Innovative Wireless Technologies IXU1-ASY1168 ISM 902-928 MHz Transceiver for Mesh Networking User Manual CERTIFICATE OF COMPLIANCE

Innovative Wireless Technologies, Inc. ISM 902-928 MHz Transceiver for Mesh Networking CERTIFICATE OF COMPLIANCE

User Manual

Rhein Tech Laboratories, Inc.  Client:  Innovative Wireless Technologies, Inc. 360 Herndon Parkway  Model #:  IXU1-ASY1168 Suite 1400  Standards: FCC 15.247 FCC ID:  SP8-IXU1-ASY1168 Herndon, VA 20170 http://www.rheintech.com Report #: 2006098      Page 45 of 52      Appendix I:  Manual  Please refer to the following pages.
    © 2006 Copyright Innovative Wireless Technologies    P1b          mProm™ 900MHz Module USER MANUAL
     © 2006 Copyright Innovative Wireless Technologies            R1                          IMPORTANT NOTE: To comply with FCC RF exposure compliance requirements, the antenna used for this transmitter must not be co-located or operating in conjunction with any other antenna or transmitter.  Under normal operating conditions, the antenna is designed to maintain a separation    distance of 20 cm from all persons.Changes or modifications to this unit not expressly approved by Innovative Wireless Technologies, Inc. could void the user’s authority to operate this equipment.    Innovative Wireless Technologies, Inc. 1047 Vista Park Drive, Suite A Forest, Virginia 24551  1-434-316-5230 (United States) www.iwtwireless.com (United States)  mProm™, mPros™ and mProv™ are registered in the US Patent & Trademark Office by Innovative Wireless Technologies, Inc.  © 2006 Innovative Wireless Technologies, IncThis device complies with Part 15 of the FCC Rules.  Operation is subject to the following two conditions: 1. this device may not cause harmful interference, and 2. this device must accept any interference       received, including interference that may cause undesired operation.  FCC ID:  SP8-IXU1-ASY1168
     © 2006 Copyright Innovative Wireless Technologies            R1                mProm™ 900MHz Mesh Networking Module User Manual   Overview  IWT’s mProm™ Module is a 900 MHz ISM transceiver module that offers an embedded microprocessor.  The mProm module is designed for easy integration into systems needing connectivity or wire replacement.  The mProm™ module utilizes the 902-928MHz ISM band and is FCC certified for most integrated applications.  The modules are pre-programmed with IWT’s mProm™ mesh networking protocol including a RTOS and user API supporting customization for a wide range of applications.  The mProm™ 900 MHz Module is compatible with IWT’s mProv™ suite of mesh network management, control, and data aggregation tools.  Applications:  •  M2M •  Full or Partial Mesh Networking •  Wireless Sensor Networks •  Two-way Remote Keyless Entry •  Automatic Meter Reading  Figure 1 – mProm™ Module
     © 2006 Copyright Innovative Wireless Technologies            R1    FCC Statement for OEM Integrators  mProm™ Module Use for maintaining RF exposure  This device is intended only for OEM integrators under the following conditions:  1.  Connection to the mProm™ Module should always be made through the 26 pin header.  Connection to the mProm™ Module any other way not expressed in this documentation or approved by Innovative Wireless Technologies, Inc. will void the user’s ability to operate this device under the FCC certification.   The header on the mProm ™ Module is a SAMTEC FTMH-113-02-L-DV, and mate connection is CLM-113-02-L-D.  2.  The mProm™ Module may not be co-located with any other transmitter or antenna.  3.  The mProm™ Module is approved using the FCC “Unlicensed modular transmitter approval” method.  Therefore the mProm™ Module must only be used with the originally approved antenna(s).   As long as the 3 conditions above are 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 this module installed (for example, digital device emissions, PC peripheral requirements, etc.).  IMPORTANT NOTE:  In the event that these conditions can not be met (for example certain, co-location with another transmitter, or different antenna), then the FCC authorization is no longer considered valid and the FCC ID can not 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.  OEM End Product Labeling  The mProm™ module is to be installed in a OEM product without alteration.  During installation, do not remove the FCC ID information on the module.  The final end product that has integrated the mProm™ Module must be labeled in a visible area with the following:  Contains TX FCC ID: SP8-IXU1-ASY1168  IMPORTANT NOTE TO OEM  The end user of the OEM’s product, with incorporated mProm™ Module, should NOT be provided any instructions on how to remove or install the mProm™ Module.
