Radiocrafts
Embedded Wireless Solutions
RC1180-MBUS
2015 Radiocrafts AS RC1180-MBUS Data Sheet (rev. 2.22) Page 1 of 16
Wireless M-Bus Multi-Mode RF Transceiver Module
(EN 13757-4:2012)
Product Description
The RC1180-MBUS RF Transceiver Module is a compact surface-mounted high performance
module with embedded Wireless M-Bus protocol. The module has a UART interface for serial
communication and configuration, and a one-pin antenna connection. The module is pre-
certified for operation under the European radio regulations for license-free use and
measures only 12.7 x 25.4 x 3.3 mm with shielding. When used with quarter-wave antennas a
line-of-sight range of typ 800 meter can be achieved. The RC1180-MBUS meets the Wireless
M-Bus specification S, T and R2 modes, and operates in 12 channels in the 868 MHz
frequency band.
Applications
• Wireless M-Bus
• Automatic Meter Reading (AMR)
• Advanced Metering Infrastructure (AMI)
• Electricity meters
• Gas and Water meters
• Heat meters, Heat cost allocators
• Readers and concentrators
Features
• Embedded Wireless M-Bus protocol supporting EN 13757-4:2012 mode S, T, C and R2
• 12.7 x 25.4 x 3.3 mm compact module for SMD mounting
• Easy to use UART interface for communication and configuration
• Wide supply voltage range, 2.0 – 3.6 V
• Ultra low power modes for extended battery lifetime
• 2 channels (868.3, 868.95 MHz) in mode S, T and C
• 10 channels in mode R2 (868.03 + n x 0.06 MHz)
• No external components except antenna
• Configurable Manufacturer ID and serial number
• Conforms with EU R&TTE directive (EN 300 220, EN 301 489, EN 60950)
• Designed for EX compliance
Quick Reference Data
Parameter
RC1180
-
MBUS
Unit
Frequency bands 868.0 – 870.0 MHz
Number of channels 12
Data rate 4.8, 32.768, 100 kchip/s
Max output power 9 dBm
Sensitivity, R/S/T -106/-102/-101 dBm
Supply voltage 2.0 – 3.6 Volt
Current consumption, RX / TX 24 / 37 mA
Current consumption, SLEEP Typ 0.3 uA
Temperature range (S and T mode) -40 to +85 °C
Radiocrafts
Embedded Wireless Solutions
RC1180-MBUS
2015 Radiocrafts AS RC1180-MBUS Data Sheet (rev. 2.22) Page 2 of 16
RC1180-MBUS Embedded Firmware Solutions
The RC1180-MBUS module is available with different embedded firmware solutions,
implementing specific feature sets on the same hardware. Detailed information on how to use
the different feature sets are described in the MBUS User Manual. See the Radiocrafts’
webpage for latest revision.
Typical application circuit
See page 8-9 for additional schematic information regarding recommended Reset and Power
supply filtering, and how to include a firmware upgrade connector.
Wireless M-Bus Modem
The standard RC1180-MBUS module acts like a wireless M-Bus modem with a UART
interface. The embedded protocol transmits and receives the wireless M-Bus data packets
based on application messages from an external source (the meter or the concentrator). The
module is configured through its UART interface using a simple command set. Configuration
parameters are stored in non-volatile memory. The module can be set in Sleep mode with
very low current consumption, and wake up on a UART command. See MBUS User Manual
for details about the embedded wireless MBUS protocol from Radiocrafts.
Meter
RC1180-MBUS
(modem) RC1180-MBUS
(modem)
UART to:
RS232
RS485
USB
Ethernet
UART
RXD
TXD
GND
RTS
CTS
CONFIG
TXD
RXD
GND
GND
VCC
RESET
NC
GND
RF
GND
2.0
– 3.6
V
Antenna
{
To host meter or
RS232/422/485
driver
NC
Optional
NC
Radiocrafts
Embedded Wireless Solutions
RC1180-MBUS
2015 Radiocrafts AS RC1180-MBUS Data Sheet (rev. 2.22) Page 3 of 16
RF Frequency, Output Power Levels and Data Rates
The following table shows the available RF channels and their corresponding frequencies,
nominal output power levels and available data rates. The combination of frequency and data
rate is determined by the M-Bus mode. For R mode the RF channel selection must be
selected between 1-10.
