Synapse Wireless RFET RF ENGINE TURBO User Manual USERS MANUAL

Synapse Wireless Inc. RF ENGINE TURBO USERS MANUAL

USERS MANUAL

  5015 B.U. Bowman Drive  Buford, GA 30518 USA Voice: 770-831-8048 Fax: 770-831-8598   FCC Part 15.247  Transmitter Certification   Test Report  FCC ID:  U9O-RFET  FCC Rule Part: 15.247  ACS Report Number:  07-0157-15C-RFET   Manufacturer: Wireless Control Network Solutions, LLC.; dba Synapse Brand Name: RF Engine  Model: RFET    Manual
                 RF Engine Product Manual  Rev 0.1 – 5/1/2007
 1.0 RF Engine OEM Modules   RF Engine modules meet IEEE 802.15.4 specifications.  These modules provide a low power, highly reliable sensor wireless network at very low cost.  The modules provide up to 16 channels of operation in the ISM 2.4GHz frequency band.  The are two versions of modules.  One version has an external power amplifier.  This module will be referred to as RF Engine with amplifier.  The other module has no external power amplifier and is referred to as RF Engine without amplifier.  1.1 Specifications  RF Engine Specifications     No Ext Amp  With Ext Amp             Indoor Range  200 ft.  1000 ft.    Outdoor LOS Range  up to 1000 ft.  up to 3 miles Performance  Transmit Power Output  4 dBm  18 dBm    RF Data Rate  250,000 bps  250,000 bps    Receiver Sensitivity  ~102 dBm (1% PER)  ~102 dBm (1% PER)    Supply Voltage  2.7 - 3.4 V  2.7 - 3.4 V    Transmit Current (Typ)  40mA  110mA Power Requirements  Idle/Receive Current (Typ)  50mA  50mA    Power-down Current (Typ)  75uA @ 3 sec. wakeup cycle  75uA @ 3 sec. wakeup cycle    Frequency  ISM 2.4GHz  ISM 2.4GHz    Spreading Method  Direct Sequence  Direct Sequence General  Modulation O-QPSK O-QPSK    Dimensions  1.333" x 1.333"  1.333" x 1.333"    Operating Temperature  ~40 to 85 deg C.  ~40 to 85 deg C.    Antenna Options  Integrated F, External RPSMA  Integrated F, External RPSMA    Topology  SNAP (star)  SNAP (star) Networking   Error Handling  Retries and acknowledgement  Retries and acknowledgement    Number of Channels  16  16    UARTS with HW Flow Control  2 Ports - 4 total I/O  2 ports - 4 total I/O Available I/O  GPIO   11 total; 8 can be analog in  11 total, 8 can be analog in       with 10bit ADC  with 10bit ADC    FCC Part 15.247  Yes  Yes Agency Approvals  Industry Canada (IC)  Yes  Yes
 1.2 Module Pin Definitions  Pin No. Name   Direction Description  1 GND    -  Power Supply 2 GPIO0_TPM1CH2    Bidirectional  GPI/O, or Timer1 Channel 2 3 GPIO1_KBI0   Bidirectional GPI/O, Keyboard In 4 GPIO2_KBI1   Bidirectional GPI/O, Keyboard In 5 GPIO3_RX_UART0  Input  UART0 Data In 6 GPIO4_TX_UART0  Output  UART0 Data Out 7 GPIO5_KBI4_CTS0   Bidirectional  GPI/O, Keyboard In, or UART0 CTS 8 GPIO6_KBI5_RTS0   Bidirectional  GPI/O, Keyboard In, or UART0 RTS 9 GPIO7_RX_UART1   Input    RS232*/UART1 Data In 10 GPIO8_TX_UART1   Output   RS232*/UART1 Data Out 11 GPIO9_KBI6_CTS1    Bidirectional GPI/O, Keyboard In, or RS232*/UART1_CTS 12 GPIO10_KBI7_RTS1   Bidirectional GPI/O, Keyboard In, or RS232*/UART1_RTS 13 GPIO11_AD7    Bidirectional  GPI/O, or Analog In 14 GPIO12_AD6    Bidirectional  GPI/O, or Analog In 15 GPIO13_AD5    Bidirectional  GPI/O, or Analog In 16 GPIO14_AD4    Bidirectional  GPI/O, or Analog In 17 GPIO15_AD3    Bidirectional  GPI/O, or Analog In 18 GPIO16_AD2     Bidirectional  GPI/O, or Analog In 19 GPIO17_AD1     Bidirectional  GPI/O, or Analog In 20 GPIO18_AD0     Bidirectional  GPI/O, or Analog In 21 VCC    -  Power Supply 22 PTG0/BKDG   Bidirectional Background Debug Communications 23 RESET*   Input  Module Reset, Active Low 24 GND    -  Power Supply   * RS232 levels only if MAX3232 chip installed.
