Radicom Research RB1000 Bluetooth Modules User Manual
Radicom Research Inc Bluetooth Modules
User manual
Radicom Research, Inc.
RB1000 ,
RB1000HM
&
BPM1000FCE
Serial
Bluetooth Modules
User’s Manual
RB1000/BPM1000FCE RB1000HM
August 9, 2012
1
Table of Contents
Introduction 3
Approvals 4
Electronic Characteristics 4
Firmware Upgrade List 5
Model and Ordering Information 6
RB1000/ BPM1000FCE Mechanical Dimensions 7
RB1000/ BPM1000FCE Surface Module Pin Definitions 8
RB1000/ BPM1000FCE Module Pin Descriptions 9
RB1000HM Mechanical Dimensions 10
RB1000HM Pin Descriptions 11
The AT Commands 12
Layout Design Suggestions 14
FCC & IC Label and Model Identification 15
Important Regulatory Compliance and User Information 16
CE Declaration of Conformity 18
Limited Warranty 19
Contacting Radicom 21
Information furnished by Radicom Research is believed to be accurate and reliable. However
Radicom Research assumes no responsibility for its use, or any infringement of patents or other
rights of third parties that may result from its use. Radicom Research reserves the right to change
circuitry at any time without notice. This document is subject to change without notice.
2
3
Introduction
Thank you for choosing Radicom RB1000 family Module. We are committed to providing you
quality service and technical support. The RB1000 modules are designed to meet OEM’s needs of
embedding
short-range, low power, wireless data connectivity to their products. The RB1000 family
offers a quick and simple solution for wireless Bluetooth communications.
The Radicom RB1000 family module is designed to meet the emerging market for Bluetooth 4.0
applications. These embedded Bluetooth 4.0 modules integrate entire profiles, applications, and
Bluetooth protocol stack, so no external processor is needed. The module contains an internal S-
Flash so custom parameters and settings can be easily loaded into these modules.
The RB1000 can be factory configured for other Bluetooth cost-effective and power-efficient
wireless consumer products such as watches, medical sensors, mice, TV remote controls and fitness
trainers. The model RB1000-S can also be used to connect to other Bluetooth 4.0 devices such as a
Bluetooth Dongle or PCs that support the Radicom BLE Data Protocol. Contact Radicom for help
adding the BLE Data Protocol functionality to your 4.0 Bluetooth device or for help in determining
which Bluetooth Module is the best fit for your particular Bluetooth application.
The RB1000 family modules can be powered directly with standard 3V coin cell or pair of AAA
batteries. In lowest mode it consumes only 600nA and will wake up in few hundred microseconds.
The RB1000 family provides superior performance in the presence of interference from 802.11
(WiFi) wireless devices and other 2.4GHz radios.
The RB1000 modules support quick connections and data transfers allowing an application to
establish a Bluetooth connection within a few milliseconds for short communication bursts before
quickly disconnecting the Bluetooth connection to save power. It takes much less time to make a
connection than conventional Bluetooth wireless technology and consumes approximately only
1/20th of the power of Bluetooth Basic Rate.
