Allflex USA 930021 Low Power RFID Tag Reader User Manual

Allflex SA/Boulder Low Power RFID Tag Reader Users Manual

Users Manual

          Allflex ISO Compatible RFID Stick Reader With Integral Battery Pack and LCD Readout Model Series RS320 User Manual (Revision A2/ September 2003/Software V2.08+)  Preparing for Use  Unpacking The Allflex RS320 Stick Reader is shipped in a box with this instruction guide, one 9.6 VDC NiMH rechargeable battery pack, AC Adapter/Charger, Power/Data Cable and Configurator® software diskette.  Information contained in this guide pertains to installing  the  Battery  Pack,  connecting  and  using  the  Power/Data  Cable,  setting configuration options using  Configurator®,  and  operating  the  Reader.    In  order  to proceed, it is necessary first to charge fully the Battery Pack as described on page 2 of  this  guide,  and  to  have  an  assortment  of  ISO  transponders  (electronic identification eartags) available for performance and configuration verification.  Stick Reader User Interface Figure 1 below illustrates the Stick Reader’s features that comprise the user interface and that are pertinent to its operation.  Each feature and its corresponding functional description is described in Table 1.  Figure 1  -  Stick Reader Features and User Interface  1 Table 1  -  Stick Reader Features and Descriptions of Use Feature  Description of Use Antenna 1  Emits activation signal and receives transponder signal Red LED Indicator   Illuminates whenever antenna is emitting activation signal Green LED Indicator  Illuminates whenever a transponder has been read Audible Beeper 1  Beeps once on first transponder reading and twice for repeat Read Button  Applies power and activates exciter signal for reading transponder Data/Power Cable  Conveys power to Reader and serial data to and from Reader DB9 Connector w/ DC Power Jack  Connects serial data to PC or data logger RS232 port Accepts 6 to 12 VDC input as Reader power source Fiberglass Tube  Rugged, watertight enclosure Screw-on Endcap  Provides access to battery compartment Handle Grip  Rubber anti-slip gripping surface Cable Connector  Electrical interface for attaching Data/Power Cable 1 Item is internal to enclosure and cannot be seen  Power Source Requirements The RS320 Stick  Reader  contains  a rechargeable and  removable  9.6  VDC  NiMH Battery Pack, which serves as its primary power source.  Alternately, the RS320 can be powered from its external AC Adapter/Charger, or from any external DC power source rated between 9 VDC and 12 VDC with at least 1 ampere current capability.  Internal 9.6 VDC Battery Pack  -  Prior to operating the RS320 Stick Reader from its  integral  Battery  Pack,  the  Battery  Pack  must  be  charged.    This  can  be accomplished by either of two methods:  (1) install the Battery Pack into the Stick Reader, attach the Data/Power Cable, and connect the AC Adapter to the DC input jack located on the DB9 connector, or (2) install the Battery Pack into the Allflex Model AK320 Fast Charger.  Note 1  -  Battery Pack charging using the AC Adapter/Charger applies a slow-charge, which requires approximately 12 hours  to complete.  During  this slow-charge  cycle,  the  Stick  Reader  can  be  simultaneously  operated  from  the  AC Adapter.  The AK320 Fast Charger provides 2 hour charging of up to 3 Battery Packs, simultaneously.  Note 2  -  The RS320 Stick Reader is designed to operate only with the Battery Pack provided.  The RS320 will not operate with individual battery cells of either disposable or rechargeable variety.  AC  Adapter    -    The  RS320  Stick  Reader  can  be  powered  using  its  AC Adapter/Charger regardless of the charge state of the Battery Pack.  The AC Adapter can be used as a power source even if the Battery Pack has been removed from the Stick Reader.  If the AC Adapter has been connected, the user may  proceed with configuration and performance testing while the Battery Pack is charging.  Other  External  DC  Power  Sources    -    The  Stick  Reader  can  be  powered  from external DC power sources, such as 12 VDC vehicle batteries, or from the Allflex PW50/PW250 series Battery Pack units that are used with RS250 type Stick Readers.  External DC power sources can be connected through either the DB9 connector pins 2 i