 1.3 Electrical Characteristics  Symbol  Parameter    Condition    Min  Typ  Max  Units         Note ___________________________________________________________________________________ Vcc   Supply Voltage  With RS232   3.0 3.3 3.4 V      Option         Without RS232 2.7 3.0 3.4 V      Option Top  Operating Temp    -40  85 Deg C Vih    Input Hi Voltage  Vcc = 3.3V    2.31      V Vil    Input Low Voltage  Vcc = 3.3V        1.15  V Vol    Output Low Voltage  Vcc = 3.3V        0.5  V      (Iol = 2mA) Voh    Output High Voltage  Vcc = 3.3V    Vcc – 0.5    V      (Ioh = -2mA) ILin   In Leakage Current Vcc or Vss, all Pins      1  uA  TX-Icc   Transmit Current  Vcc = 3.3V      110    mA            1.      MCU Wait Mode RX-Icc   Receive Current  Vcc = 3.3V      50    mA             2.      MCU Wait Mode SHDN-Icc  Shutdown Current   Doze Mode      75    uA      3  Notes: 1. This is for the maximum transmit power configuration. 2. This is the maximum receiver sensitivity configuration. 3. Based upon a 3 second wakeup cycle.    ADD Analog electrical specs  *****************************
 1.4 User Options   There are several options for the SNAP Module offerings to allow different capabilities for the user.  Here is a partial list of these options.  Option   Description  Embedded F-Antenna  With the version of the module with embedded F-antenna,      antenna is fully integrated into the module.  External Antenna    With the version of the module with RPSMA          connector populated, an external antenna can be attached.  Increased RF Range  With the population of an external power amplifier on the      transmitter, outdoor line of sight range can be increased from 300     meters to 3000 meters.
  1.5 Mechanical Drawings    These drawings in Figure 1-1 show both the version of the module with integrated F antenna and the version of the module with the SMA connector for use with an external antenna.  Figure 1-1.  Mechanical drawings of the RF Engine Modules.
1.6 Board Mounting Considerations  The RF Engine modules are designed to mount into a receptacle (socket) on the host board.  Picture 1-1 shows the receptacle area of a host board and Picture 1-2 shows a RF Engine module plugged in.  Suggested receptacles to be used on the host are:  (1) Suggested thru-hole receptacle is:  Samtec   MMS-112-01-T-SV   (2) Suggested surface mount receptacle is:  Samtec   MMS-112-02-T-SV      When the module with SMA connector is used, it is recommended that the mounting holes provided in the module on either side of the SMA connector be used with supporting mounting hardware to hard mount the module to either the host board or to the enclosure to handle the mechanical stresses that can occur when an external antenna is screwed into the SMA.  For the module with integrated F-antenna, in order to maximize RF range in the direction behind the module, it is recommended that no components and no metal (either traces or VCC and GND planes)  be on any layers of the host board that lies underneath the module in the area designated by the “Keep Out Area” shown in the mechanical drawings of Figure 1-1.    Picture 1-1.  ADD Picture ****************  Picture 1-2.   ADD Picture  ****************
 2.0 Agency Certifications  2.1 United States (FCC)   The RF Engine nodules comply with Part 15 of the FCC rules and regulations.  Compliance with the labeling requirements, FCC notices and antenna usage guidelines is required.  In order to comply with FCC Certification requirements, the Original Equipment Manufacturer (OEM) must fulfill the following requirements.  1. The system integrator must place an exterior label on the outside of the final product housing the RF Engine Modules.  Figure 1 below shows the contents that must be included in this label. 2. RF Engine Modules may only be used with antennas that have been tested and approved for use with the module.  Please refer to the antenna tables provided in this section.  2.1.1 OEM Labeling Requirements  WARNING:  The OEM must make sure that FCC labeling requirements are met.  This includes a clearly visible exterior label on the outside of the final product housing that displays the contents shown in Figure 2-1 below.  Figure 2-1.  FCC Label           * The FCC ID for the RF Engine without external amplifier is “U9O-RFE”.  The FCC ID for the RF Engine with external amplifier is “U9O-RFET” MANUFACTURERS NAME BRAND NAME or TRADE NAME  Contains RF Engine FCC ID:  U9O-RFE*  This device complies with Part 15 of the FCC Rules.  Operation is subject to the following two conditions:  (1) This device may not cause harmful interferences, and (2) this device must accept any interference received, including interference that may cause undesired operation.