The RB1000 is available in surface mount (SMD) or through-hole (Dip) hardware designs. The
RB1000 module is the surface mount model. The RB1000 can also mounted on a conversion board
to create the RB100HM model for serial through-hole design
4
Approvals ~ Pending
•
FCC Part 15: 47 CFR FCC Part 15
Subpart C 15.247, 47 CFR FCC Part 15 Subpart B 2009 (Class B)
•
IC RSS-102, IC ES-003 issue 4, IC RSS-210 issue 8:2010
•
RoHS Compliant
•
CE Marked: EN
61000-3-2:2006+A2:2009,
EN 62311:2008, EN 300 328 V1.7.1,
EN 301 489-1, V1.8.1, EN 61000-3-3:2008, EN 301 489-17 V2.1.1, EN301 489-1
V1.9.2), EN 62311:2008
EN60950-1:2006+A11:2009+A1:2010+A12:2011
Electronic Characteristics
Minimum Typical Maximum Unit
Operation voltage 2.35 3.0 3.6 V
Output Power 4.0 dBm
Sensitivity -92.5
dBm
Current Consumption
Dormant mode, VBAT=3V 600 nA
Deep Sleep
m
ode, VB
A
T=3V 5 uA
Idle
m
ode, VB
A
T=3V 1 mA
RX/TX active, VB
A
T=3V 16 mA
5
Firmware Upgrade List
The list below reflects future application firmware that can be loaded into the RB1000 Family
Acronym Description
•
ANP Alert Notification Profile
•
ANS Alert Notification Service
•
BAS Battery Service
•
BLP Blood Pressure Profile
•
BLS Blood Pressure Service
•
CTS Current Time Service
•
DIS Device Information Service
•
FMP Find Me Profile
•
GLP Glucose Profile
•
GLS Glucose Service
•
HIDS HID Service
•
HOGP HID over GATT Profile
•
HTP Health Thermometer Profile
•
HTS Health Thermometer Service
•
HRP Heart Rate Profile
•
HRS Heart Rate Service
•
IAS Immediate Alert Service
•
LLS Link Loss Service
•
NDCS Next DST Change Service
•
PASP Phone Alert Status Profile
•
PASS Phone Alert Status Service
•
PXP Proximity Profile
•
RTUS Reference Time Update Service
•
ScPP Scan Parameters Profile
•
ScPS Scan Parameters Service
•
TIP Time Profile
•
TPS Tx Power Service
6
Model Numbers
RB1000/ BPM1000FCE
0.57”x 0.99”x 0.12” surface mount, short range
RB1000/BPM1000FCE
Bluetooth module with on-board antenna
RB1000HM
1.0” x 1.26” x 0.2” dual-in-line, through-hole Bluetooth module.
RB1000 is mounted on Half Inch PCB for DIP (through-hole)
interface to be RB1000HM.
Model and Ordering Information
7
RB1000/BPM1000FCE Mechanical Dimensions
Module topside view:
Board size = 14.5 mm x 25.2 mm (0.57” x 0.99”)
Pitch = 1.14 mm (Left & Right side, 0.04”), 1.27mm (Down side, 0.05”)
Pad width = 0.91 mm (0.036”)
8
RB1000/BPM1000FCE Surface Mount Module Pin Definitions
9
RB1000/BPM1000FCE Module Pin Descriptions
Pin # Pin Name Type Description I/O Voltage Range
1 GND - Ground -
2 VBAT PWR I
Battery input and regulator
enable (active high). 2.35V ~ 3.6V
3
WAKE
PWR I Input to wake CSR1000 QFN
from hibernate or dormant.
V
il: -0.4V ~ 0.4V
Vih: 0.7VDD ~VDD+0.4V
4
I²C_SDA /SF_DOUT
I/O
or O
I²C data input / output or SPI
serial Flash data output
(SF_DOUT)
V
il: -0.4V ~ 0.4V
Vih: 0.7VDD ~VDD+0.4V
Vol: 0.4V Max
Voh 0.75VDD Min
5 I²C_SCL / SF_CL
K
O
or O
I²C cloc
k
o
r
SPI se
r
ial Flash
clock output (SF_CLK)
Vol: 0.4V Max
Voh 0.75VDD Min
6 SPI_PIO#_SEL I Selects SPI debug on
PIO[8:5].
V
il: -0.4V ~ 0.4V
Vih: 0.7VDD ~VDD+0.4V
7
PIO (11)
I/O
Programmable I/O line
V
il: -0.4V ~ 0.4V
Vih: 0.7VDD ~VDD+0.4V
Vol: 0.4V Max
Voh 0.75VDD Min
8
PIO (10)
I/O
Programmable I/O line
V
il: -0.4V ~ 0.4V
Vih: 0.7VDD ~VDD+0.4V
Vol: 0.4V Max
Voh: 0.75VDD Min
9
PIO (9)
CONNECTED
O
PIO (9) will go high when
Bluetooth connection
established.
Vol: 0.4V Max
Voh: 0.75VDD Min
10
PIO (8) / SPI_MISO
I/O
or I
Programmable I/O line or
debug SPI MISO selected by
SPI_PIO#
V
il: -0.4V ~ 0.4V
Vih: 0.7VDD ~VDD+0.4V
Vol: 0.4V Max
Voh: 0.75VDD Min
11
PIO (7) / SPI_MOSI
I/O
or O
Programmable I/O line or
debug SPI MOSI selected by
SPI_PIO#
V
il: -0.4V ~ 0.4V
Vih: 0.7VDD ~VDD+0.4V
Vol: 0.4V Max
Voh 0.75VDD Min
12
PIO (6) / SPI_CSB
I/O
or I
Programmable I/O line or
debug SPI chip select (CS#)
selected by SPI_PIO#.