Model
RF channel
Output power
Data rate
RC1180
-
MBUS
1-10:
f
RF
=868.03+(N-1)*0.06 MHz
where N is the channel number
11 (used in S and T2 mode):
f
RF
=868.300 MHz
12 (used in T1 and T2 mode):
f
RF
=868.950 MHz
Factory setting: 1: 868.030 MHz
(apply for R mode only)
C mode frequency same as T mode
1: -20 dBm
2: -10 dBm
3: 0 dBm
4: 5 dBm
5: 9 dBm
1: 4.8 kchip/s
2: 32.768 kchip/s
3: 100 kchip/s
For more details on changing the RF channel, output power or M-Bus mode, refer to the
MBUS User Manual.
Radiocrafts
Embedded Wireless Solutions
RC1180-MBUS
2015 Radiocrafts AS RC1180-MBUS Data Sheet (rev. 2.22) Page 4 of 16
Full wireless M-Bus application (optional custom specific version)
As an option, a full wireless M-Bus application layer can be integrated in the module based on
customer specification. In this case all the application layer protocol and timing will be
handled internally by the module. An S0 (1-pin) pulse interface and/or a serial interface can
be used to read out values from any meter. Since the protocol for reading out meter
information may differ from meter to meter, the embedded firmware is customized for each
different meter and application.
These are some of the features that can be used in a customized application:
• 4 kB EEPROM for storing meter data
• 32 kHz oscillator for real time clock time stamps
• AES-128 encryption
• Sleep timers
• Message acknowledgement and re-transmissions
• Digital I/O pins for tamper detection, alarms and installation
• A/D converter for analogue sensors
Please see chapter “Programming Interface” for a description of how to include a
programming connector in your PCB layout to be able to receive updated firmware code from
Radiocrafts in a pilot product phase.
One-Button Installation (optional custom specific version)
Due to the two-way transceiver capability of the RC1180-MBUS module, a simple and robust
installation procedure can be used even for S1 and T1 (one-way) operation modes.
In a full M-Bus application, the Radiocrafts unique “one-button” installation feature simplifies
the installation and reduces installation time substantially. Using an external push-button and
a LED connected to dedicated pins on the module, the installation procedure is very simple:
• Press the install button on concentrator
• Press the install button on meter
• Wait 5 seconds for two way communication between meter and concentrator
• See installation LED go on for OK installation (Blinking for error during installation)
Please contact Radiocrafts for custom specific requests.
Radiocrafts
Embedded Wireless Solutions
RC1180-MBUS
2015 Radiocrafts AS RC1180-MBUS Data Sheet (rev. 2.22) Page 5 of 16
Block Diagram
Circuit Description
The module contains a communication controller with embedded Wireless M-Bus protocol
software and a high performance RF transceiver. As an option the module can support a real
time clock oscillator and EEPROM memory.
The communication controller handles the radio packet protocol, the UART interface and
controls the RF transceiver. Data to be sent by the host is received at the RXD pin and
buffered in the communication controller. The data packet is then assembled with preamble,
start-of-frame delimited (SOF), manufacturer ID, unique address information and CRC check
sums before it is transmitted on RF.
The RF transceiver modulates the data to be transmitted on RF frequency, and demodulates
data that are received. Digital signal processing technology is used to enhance sensitivity and
selectivity.
Received data are checked for correct CRC by the communication controller. If no CRC
errors were detected, the data packet is sent to the host on the TXD line. The data format is
configurable, and optionally an RSSI value (signal strength of received packet) can be added
to the message.