2.1.2 FCC Notices  WARNING:  The RF Engine modules have been tested by the FCC for use with other products without further certification (as per FCC Section 2.1091).  Changes or modifications to this device not expressly approved by Synapse  could void the user’s authority to operate the equipment.  NOTICE:  OEM’s must certify final end product to comply with unintentional radiators (FCC Section 15.107 and 15.109) before declaring compliance of their final product to Part 15 of the FCC Rules.  NOTICE:  The RF Engine modules have been certified for remote and base radio applications.  If the module will be used for portable applications, the device must undergo SAR testing.  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, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, 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 or more 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 help.
 2.1.3  FCC Approved Antennas  The RF Engine modules are FCC-approved for fixed base station and mobile applications on channels 11 thru 26 of the ISM 2.4GHz frequency band as defined in I.E.E.E 802.15.4 specifications.  The FCC requirement for mobile applications states that the antenna must be mounted at least 20 cm (8 in) from nearby persons.    Notice:  To reduce potential radio interference to other users, the antenna type and its gain should be chosen so that the equivalent isotropically radiated power (e.i.r.p) is not more than that permitted for successful communication.  This module has been designed to operate with the antennas listed below in Table 2.1, and having a maximum gain of 5 dB.  Antennas not included in this list or having a gain greater than 5 dB are strictly prohibited for use with this device.   The required antenna impedance is 50 ohms.  Table 2.1.  Approved Antennas Part Number  Type   Gain  Application  Min. Separation AC12000  Dipole (quarter-wave RPSMA) 3.2dBi Fixed/Mobile  20 cm. AC12001  Dipole (half-wave RPSMA)  5.0dBi  Fixed/Mobile  20 cm. AC12002  Dipole (quarter-wave RPSMA) 4.9cBi Fixed/Mobile  20 cm. AC12003  Dipole (quarter-wave RPSMA) 2.0dBi Fixed/Mobile  20 cm.   RF Exposure  Warning:   This equipment complies with FCC radiation exposure limits set forth for an uncontrolled environment. This equipment should be installed and operated with minimum distance 20cm between the radiator and your body. This transmitter must not be co-located or operating in conjunction with any other antenna or transmitter.  Notice:  The preceding statement must be included as a CAUTION statement in OEM product manuals in order to alert users of FCC RF Exposure compliance.
2.2 Canada (IC)  This Class B digital apparatus meets all requirements of the Canadian Interference Causing Equipment Regulations.  Operation is subject to the following 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.  2.2.1 OEM Labeling Requirements  Labeling requirements for Industry Canada are similar to those of the FCC.  A clearly visible label on the outside of the final product housing must display the contents shown in Figure 2-2 below.  Figure 2-2.  IC Label       * The IC ID for the RF Engine without amp is “7084A-RFE”.  The IC ID for the RF Engine with amp is “7084A-RFET”  NOTE:  The OEM can choose to implement a single label combined for both FCC and IC labeling requirements.  If a combined single label is chosen, there must be a clearly visible label on the outside of the final product housing displaying the contents shown in Figure 2-3 below. MANUFACTURERS NAME BRAND NAME or TRADE NAME MODEL: Contains RF Engine IC:  7084A-RFE*
 Figure 2-3.  Combined FCC and IC Label           * The FCC ID for the RF Engine without amp is “U9O-RFE”.  The FCC ID for the RF Engine with amp is “U9O-RFET”.  The IC ID for the RF Engine without amp is “7084A-RFE”.  The IC ID for the RF Engine with amp  is “7084A-RFET”  MANUFACTURERS NAME BRAND NAME or TRADE NAME  Contains RF Engine FCC ID:  U9O-RFE* Contains RFEngine IC:  7084A-RFE*  This device complies with Part 15 of the FCC Rules.  Operation is subject to the following two conditions:  (1) This device may not cause harmful interferences, and (2) this device must accept any interference received, including interference that may cause undesired operation.

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