V
il: -0.4V ~ 0.4V
Vih: 0.7VDD ~VDD+0.4V
Vol: 0.4V Max
Voh: 0.75VDD Min
13
PIO (5) / SPI_CLK
I/O
or O
Programmable I/O line or
debug SPI
CLK selected by SPI_PIO#.
V
il: -0.4V ~ 0.4V
Vih: 0.7VDD ~VDD+0.4V
Vol: 0.4V Max
Voh: 0.75VDD Min
14
PIO (4) / SF_CS#
I/O
or I
Programmable I/O line or SPI
serial flash chip select
(SF_CS#)
V
il: -0.4V ~ 0.4V
Vih: 0.7VDD ~VDD+0.4V
Vol: 0.4V Max
Voh: 0.75VDD Min
15
PIO (3) / SF_DIN
I/O
or I
Programmable I/O line or SPI
serial flash data (SF_DIN)
input
V
il: -0.4V ~ 0.4V
Vih: 0.7VDD ~VDD+0.4V
Vol: 0.4V Max
Voh: 0.75VDD Min
16
PIO (1) / UP_RX
I/O
or I
Programmable I/O line or
UART RX
V
il: -0.4V ~ 0.4V
Vih: 0.7VDD ~VDD+0.4V
Vol: 0.4V Max
Voh: 0.75VDD Min
17 PIO (0) / UP_ TX I/O
or O
Programmable I/O line or
UART TX
V
il: -0.4V ~ 0.4V
Vih: 0.7VDD ~VDD+0.4V
Vol: 0.4V Max
10
1
Voh: 0.75VDD Min
18 AIO (0)
I/O Analogue programmable
I/O line Input voltage: 0 – 1.3V
19 AIO (1)
I/O Analogue programmable
I/O line Input voltage: 0 – 1.3V
20 AIO (2)
I/O Analogue programmable
I/O line Input voltage: 0 – 1.3V
21
GND
-
-
22
GND
-
-
23
RF (Optional fo
r
External Antenna)
RF I/O Bluetooth
Transmitter / receiver - No Connection
2
3
RB1000HM Mechanical Dimensions
4
5
Notes: 6
Pin spacing is 0.100 inch from center to center. 7
Square pins - 0.025" x 0.025" 8
Suggested mating female connector: 9
Samtec P/N. #SSW-110-21-G-S (RoHS Thru-Hole) 10
Samtec P/N. #SSW-110-22-G-S-VS (RoHS SMT) 11
11
RB1000HM Pin Descriptions
Pin # Pin Name Type Description I/O Voltage Range
1 GND - -
2 KEY
N/C No Connections - No Pin – This
Pin has been removed.
Add a ke
y
to the mating connector to
prevent from being plugged in
backwards.
3 AIO (1) I/O Analogue programmable
I/O line Input voltage: 0 – 1.3V
4 AIO (0) I/O Analogue programmable
I/O line Input voltage: 0 – 1.3V
5
UART_TX
I/O
or O UART TX
Vil: -0.4V
~
0.4V
Vih: 0.7VDD ~VDD+0.4V
Vol: 0.4V Max
Voh: 0.75VDD Min
6
UART_RX
I/O
or I UART RX
Vil: -0.4V
~
0.4V
Vih: 0.7VDD ~VDD+0.4V
Vol: 0.4V Max
Voh: 0.75VDD Min
7
PIO (3) / SF_DIN
I/O
or I
Programmable I/O line or SPI
serial flash data (SF_DIN) input
Vil: -0.4V
~
0.4V
Vih: 0.7VDD ~VDD+0.4V
Vol: 0.4V Max
Voh: 0.75VDD Min
8
PIO (4) / SF_CS#
I/O
or I
Programmable I/O line or SPI
serial flash chip select (SF_CS#)
Vil: -0.4V
~
0.4V
Vih: 0.7VDD ~VDD+0.4V
Vol: 0.4V Max
Voh: 0.75VDD Min
9
SPI_CLK
I/O
or O
Programmable I/O line or debug
SPI CLK selected by SPI_PIO#.