The asynchronous UART interface consists of RXD and TXD. Optionally CTS or RTS can be
used for hardware handshake flow control.
When a 00h value is sent as the first byte (replacing the Length byte), or the CONFIG pin is
asserted, the module enters configuration mode and the communication controller interprets
data received on the RXD pin as configuration commands. There are commands to change
the radio channel, the output power, etc. Permanent changes of the configuration is also
possible and are then stored in internal non-volatile memory (Flash).
The supply voltage is connected to the VCC pin. The module contains an internal voltage
regulator for the RF transceiver and can therefore operate over a wide supply voltage range.
The module can be set in Sleep mode by UART commands to reduce the power consumption
to a minimum.
Wireless M-Bus
protocol
Wireless M-Bus
RF Tranceiver
8-bit MCU
M-Bus Application
(option)
UART interface
2.0 - 3.6 V
4kB EEPROM
(option)
32 kHz
Real Time Clock
(option)
32 MHz
clock
Pulse input (option)
Radiocrafts
Embedded Wireless Solutions
RC1180-MBUS
2015 Radiocrafts AS RC1180-MBUS Data Sheet (rev. 2.22) Page 6 of 16
Pin Assignment
GND
CTS
RTS
CONFIG
TXD
RXD
GND
GND
VCC
RESET
NC
GND
RF
GND
1
2
3
4
5
6
7
14
13
12
11
10
9
8
15 16 17 18 19 20 21 22
30 29 28 27 26 25 24 23
Pin Description
Pin no
Pin name
Description
Equivalent circuit
1 GND System ground
GND
2 CTS UART Clear to Send
3 RTS UART Request to Send
4 CONFIG Configuration Enable. Active low.
Should normally be set high
5 TXD UART TX Data
6 RXD UART RX Data
Use external max 8k2 kohm pull-
up resistor if connected to an
open collector output from a host
MCU or other high impedance
circuitry like level shifters.
7 GND System ground
GND
8 GND System ground
VCC
Output:
20k
Input:
VCC
Radiocrafts
Embedded Wireless Solutions
RC1180-MBUS
2015 Radiocrafts AS RC1180-MBUS Data Sheet (rev. 2.22) Page 7 of 16
9 RF RF I/O connection to antenna
10 GND System ground
GND
11 NC Not connected
12 RESET Main reset (active low). Should
normally be left open. Internal
12 kΩ pull-up resistor.
13 VCC Supply voltage input. Internally
regulated.
14 GND System ground
GND
15-22 RESERVED Test pins or pins reserved for
future use. Do not connect!
23-28 RESERVED Test pins or pins reserved for
future use. Do not connect!
29 LED1 LED output using
LED_CONTROL. If not used, do
not connect.
30 LED0 LED output using
LED_CONTROL. If not used, do
not connect.
Note 1: For UART communication the TXD and RXD are used for serial data, and CTS and RTS for flow control
(optional). RXD should be high when not sending data to the module.
Note 2: The CONFIG pin can be used to enter configuration mode (change of default settings) as an alternative to
the 0x00 command. Active low.
Note 3: Other digital interfaces may be specified upon request.
1.8 V
VREG
VREG
2u2
VCC
VCC
RESET
12k
10k
RF
Radiocrafts
Embedded Wireless Solutions
RC1180-MBUS
2015 Radiocrafts AS RC1180-MBUS Data Sheet (rev. 2.22) Page 8 of 16
Application circuit
A typical application circuit is shown where a MCU is connected to the Radiocrafts module. In
normal cases the UART (CTS/RTS is optional) and RESET line is connected to a host MCU
running the application. CONFIG is optional since a UART command can replace the
CONFIG pin on the MBUS modules. Pin 29/30 are LED drivers and D1/D2 can be mounted
(optional) for debugging (State information).
MCU considerations
Some additional external components is needed depending on MCU output driver properties
connected to the Radiocrafts module.
