3
Pwr
Dat
Err
RAD-DI4-IF
S
DI
DI
4
4
DI
4H
DI
4L
DI
3
DI
3H
DI
DI
3L
3
3
2
4
3
3
2
4
1
0
2
P
MA
P
IO-M
DI
DI
1L
DI
1H
DI
1
DI
2L
DI
DI
2H2H
DI
2
Pwr
Dat
Err
S
RAD-DI4-IF
S
AD
DI1
DI2
DI3
DI4
2.1 2 .2 2.3
*
9
1
4
3
5
+24V 0V
RSSI +
S-PO
RT
Re
set
RSSI –
ANT
D(A) D(B)
RX TX GND
CO
1
NO
1
NC
1
Pwr
Dat
Err
RAD-2400-IF S
RAD-ID
5
5
1
+24
+24V
0V
RSSI+
S-PO
RT
S-P
RSSI –
RSSI –
ANT
D(A)
( )
D(B)
D(B)
( )
RX
RX
TX GND
CO
1
NO
1
NC
NC
1
Pwr
Dat
Err
RAD-2400-IF S
RAD-2400-IF S
D
D-ID
RA
D
RX TX
3.1 3.2 3.3
-I
4
+I
4
P
wr4
-I
3
+I
3
P
wr3
-I
2
+I
2
P
wr2
-I
1
+I
1
P
wr1
1
0
2
6
5
7
OFF O N
DIP-1
1
2
3
4
IO-MAP
Pwr
Dat
Err
RAD-AI4-IF S
-I
4
+
I
4
P
P
w
wr4
I
-I
3
+I
+I
33
P
wr3
-
I
2
+
I
2
P
P
wr2
wr2
-I
1
+I+I
1
1
P
wr1
1
1
1
0
2
6
6
5
5
7
6
6
5
5
7
OFF ON
DIP-1
1
1
2
3
4
4
P
MAPIO-M
Pwr
Dat
Err
S
S
2.1 2.2 2.3
1
0
2
5
4
6
IO-MAP
DI
1L
DI
1H
DI
1
DI
2L
DI
2H
DI
2
DI
3L
DI
3H
DI
3
DI4L DI4H DI4
Pwr
Dat
Err
RAD-DI4-IF S
DI
DI
44DI4HDI4L
DI
3
DI
3H
DI
DI
3L
5
5
4
4
6
5
5
4
6
1
1
0
2
P
MAP
IO-M
DI
DI
1L
DI
1H
DI
1
DI
2L
DI
DI
2H
2H
D
DI
Pwr
Dat
Err
RAD-DI4-IF S
RAD-DI4-IF S
DI1
DI2
DI3
DI4
2.1 2 .2 2.3
*
9
1
5
4
6
+24V 0V
RSSI +
S-PO
RT
Re
set
RSSI –
ANT
D(A) D(B)
RX TX GND
CO
1
NO
1
NC
1
4.1 4 .2 4.3
Pwr
Dat
Err
RAD-2400-IF S
RAD-ID
+24
+24V
0V
RSSI +
S-PO
RT
S-
P
RSSI –
RSSI –
ANT
D(A)
( )
D(B)
D(B)
( )
RX
RX
TX GND
CO
1
NO
1
NC
NC
11
Pwr
Dat
Err
RAD-2400-IF S
RAD-2400-IF S
D-2
D
D-ID
RA D
RX TX
-I
4
+I
4
P
wr4
-I
3
+I
3
P
wr3
-I
2
+I
2
P
wr2
-I
1
+I
1
P
wr1
1
0
2
8
7
9
OFF O N
DIP-1
1
2
3
4
IO-MAP
4.1 4.2
4.3
Pwr
Dat
Err
RAD-AI4-IF S
-I
4
+I
4
P
P
wr4
I
-I
3
+I
+I
3
3
P
wr3
8
8
7
9
8
8
7
9
1
0
2
-
I
2
+I
2
P
P
wr2
-I
1
+I
+I
1
1
P
wr1
OFF ON
DIP-1
1
1
2
3
44
P
MAP
IO-M
Pwr
Dat
Err
RAD-AI4-IF S
RAD-AI4-IF S
AD
1
0
2
7
6
8
IO-MAP
DI
1L
DI
1H
DI
1
DI
2L
DI
2H
DI
2
DI
3L
DI
3H
DI
3
DI
4L
DI
4H
DI
4
5.1 5.2
5.3
Pwr
Dat
Err
RAD-DI4-IF
S
1
0
2
7
7
6
6
8
7
7
6
8
P
MA
P
IO-M
DI
DI
1L
DI
1H
DI
1
DI
2L
DI
DI
2H
2H
DI
2
DI
DI
3L
DI
3H
DI
3
DI