Vil: -0.4V
~
0.4V
Vih: 0.7VDD ~VDD+0.4V
Vol: 0.4V Max
Voh: 0.75VDD Min
10
PIO (6) / SPI_CSB
I/O
or I
Programmable I/O line or debug
SPI chip select (CS#) selected by
SPI_PIO#.
Vil: -0.4V
~
0.4V
Vih: 0.7VDD ~VDD+0.4V
Vol: 0.4V Max
Voh:0.75VDD Min
11
PIO (7) / SPI_MOSI
I/O
or O
Programmable I/O line or debug
SPI MOSI selected by SPI_PIO#
Vil: -0.4V
~
0.4V
Vih: 0.7VDD ~VDD+0.4V
Vol: 0.4V Max
Voh: 0.75VDD Min
12
PIO (8) / SPI_MISO
I/O
or I
Programmable I/O line or debug
SPI MISO selected by SPI_PIO#
Vil: -0.4V
~
0.4V
Vih: 0.7VDD ~VDD+0.4V
Vol: 0.4V Max
Voh: 0.75VDD Min
13 PIO (9)
CONNECTED
O PIO (9) will go high when
Bluetooth connection established. Vol: 0.4V Max
Voh: 0.75VDD Min
14
PIO (10)
I/O Programmable I/O line
Vil: -0.4V
~
0.4V
Vih: 0.7VDD ~VDD+0.4V
Vol: 0.4V Max
Voh: 0.75VDD Min
15
PIO (11)
I/O Programmable I/O line
Vil: -0.4V
~
0.4V
Vih: 0.7VDD ~VDD+0.4V
Vol: 0.4V Max
Voh: 0.75VDD Min
16 SPI_PIO#_SEL I Selects SPI debug on
PIO[8:5].
Vil: -0.4V
~
0.4V
Vih: 0.7VDD ~VDD+0.4V
17 I²C_SCL / SF_CL
K
O
or O
I²C cloc
k
or SPI serial Flash clock
output (SF_CLK)
Vol: 0.4V Max
Voh: 0.75VDD Min
18
I²C_SDA /SF_DOUT
I/O
or O
I²C data input / output or SPI serial
Flash data output
(SF_DOUT)
Vil: -0.4V
~
0.4V
Vih: 0.7VDD ~VDD+0.4V
Vol: 0.4V Max
Voh: 0.75VDD Min
19 WAKE PWR I
Input to wake CSR1000 QFN from
hibernate or dormant.
Vil: -0.4V
~
0.4V
Vih: 0.7VDD ~VDD+0.4V
20 VBAT PWR I
Batter
y
input and regulato
r
enable
(active high). 2.35V-3.6V
12
The AT Commands
Using AT Commands for BLE Data Transfers - The RB1000 modules are defaulted to use the
BLE Data Protocol and are controlled by Radicom’s proprietary AT Command set. For BLE Data
Protocol operation, you need one Radicom Master and one Radicom Slave module. The
Slave
Model
RB1000-S advertises or broadcasts the Bluetooth signal. The Master Model RB1000-M will
scan for Bluetooth signals and then request a Bluetooth connection. The RB1000-S Slave can then
accept the connection for BLE Date transfers. The RB1000 Slave, can also operate with remote
devices that also support the BLE Data Protocol.
The RB1000 modules use special AT Commands starting with the prefix “atbp-”. The format of a
basic “AT” command and result code is as follows:
atbp- <Command> <CR>
OK
atbp- = ATtention what follows is a command
<Command> = any valid command
<CR> = Carriage Return or Enter Key or Line Feed
OK = Result code meaning that the modem has accepted the command
Notes:
a) All AT commands must be sent in lower case. All command and result codes are echoed
locally.
b) All AT commands are terminated with either a Carriage Return <CR> or Line Feed <LF>
Character.
c) The RB1000s are always in the AT Command Mode, so it is recommended not to send
Carriage Return <CR> or Line Feed <LF> Characters in the ASCII data stream. The receive
data side will automatically append <CR> and <LF> characters after the received data to
notify you that the data string is complete.
Establishing A Bluetooth Data Connection –
On the RB1000MB Slave side:
a) Issue “atbp-b” to stop advertising. The “Stop Adv.” Result code will be
displayed.
b)
Issue “atbp-a” to start advertising. The “Advertising” result code will be displayed.