If the RESET is driven by a push-pull output, an additional 0 ohm series resistor (R4) shall be
inserted as shown in the figure, to allow an external programmer used for firmware upgrade to
assert Reset low. During firmware upgrade, R4 must in this case be removed.
In noisy surroundings and where RESET is not driven by a push-pull output, it is recommended to
add an external pull-up on RESET using a 5k6 resistor (R3). If the pull-up is stronger the external
programmer used for firmware upgrade will not be able to assert RESET low.
In noisy surroundings and where RXD is not driven by a push-pull output, it is recommended to
add an external pull-up on RXD using a 5k6 resistor (R3).
Radiocrafts
Embedded Wireless Solutions
RC1180-MBUS
2015 Radiocrafts AS RC1180-MBUS Data Sheet (rev. 2.22) Page 9 of 16
Reset filter
To minimize effect of noise on the Reset-line, the RESET pin on the module (pin 12) must be
connected to an external circuitry via an RC-network. It is recommended to connect RESET to a
microcontroller I/O-pin. The reset filter should be placed as close as possible to the RESET pin of
the module.
Power Supply
Noisy external circuitry may under certain scenarios affect the transmitted signal on RX1180-
MBUS and precaution should be taken for EU R&TTE conformity. Example of circuits that can
generate noise on the RC1180-MBUS transmitted spectrum may be DC/DC converters and some
level converters like RS232 and RS485. To increase spectrum margin it is important to add an EMI
filter bead (L1) on the VCC pin of the RC1180-MBUS module. Alternatively, the RC1180-MBUS
may be powered (RC_VCC) from a separate voltage regulator. This will ensure that potential
switching noise is filtered out from the power supply (RC_VCC) to the RC1180-MBUS.
Component
Manufacture
r
Part number
EMI filter bead (L1) Murata BLM11A102S, ordering code
BLM18xx102xN1D
Programming Interface
For future firmware updates and possible custom variants
it is recommended to include a 2x5 pins
programming connector to the module programming pins. The connector should be a 1.27 mm
pitch pin-row (same pitch in both directions), SMD or through-hole version, with the connections
shown below. RXD/TXD lines is not in use for firmware upgrade, but is included on spare pins on
the connector for debugging purposes.
Radiocrafts
Embedded Wireless Solutions
RC1180-MBUS
2015 Radiocrafts AS RC1180-MBUS Data Sheet (rev. 2.22) Page 10 of 16
Antenna Connection
The antenna should be connected to the RF pin. The RF pin is matched to 50 Ohm. If the
antenna connector is placed away from the module at the motherboard, the track between the
RF pin and the connector should be a 50 Ohm transmission line.
On a two layer board made of FR4 the width of a microstrip transmission line should be 1.8
times the thickness of the board, assuming a dielectric constant of 4.8. The line should be run
at the top of the board, and the bottom side should be a ground plane.
Example: For a 1.6 mm thick FR4 board, the width of the trace on the top side should be 1.8 x
1.6 mm = 2.88 mm.
The simplest antenna to use is the quarter wave whip antenna. A quarter wave whip antenna
above a ground plane yields 37 Ohm impedance and a matching circuit for 50 Ohm are
usually not required.
A PCB antenna can be made as a copper track where the ground plane is removed on the
back side. The rest of the PCB board should have a ground plane as large as possible,
preferably as large as the antenna itself, to make it act as a counterweight to the antenna. If
the track is shorter than a quarter of a wavelength, the antenna should be matched to 50
ohms.
The lengths of a quarter wave antenna for different operational frequencies are given in the
table below.
Frequency
[MHz]
Length
[cm]
868 8.2
Regulatory Compliance Information
The use of RF frequencies and maximum allowed RF power is limited by national regulations.
The RC1180-MBUS has been designed to comply with the R&TTE directive 1999/5/EC.