4L
DI
4H
DI
DI
4
4
Pwr
Dat
Err
S
RAD-DI4-IF
S
AD
DI1
DI2
DI3
DI4
2.1 2.2 2.3
*
9
1
6
5
7
+24V 0V
RSSI +
S-PORT
Reset
RSSI –
ANT
D(A) D(B)
RX TX GND
CO
1
NO
1
NC
1
4.1 4.2 4.3
Pwr
Dat
Err
RAD-2400-IF S
RAD-ID
+24
+24V
0V
RSSI+
S-PORT
S-P
RSSI –
SSI–
ANT
D(A)( )
)
D(B)
D(B)
( )
RX
RX
TX
GND
CO
1
NO
1
NC
NC
1
Pwr
Dat
Err
RAD-2400-IF S
RAD-2400-IF S
D-
2
D
D-ID
RA
D
RX TX
3.1 3.2 3.3
-I
4
+I
4
P
wr4
-I3+I3Pwr3
-I
2
+I
2
P
wr2
-I1+I1Pwr1
2
1
3
0
9
1
OFF O N
DIP-1
1
2
3
4
IO-MAP
4.1 4.2
4.3
Pwr
Dat
Err
RAD-AI4-IF S
-
I
4
+I
4
P
P
w
wr4
-I
3
+I
+I33Pwr3
0
0
9
9
1
0
0
9
9
1
2
2
2
1
3
-I
2
+I
2
P
P
wr2
-I
1
+I
I
11
P
wr1
OFF ON
DIP-1
1
2
3
4
4
P
MAP
IO-M
Pwr
Dat
Err
S
RAD-AI4-IF S
AD
2.1 2.2 2.3
1
0
2
9
8
0
IO-MAP
DI
1L
DI
1H
DI
1
DI2L DI2H DI2
DI
3L
DI
3H
DI
3
DI
4L
DI
4H
DI
4
5.1 5.2
5.3
Pwr
Dat
Err
RAD-DI4-IF S
DI
I
44
D
I
4H
DI
4L
DI
3
DI
3H
DI
DI
3L
9
9
8
8
0
9
9
8
8
0
1
1
0
2
P
MA
P
IO-M
DI
DI
1
L
D
I
1
H
D
I
1
DI
2L
DI
DI
2H
2H
D
DI
2
Pwr
Dat
Err
S
RAD-DI4-IF S
AD
DI1
DI2
DI3
DI4
*
*
9
1
2
2
1
1
3
2
2
1
1
3
*
9
1
3
3
2
2
4
3
3
2
4
*
9
1
4
4
3
3
5
4
4
3
5
*
9
1
5
5
4
6
5
5
4
6
*
*
9
1
6
6
5
5
7
6
6
5
5
7
*
*
9
1
1
1
0
0
2
1
1
0
0
2
Reset
R
Re
With I/O integration in the control level, you
can wirelessly connect I/O extension modules
directly to a controller (I/O to serial). The
wireless module provides an RS-232 or RS-485
interface for this purpose. In PLC/Modbus RTU
mode, the master wireless module works as a
Modbus slave and has its own Modbus slave
address.
In serial data mode, multiple controllers or
serial I/O devices are networked easily and
quickly using wireless technology. In this
way, serial RS-232 or RS-485 cables can be
replaced.
Use in PLC/Modbus RTU mode
Use in a serial mode
Use in mesh networks
www.satel.com
SATEL, Meriniitynkatu 17 P.O.Box 142,
FI-24101 Salo, FINLAND
Tel. +358 2 777 7800 | Fax +358 2 777 7810
info@satel.com
Contact us
You can contact us directly or get in
touch with your local distributor.