On RB1000MB Master side:
a) Issue the “atbp-s” command to scan nearby device’s Bluetooth address. The Master side
RB1000 will display the “Scanning” result code followed by the Slave side Bluetooth
Address. For example the Slave side Bluetooth address: 00025b001510 will appear as
ADDR:0X00025b001510.
13
b) Issue the “atbp-c” command followed by the Bluetooth Address of the remote RB1000
“atbp-c00025b001510” to connect to Slave side. The Master side will display “Connecting
00025b001510” result code.
c) If the Bluetooth connection is established, the “CONNECT” result code will be displayed
on both sides. The RB1000 can now start sending data to each other.
d) To send data from the Master issue “atbp-w12345” to send data “12345” (Up to 20 ASCII
characters). The Master side will display the “Writing” result code followed by the “Success”
result code. The Slave side will display the “Data” result code followed by the characters that
were sent. If invalid data is sent from the Master side, the “Failed” result code will be sent.
e) To send data from the Slave side, issue “atbp-w12345” to send data “12345”. The Slave side
will simply display the “Sent” result code and the Master side will display “Data followed by
the data that was sent.
f) To disconnect, issue “atbp-d” from the Master side. Both modules will display the
“Disconnect” result code.
AT Command List
AT Command Slave Side Master Side Description
atbp-a
√
Advertising On
atbp-b
√
Advertising Off
atbp-c
√
Connect to
atbp-d
√
Disconnect from
atbp-s
√
Scan nearby devices
atbp-v
√
√
Version
atbp-w
√
√
Write data to the
other side
14
Layout Design Suggestions
•
General Layout Rules- All Printed Circuit Boards must comply with UL94V0 standard for
flammability.
Always use RoHS compliant Parts and materials.
•
Suggestions for Layout:
1. Do not place Power circuit, X’tal, Inductor, etc near RF area.
2. The bigger Antenna clearance area, the better. The Antenna itself needs to stay away from any
circuit or component at least 3mm. Antenna clearance area means Top and Bottom both
required to be cleared.
3. Do not use metal materials on design where near Antenna area. For example, battery snaps,
USB connector, iron case, etc.
These guidelines are for design reference; real performance still depends on actual design.
15
FCC & IC Label and Model Identification
The RB1000 module family is FCC Part 15 and IC (Industry Canada) certified. The RB1000 is also
CE marked. The modules are labeled with the RB1000 module model number and FCC Part 15 ID,
IC registration number and CE mark. The label can be found on top of the metal shielding on the
RB1000 Module.
Radicom Research Inc.
Model: BPM1000FCE
FCC ID: K7T-RB1000
IC: 2377A-RB1000
Radicom Research Inc.
Model: RB1000HM
FCC ID: K7T-RB1000
IC: 2377A-RB1000
Radicom Research Inc.
Model: RB1000
FCC ID: K7T-RB1000
IC: 2377A-RB1000
16
Important Regulatory Compliance and User Information
The final product with the modules installed needs to be tested for FCC Part 15, IC (Industry
Canada) CE, EMI/RFI compliance. Radicom certification documentation will help streamline the
final product approval process. Contact Radicom for more information. To maintain compliance in
the finished product, carefully follow guidelines in this section. This device is intended only for
OEM integrators under the following condition:
The transmitter module may not be co-located with any other transmitter or antenna. As long as this
condition is met, further transmitter testing will not be required. However, the OEM integrator is still
responsible for testing their end product for any additional compliance requirements required with
the module installed (for example, digital device emissions, PC peripheral requirements, etc).
IMPORTANT NOTE:
In the event that this condition cannot be met then the FCC authorization is
no longer considered valid and the FCC ID cannot be used on the final product. In these
circumstances, the OEM integrator will be responsible for re-evaluating the end product (including
the transmitter) and obtaining a separate FCC authorization.