According to R&TTE directives, it is the responsibility of Radiocrafts’ customers (i.e. RC1180-
MBUS end user) to check that the host product (i.e. final product) is compliant with R&TTE
essential requirements. The use of a CE marked radio module can avoid re-certification of the
final product, provided that the end user respects the recommendations given by Radiocrafts.
A Declaration of Conformity is available from Radiocrafts on request.
The relevant regulations are subject to change. Radiocrafts AS do not take responsibility for
the validity and accuracy of the understanding of the regulations referred above. Radiocrafts
only guarantee that this product meets the specifications in this document. Radiocrafts is
exempt from any responsibilities related to regulatory compliance.
Radiocrafts
Embedded Wireless Solutions
RC1180-MBUS
2015 Radiocrafts AS RC1180-MBUS Data Sheet (rev. 2.22) Page 11 of 16
PCB Layout Recommendations
The recommended layout pads for the module are shown in the figure below. All dimensions
are in thousands of an inch (mil). The circle in upper left corner is an orientation mark only,
and should not be a part of the copper pattern.
A PCB with two or more layers and with a solid ground plane in one of the inner- or bottom
layer(s) is recommended. All GND-pins of the module shall be connected to this ground plane
with vias with shortest possible routing, one via per GND-pin.
On the back side of the module there are several test pads. These test pads shall not be
connected, and the area underneath the module should be covered with solder resist. If any
routing or vias is required under the module, the routing and vias must be covered with solder
resist to prevent short circuiting of the test pads. It is recommended that vias are tented.
Reserved pins should be soldered to the pads but the pads must be left floating.
Note that Radiocrafts technical support team is available for schematic and layout review of
your design.
Radiocrafts
Embedded Wireless Solutions
RC1180-MBUS
2015 Radiocrafts AS RC1180-MBUS Data Sheet (rev. 2.22) Page 12 of 16
Mechanical Drawing
Top view
Side view
Bottom view
End view
Drawings are not to scale
Radiocrafts
25.4 mm 12.7 mm
8.5 mm
13.6 mm
0.9 mm
1.4 mm
2.1 mm
2.1 mm
0.38 mm
23.6 mm 10.9 mm
1.9 mm
3.2 mm
RCXXXX YYYYWW
NN A.BB
Part nr: RCXXXX
Lot code: YYYYW W (YYYY=prod. year, WW= prod. week)
Hardware revision: A.BB
Approval marking: NN = CE, FCC or others
3.3 mm
Mechanical Dimensions
The module size is 12.7 x 25.4 x 3.3 mm.
Carrier Tape and Reel Specification
Carrier tape and reel is in accordance with EIA Specification 481.
Tape width
Component
pitch
Hole pitch
Reel
diameter
Units per
reel
44 mm 16 mm 4 mm 13” Max 1000
Soldering Profile Recommendation
JEDEC standard IPC/JEDEC J-STD-020D.1 (page 7 and 8), Pb-Free Assembly is
recommended.
The standard requires that the heat dissipated in the "surroundings" on the PCB is taken into
account. The peak temperature should be adjusted so that it is within the window specified in
the standard for the actual motherboard.
Aperture for paste stencil is normally areal-reduced by 20-35%, please consult your
production facility for best experience aperture reduction.
Radiocrafts
Embedded Wireless Solutions
RC1180-MBUS
2015 Radiocrafts AS RC1180-MBUS Data Sheet (rev. 2.22) Page 13 of 16
Absolute Maximum Ratings
Parameter
Min
Max
Unit
Caution ! ESD sensitive device.
Precaution should be used when
handling the device in order to prevent
permanent damage.
Supply voltage, VCC -0.3 3.9 V
Voltage on any pin -0.3 VCC+0.3V
Max 3.9V
V
Input RF level 10 dBm
Storage temperature -50 150 °C
Operating temperature -40 85 °C
Under no circumstances the absolute maximum ratings given above should be violated.