     © 2006 Copyright Innovative Wireless Technologies            R1     The mProm™ Module Interface (Getting Started)  Voltage must be supplied to the mProm™ Module via pins 19 and 20 on the interface header.  The mProm™ Module regulates its voltage on board, but must be supplied a voltage between 3.5-14 Volts.  The table below outlines the 26 pin interface to the mProm™ Module.  The mechanical diagram that follows indicates where pin-1 starts.    Pin #  Pin Name  Pin Type  Description 1  CNVss  Digital Input   2  BUSY/UART_CS  Digital I/O  Pin set to function as UART 3  GDO2_CC1100  Digital I/O   4  3.3V  Power (RF/Dig.)  3.3V regulated output voltage 5  CE  Digital I/O  Chip enable 6  DfromMicro_UART  Digital Input  Data sent from microprocessor 7  P_SCLK  Digital I/O  Programming clock 8  DfromPC_UART  Digital Input  Data sent from computer 9  GND SIGNAL  Ground (Digital) / RF  Digital ground connection 10  GPIO6  Digital I/O  PWM GPIO  11  RESET  Digital Input  Resets the microprocessor 12  GPIO7  Digital I/O  PWM GPIO 13  UART_CLK  Digital I/O  CLK pin for configurable UART 14  GPIO3  Digital I/O  Interruptible GPIO 15  GPIO5  Digital I/O  Interruptible GPIO 16  GPIO4  Digital I/O  Interruptible GPIO 17  A0  Digital I/O-Analog In  A/D converter 18  3.3V  Power (RF/Dig.)  3.3V regulated output voltage 19  GND SIGNAL  Ground (Digital) / RF  Digital ground connection 20  Vunreg  3.6V Battery Connection  3.4V-12V battery/power connection (absolute max 14 V) 21  A1  Digital I/O-Analog In  A/D converter 22  GPIO1/PROG_RxD  Digital I/O  Pin set to function as UART / Programming UART 23  A2  Digital I/O-Analog In  A/D converter 24  GPIO2/PROG_TxD  Digital I/O  Pin set to function as UART / Programming UART 25  A3  Digital I/O-Analog In  A/D converter 26  GPIO0  Digital I/O  Pin set to function as UART   Once power is applied to pins 19 and 20, primary communication through the mProm™ Module will take place on pins 6 and 8.  These pins are the buffered UART interface to the Module.  This UART interface is 3.3-Volt logic only.  To communicate with a PC and RS232 Translator must be used on the customer’s end device.  The mProm™ Programmer Board, used for prototype development, translates the UART signaling to PC levels.  Innovative Wireless Technologies’ document “mPros™ Network Interface Specification” (version P10 or later) outlines the communication protocol utilized on the UART plus the over the air communication protocols for your peer-to-peer and mesh network configurations.  Once the UART link has been correctly initialized, your device can then utilize the mProm™ Module to communicate information wirelessly to other mProm™ Modules.  This allows the end user to quickly setup communication links between two or multiple devices.  If communication
     © 2006 Copyright Innovative Wireless Technologies            R1  becomes inoperable, momentarily pulling pin 11 (RESET) low, 0-Volts, will reset the mProm™ Module.
     © 2006 Copyright Innovative Wireless Technologies            R1  mProm™ Module Electrical Specifications                        Parameter  Min.  Typ.  Max.  Unit  Condition/Note Overall Operation Temperature  -40    85  ºC  Ambient Temperature RF Frequency Range  902    928  MHz  FHSS Absolute Supply Voltage  3.5    14  V   Transmitter Transmit Bit Rate    38.4  500  kbps   Nominal Output Power    8  10  dBm  Delivered into 50 load Receiver Receiver Sensitivity   -100    dBm PER=1%, Measured through 50 load, conducted. General I/O Available GPIO SCHMITT-Trigger Input Specifications VIT+   Positive-going input threshold  0.7Vcc    Vcc  V  Vcc=3.3V VIT-    Negative-going input threshold  0    0.3Vcc  V   Output Specifications VOH  High-level output voltage Test Condition IOH(avg) = -5mA  Vcc-0.5    Vcc  V   Test Condition IOH(peak) = -10 mA  Vcc-1.0    Vcc  V   VOL Low-level output voltage Test Condition IOL(max) = 5 mA  Vss    1.0  V   Analog to Digital Inputs Available A(x) Accuracy    10    Bit  10 bit ADC Input capacitance    220    pF   Input resistance    56       Current Consumptions Transmit Mode   42    mA Measured at 4.5 V (3-AA supply) +10dBm Power Setting Receive Mode    26    mA  Measured at 4.5 V
     © 2006 Copyright Innovative Wireless Technologies            R1  Mechanical Board Dimensions   Figure 2 Module Dimensions (mils)
     © 2006 Copyright Innovative Wireless Technologies            R1                         Innovative Wireless Technologies 1047 Vista Park Drive Suite A Forest VA 24551 434-316-5230

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