Host (End Product) Labeling Requirements
To maintain compliance, the end product hosting the module must be properly labeled to identify
that this module is installed. The final end product must have a label located in a visible area with
the following information:
Contains Transmitter
Module
Model: XXXXXXX FCC ID:
K7T-RB1000
IC:
2377A-RB1000
XXXXXXX is for the model of the module used in the end equipment. The XXXXXXX will be
RB1000, RB1000HM, and BPM1000F. The label shall be securely affixed to a permanently attached
part of the device, in a location where it is visible or easily accessible to the user, and shall not be
readily detachable. The label shall be sufficiently durable to remain fully legible and intact on the
device in all normal conditions of use throughout the device’s expected lifetime. These requirements
may be met either by a separate label or nameplate permanently attached to the
device
or by
permanently imprinting or impressing the label directly onto the device. The label text shall
be legible without the aid of magnification, but is not required to be larger than 8-point font size.
17
End User Information
This equipment complies with FCC radiation exposure limits set forth for an uncontrolled
environment. End users must follow the specific operating instructions for satisfying RF Exposure
compliance. The end user should NOT be provided any instructions on how to remove or install the
device. The user’s manual for end users must include the following information in a prominent
location.
FCC RF Radiation Exposure
Statement
IMPORTANT NOTE: To comply with the FCC RF exposure compliance requirements, this device must
not be co-located or operating in conjunction with any antenna or transmitter. This device contains a low
power transmitter. When this device is operational, use only with the supplied, or recommended antenna.
Unauthorized antenna, modification, or attachments could damage the transmitter and may violate FCC
regulations. Changes or modifications not expressly approved by the manufacturer or party responsible for
compliance could void the user’s authority to operate the equipment.
FCC Interference
Statement
This device complies with Part 15 of the FCC Rules. Operation is subject to the following conditions: (1)
This device may not cause harmful interference
(2) This device must accept any interference received, including interference that may cause
undesired operation.
This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to
Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful
interference in a residential installation. This equipment generates and radiates radio frequency energy and, if
not installed and used in accordance with the instructions, may cause harmful interference to radio
communications. There is no guarantee that interference will not occur in a particular installation. If this
equipment does cause harmful interference to radio or television reception, which can be determined by
turning the equipment off and on, the user is encouraged to try to correct the interference by one of the
following measures:
● Reorient or relocate the receiving antenna.
● Increase the separation between the equipment and receiver.
● Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.
● Consult the dealer or an experienced radio/TV technician for assistance.
IC (Industry Canada)
Statement:
“This device complies with Industry Canada license-exempt RSS standard(s). Operation is subject to the
following two conditions: (1) this device may not cause interference, and (2) this device must accept any
interference, including interference that may cause undesired operation of the device”
Le present appareil est conforme aux CNR d’Industrie Canada applicables aux appareils radio exempts de
license. L’exploitation est autorisee aux deux conditions suivantes: (1) l’appareil ne doit pas produire de
brouillage, et (2) l’utilisateur de l’appareil doit acceptor tout brouillage radioelectrique subi, meme si le
brouillage est susceptible d’en compromettre le fonctionnement.
The final end product must be labeled in a visible area with the following: “Contains FCC ID: K7T-
RB1000, IC ID: 2377A-RB1000”
18
CE Declaration of Conformity
For the following equipment:
Radicom Research Inc. Bluetooth Module
Model(s):
RB1000,
RB1000HM, BPM1000F
are herewith confirmed to comply with the requirements set out in the Council (European
parliament) Directive on the Approximation of the Laws of the
Member States relating to Electromagnetic Compatibility of Radio and Telecom device (1999/5/CE).
For the evaluation regarding this Directive, the following
standards were applied:
EN
61000-3-2:2006+A2:2009,
EN 300 328 V1.7.1, EN 62311: 2008,
EN 301 489-1 V1.9.2, V1.8.1, EN 61000-3-3:2008, EN 301 489-17 V2.1.1,
EN
60950-1:2006+A11:2009+A1:
2010+A12:2011, EN300 328 V1.7.1,
EN62311;2008
This equipment is marked with and can be used throughout the European
community.
France – 2.4GHz for Metropolitan France:
In all Metropolitan departments, wireless LAN frequencies can be used under the following
conditions, either for public or private use:
•
Indoor use: maximum power (EIRP*) of 100 mW for the entire 2400-2483.5 MHz
frequency band
•
Outdoor use: maximum power (EIRP*) of 100 mW for the 2400-2454 MHz band and
with maximum power (EIRP*) of 10 mW for the 2454-2483 MHz band
Europe – R&TTE Compliance Statement:
Hereby, Radicom Research Inc. declares that this equipment complies with the essential requirements
and other relevant provisions of DIRECTIVE 1999/5/CE OF THE EUROPEAN PARLIAMENT
AND THE COUNCIL of March 9, 1999 on radio equipment and telecommunication
terminal Equipment and the mutual recognition of their conformity (R&TTE).