Stress exceeding one or more of the limiting values may cause permanent damage to the
device.
Fresh 3.6V Li batteries normally have a higher open circuit voltage than the nominal 3.6V, but
can still be used to power the module as long as it is not exceeding the absolute maximum
rating (3.9V). When the module operates in IDLE/RX/TX the loaded battery voltage will
usually drop below 3.6V, which is inside the operation voltage range (2.0V – 3.6V).
Electrical Specifications
T=25°C, VCC = 3.0V if nothing else stated.
Parameter
Min
Typ.
Max
Unit
Condition / Note
Operating frequency
868.0
870.0
MHz
Number of channels
12
Input/output impedance
50
Ohm
Chip rate
S-mode
T-mode
R2-mode
32.768
100
4.8
kchip/s
Data rate
S-mode
T-mode
R2-mode
16.384
66.67
2.4
kbit/s
S and R2 mode use
Manchester coding. T mode
uses 3-of-6 coding. T2 use
a combination of both.
Frequency stability
S and T mode
R2 mode
+/-40
+/-20
ppm
Including 10 years of aging.
TBD limited temperature
range for R2 mode
Frequency stability aging 1 ppm/year Starting after 10 years
Transmit power
-20
9
10
dBm
Typical values are for
default settings
FSK deviation
S-mode
T-mode
R2-mode
+/- 50
+/- 50
+/- 6
kHz
Adjacent channel power
TBD dBc
Occupied bandwidth
TBD kHz 99.5%
Spurious emission, TX
< 1 GHz
> 1 GHz
-36
-30
dBm
Radiocrafts
Embedded Wireless Solutions
RC1180-MBUS
2015 Radiocrafts AS RC1180-MBUS Data Sheet (rev. 2.22) Page 14 of 16
Sensitivity
S-mode
T-mode
R2-mode
-100
-100
-105
-102
-101
-106
dBm
Measured at 1% BER /
80% PER of 20 byte
packets.
Adjacent channel rejection
29 dB
Alternate channel selectivity
53 dB
Image channel rejection
28 dB
Blocking / Interferer rejection /
desensitization
+/- 1 MHz
+/- 2 MHz
+/- 5 MHz
+/- 10 MHz
30
35
50
60
43
49
68
72
dB
Wanted signal 3 dB above
sensitivity level, CW
interferer.
Minimum numbers
corresponds to class 2
receiver requirements in
EN300220.
Saturation
-14 dBm
Input IP3
TBD dBm
Spurious emission, RX
-57
dBm
Supply voltage
2.0 3.6 V
Current consumption,
RX/IDLE
UART IDLE
1.7
24
3.6
mA
Apply over entire supply
voltage range
UART IDLE current
depends on UART Baud
Rate. Max value for baud
rates >14.4 kbaud and 1.7
ma for lower baud rates
Current consumption, TX
RF_POWER=5, 9 dBm
RF_POWER=4, 5 dBm
RF_POWER=3, 1 dBm
RF_POWER=2, -10 dBm
RF_POWER=1, -20 dBm
37
32
24
19
18
mA
Apply over entire supply
voltage range
Current consumption, SLEEP 0.1 1.0 uA
Digital I/O
Input logic level, low
Input logic level, high
Output logic level, low (1µA)
Output logic level, high(-1µA)
70 %
0
TBD
30 %
TBD
VCC
V
Of VCC
Of VCC
RESET pin
Input logic level, low
Input logic level, high
70 %
30 %
V
Minimum 250 ns pulse
width
UART Baud Rate tolerance
+/- 2 % UART receiver and
transmitter
Configuration memory write
cycles
1000 The guaranteed number of
write cycles using the ‘M’
command is limited
Radiocrafts
Embedded Wireless Solutions
RC1180-MBUS
2015 Radiocrafts AS RC1180-MBUS Data Sheet (rev. 2.22) Page 15 of 16
Document Revision History
Document Revision
Changes
1.0 First release
1.1 Pin Assignment and Pin Description: Pin 2 = RTS, Pin 3 = CTS. Changed
equivalent circuit to be pulled to VCC not VDD on relevant pins
1.2 Power supply chapter added. Frequency stability aging added.
1.3 Pin Assignment for Pin 2 and Pin 3 swapped, Pin 2 = CTS.
Added chapter “Programming interface”. Changed Test mode 2 description,
added Test mode 3 description.