SATEL is one of the world’s leading experts and innovators
of radio technology for wireless data communication. Our
solutions are used in wide range of industrial applications.
We are known for our high quality, expertise, service and
support.
I/O extension
modules
SATEL-LP-DI4
• 4 digital inputs
(0 … 250 V AC/DC)
Product code YI0101
SATEL-LP-DOR4
• 4 digital relay outputs
(5 A, 24 VDC / 250 VAC)
Product code YI0102
SATEL-LP-AI4
• 4 analog inputs
(0...20 mA / 4 … 20 mA)
Product code YI0103
SATEL-LP-AO4
• 4 analog output (0… 20 mA /
4 … 20 mA, 0 … 10 VDC)
Product code YI0104
SATEL-LP-DAIO6
• 1 analog input
(0… 20 mA / 4 … 20 mA)
• 1 analog output (0… 20 mA /
4 … 20 mA, 0 … 10 VDC)
• 2 digital inputs
(0 … 250 V AC/DC)
• 2 digital relay outputs
(2A, 24 VDC / 250 VAC)
Product code YI0105
SATEL-LP-DI8
• 8 digital inputs
(0 … 30.5 VDC) OR 2 pulse
inputs (0 … 100 Hz)
Product code YI0106
SATEL-LP-DO8
• 8 digital transistor outputs
(30.5 VDC / 200 mA)
Product code YI0107
SATEL-LP-PT100
• 4 PT 100 resistance ther-
mometer (-50 °C … +250 °C)
Product code YI0108
Cables
Cable for programming:
SATEL-LP-PROG
• USB data cable for SATEL-LP
-radio modules
• Length 2 meters, incl.
power feed
Product code YC0520
Antenna cable:
SATEL-LP-RF2
• 2 m antenna cable, N male
to RSMA male, impedance
50ohm
Product code YC1520
Antenna cable:
SATEL-LP-RF50
• 50 cm cabin feedthrough
cable, N female to
• RSMA male, impedance
50ohm
Product code YC1550
Low loss cable:
ECOFLEX10+
• attenuation: 1.34dB/10m
@ 896/900
• MHz *max. length 15m,
2.36dB/10m @ 2.4
• GHz, *max. length 8m
Product code YC1004
Low loss cable:
ECOFLEX15
• attenuation: 0.92 dB/10m
@ 896/900
• MHz, *max. length 22m,
1.63dB/10m @
• 2.4GHz, *max. length 12m
Product code YC1006
* recommended max. length
Connectors for
Ecoex cables
N male connectors
for ECOFLEX10
Product code YC1003
N male connectors
for ECOFLEX15
Product code YC1007
Power supply
PS-DIN-2
• Power supply for DIN-rail, IN
100-240Vac, OUT 24Vdc/2.5A
Product code YP0118
Omnidirectional
antennas
incl. wall mounting bracket
and mast clips
SATEL-LP-ANT24N
• Antenna 2.4 GHz, 6dBi,
N female
Product code YA2400
SATEL-LP-ANT9N
• Antenna 900 MHz, 7dBi,
N female
Product code YA1900
SATEL-LP-ANT8N
• Antenna 869 MHz, 4dBi,
N female
Product code YA0868
Portable antennas
SATEL-LP-ANT8/9
• Antenna 820-960MHz
Product code YA0899
SATEL-LP-ANT24
• Antenna 2.4GHz
Product code YA2410
Accessories for
conguration
SATEL-LP-MEMORY
• Conguration memory
• Memory stick for saving
individual conguration data
Product code YO0010
CONF-sticks for creating
unique network ID and
changing RF band:
SATEL-LP-CONF3
• Stick for SATEL-LP24
(RF band 3)
Product code YO0003
SATEL-LP-CONF5
• Stick for SATEL-LP24
(RF band 5)
Product code YO0005
SATEL-LP-CONF7
• Stick for SATEL-LP24
(RF band 7)
Product code YO0007
SATEL-LP8-CONF1
• Stick for SATEL-LP8
(RF band 1)
Product code YO0001
SATEL-LP9-CONF1
• Stick for SATEL-LP9 (RF band 1)
Product code YO0002