19
Limited Warranty
Warranty Coverage and Duration
Radicom Research, Inc. (“RRI”) warrants to the original purchaser its RRI-manufactured products
(“Product”) against defects in material and workmanship under normal use and service for a period
of one year from the date of delivery.
During the applicable warranty period, at no charge, RRI will, at its option, either repair, replace or
refund the purchase price of this Product, provided it is returned in accordance with the terms of this
warranty to RRI. Repair, at the option of RRI, may include the replacement of parts, boards or
other components with functionally equivalent reconditioned or new parts, boards or other
components. Replaced parts, boards or other components are warranted for the balance of the
original applicable warranty period. All replaced items shall become the property of RRI.
RRI MAKES NO GUARANTEE OR WARRANTY THAT THE PRODUCT WILL PREVENT
OCCURRENCES, OR THE CONSEQUENCES THEREOF, WHICH THE PRODUCT IS
DESIGNED TO DETECT.
This expressed limited warranty is extended by RRI to the original end-user purchaser only, and
is not
assignable or transferable to any other party. This is the complete warranty for the Product
manufactured by RRI, and RRI assumes no obligation or liability for additions or modifications to
this warranty. In no case does RRI warrant the installation, maintenance or service of the Product.
RRI is not responsible in any way for any ancillary equipment not furnished by RRI that is
attached
to
or used in connection with the Product, or for operation of the Product with any ancillary
equipment, and all such equipment is expressly excluded from this warranty. Because of wide
variations in topographical and atmospheric conditions, which may require availability of repeater
stations or of particular radio frequencies, RRI assumes no liability for range, coverage or suitability
of the Product for any particular application. Buyer acknowledges that RRI does not know a
particular purpose for which buyer wants the product, and that buyer is not relying on RRI’s skill
and judgment to select or furnish suitable goods.
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What this Warranty does NOT Cover:
(a) Defects or damage resulting from use of the Product in other than its normal and customary
manner.
(b) Defects or damage from misuse, accident or neglect.
(c) Defects of damage from improper testing, operation, maintenance, installation, alteration,
modification or adjustment.
(d) Disassembly or repair of the Product in such a manner as to adversely affect performance or
prevent adequate inspection and testing to verify any warranty claim.
(e) Any Product that has had its serial number or date code removed or made illegible.
How to Receive Warranty Service:
To obtain warranty service, contact RRI by phone (408)-383 9006 for RMA Department or email to
rma@radi.com for an RMA (Return
Merchandise
Authorization) number. Deliver or send the
Product, transportation and insurance prepaid to RRI, with the RMA number clearly marked on the
outside of the package.
General Provision
This warranty sets forth the full extent of RRI’s responsibilities regarding the Product. Repair,
replacement or refund of the purchase price, at RRI’s option, is the exclusive remedy.
THIS WARRANTY IS GIVEN IN LIEU OF ALL OTHER EXPRESSED WARRANTIES. ANY
APPLICABLE IMPLIED WARRANTIES, INCLUDING WITHOUT LIMITATION, THE
IMPLIED WARRANTY OF MERCHANTABILITY, ARE LIMITED TO THE DURATION OF
THIS LIMITED WARRANTY. TO THE FULLEST EXTENT PERMITTED BY LAW, RRI
DISCLAIMS ANY LIABILITY FOR DAMAGES IN EXCESS OF THE PURCHASE PRICE OF
THE PRODUCT, FOR ANY LOSS OF USE, LOSS OF TIME, INCONVENIENCE,
COMMERCIAL LOSS, LOST PROFITS OR SAVING OR OTHER INCIDENTAL, SPECIAL OR
CONSEQUENTIAL DAMAGES ARISING OUT OF THE USE OR INABILITY TO USE OR
FAILURE OF SUCH PRODUCT.
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Contacting Radicom Research
If more information or technical support is needed, please contact us:
2148 Bering
Drive
San Jose, CA. 95131
Telephone: (408) 383 9006
Fax: (408) 383 9007
or
e-mail:
sales@radi.com
http://www.radi.com/