1.4 UART_BAUD _RATE settings corrected.
Added R-C network on Reset-pin
1.5 Apply for firmware revision 1.15 and above (1.xx)
Added ‘F’ (set C-field) and ‘G’ (set M-Bus mode) commands
Added ‘T’ (set Destination Address / module ID) command
1.6 Minor corrections
2.0 MBUS protocol info separated into a User Manual
2.10 Mechanical drawing update, Product status change and minor corrections
2.20 -Voltage range clarified to be 3.9V
-removed protocol information that is available in User Manual
2.21 - Minor corrections
- C mode added
- improved application circuit
2.22 - Absolut max voltage vs Max Supply voltage clarification
Product Status and Definitions
Current
Status
Data Sheet Identification
Product Status
Definition
Advance Information Planned or under
development
This data sheet contains the design
specifications for product
development. Specifications may
change in any manner without notice.
Preliminary Engineering Samples
and First Production
This data sheet contains preliminary
data, and supplementary data will be
published at a later date. Radiocrafts
reserves the right to make changes at
any time without notice in order to
improve design and supply the best
possible product.
X
No Identification Noted
Full Production
This data sheet contai
ns final
specifications. Radiocrafts
reserves the right to make
changes at any time without notice
in order to improve design and
supply the best possible product.
Obsolete Not in Production This data sheet contains
specifications on a product that has
been discontinued by Radiocrafts.
The data sheet is printed for
reference information only.
Radiocrafts
Embedded Wireless Solutions
RC1180-MBUS
2015 Radiocrafts AS RC1180-MBUS Data Sheet (rev. 2.22) Page 16 of 16
Disclaimer
Radiocrafts AS believes the information contained herein is correct and accurate at the time of this printing. However,
Radiocrafts AS reserves the right to make changes to this product without notice. Radiocrafts AS does not assume
any responsibility for the use of the described product; neither does it convey any license under its patent rights, or
the rights of others. The latest updates are available at the Radiocrafts website or by contacting Radiocrafts directly.
As far as possible, major changes of product specifications and functionality, will be stated in product specific Errata
Notes published at the Radiocrafts website. Customers are encouraged to check regularly for the most recent
updates on products and support tools.
Trademarks
RC232™ is a trademark of Radiocrafts AS. The RC232™ Embedded RF Protocol is used in a range of products from
Radiocrafts. The protocol handles host communication, data buffering, error check, addressing and broadcasting. It
supports point-to-point, point-to-multipoint and peer-to-peer network topologies.
All other trademarks, registered trademarks and product names are the sole property of their respective owners.
Life Support Policy
This Radiocrafts product is not designed for use in life support appliances, devices, or other systems where
malfunction can reasonably be expected to result in significant personal injury to the user, or as a critical component
in any life support device or system whose failure to perform can be reasonably expected to cause the failure of the
life support device or system, or to affect its safety or effectiveness. Radiocrafts AS customers using or selling these
products for use in such applications do so at their own risk and agree to fully indemnify Radiocrafts AS for any
damages resulting from any improper use or sale.
© 2015, Radiocrafts AS. All rights reserved.
Contact Information
Web site: www.radiocrafts.com
Address:
Radiocrafts AS
Sandakerveien 64
NO-0484 OSLO
NORWAY
Tel: +47 4000 5195
Fax: +47 22 71 29 15
E-mail: radiocrafts@radiocrafts.com
sales@radiocrafts.com
support@radiocrafts.com