           9 (+) and 5(-), or by using the 2.5mm coaxial jack located on the DB9  connector (center conductor negative).  Note 3  -  Certain weigh scales and other equipment to which the Stick Reader can be attached provide DC power on pin 9 of the DB9 interface connector.  Such DC power sources are acceptable as long as the voltage is between 9 and 12 volts DC, and are capable of providing at least 1.0 ampere continuous current.  Pin 5 of the DB9 connector is ground.  Note 4  -  When an external power source, such as the AC Adapter, is connected to the DC Power Jack, inserting the plug causes electrical continuity to pin 9 of the DB9 connector to be interrupted.  Polarity on the DC Power Jack is sleeve + and center pin -.  The DC power plug specification is a 2.5mm x 5.5mm DC Coaxial (9.5mm length).  See Figure 3 for the wiring details of this connector.  Note 5  -  The Stick Reader is protected against accidental reverse polarity voltage application and will not be damaged by such.    Note 6  -  The Stick Reader’s integral Battery Pack is affected by temperature.  At 0°C  (32°F),  the  Battery  Pack  will  deliver  only  about  half  of  its  rated  energy capacity.    At  lower  temperatures,  the  Battery  Pack  may  deliver  unsatisfactory performance.    When  the  RS320  Stick  Reader  is  used  in  low  temperature environments, connection to an external power source, such as the Allflex PW50 Battery Pack, and placement of this external Battery Pack close to the user’s body, is recommended.  Note 7  -  To ensure proper Battery Pack charging, charging should be conducted only in an environment where the temperature is between 15°C and 30°C  (60°F to  85°F).    Charging  at  temperatures  outside  these  boundaries  will  result  in unsatisfactory  charge  acceptance  by  the  Battery  Pack.    For  more  information about  the  characteristics  of  rechargeable  batteries,  please  see  the  white  paper  at [http://www.national.com/appinfo/power/files/f19.pdf#page=10].  Activating the RS320 Stick Reader  With the Battery Pack fully charged and installed, or with the AC Adapter connected by means of the Data/Power Cable, the Stick Reader is ready to be used.  To turn on the Stick  Reader, press the green  Read  button, holding  it down  until  the  red  and green indicators  light  and extinguish,  and  until  the  beeper stops  sounding  (this is about ¼ second duration).  Note 8  -  Very brief presses of the Read button will cause the indicators to light and the beeper to sound, but will not be sufficiently long to latch the Stick Reader into its power on state.  Be sure to hold the Read button down until the beeper stops sounding.     3 Upon power-up, the Stick Reader’s LCD readout will appear as shown below:  0000    READY TO                          READ  This  power-on  message  is  indicative  that  the  Stick  Reader’s  internal  ID  Code memory has been cleared, and that the  Stick  Reader is prepared to read new tags.   If the Reader has been previously used, and there are ID Codes stored in memory, the LCD readout will resemble the display shown below:  0012      HDX ISO:                       982 000006975374  In this display, the 4 digits on the left side of the top line indicate the tag counter, and the information on the right side of the top line displays the tag type.  On the bottom line appears the 3 digit ISO Country Code or Manufacturer Code, followed by the 12 digit decimal ISO National ID Code.  Display formats for other tags that can be read by the RS320 Stick Reader are shown below for ISO FDX-B and HDX Industrial coded tags.        0013    FDX-B ISO:  0014 HDX-I: 2048       982 009101723121      0000000000053925  Note 9  -   Configurator®  provides the  capability  to  select the  LCD  readout  ID code format to (a) decimal or hexadecimal,  (b) numeric or alpha country codes, and (c) suppression or inclusion of ID code leading zeroes.  Please see the section on the Configurator® program beginning on page 12 of this User Manual.  Note 10  -  Upon power-up, the LCD readout will always display the information from the last tag read, unless the internal ID Code memory has been cleared.  The RS320 Stick Reader does not have the capability to recall and display ID codes from tags read prior to the last tag.  For information about retrieving ID Codes from memory and clearing the memory, please see the section titled “Retrieving ID Codes Stored in Memory” which begins on page 15 of this User Manual.  Note 11  -  The RS320 Stick Reader is delivered with configuration options set in the “default” state (see “Default Configuration” on  pages  16-17.).  Among these default settings is the “Power On Read” option that determines the behavior of the Stick Reader when the Read button is pressed.  In the default “Don’t Read” state, the power-on behavior is as described above.  By changing this option setting to “Read”, the Stick Reader will begin scanning for a tag immediately upon power-up, and will not first enter the idle LCD readout states as illustrated above.  This option and other Stick Reader operational modes can be selected using the Configurator® program.  Note 12  -  Each ID Code is stored internally in the Stick Reader’s non-volatile memory until the user deliberately erases the stored ID codes after downloading them into a recording device, such as a PC database.  Up to 1638 ID codes can be stored and retrieved later at the user’s convenience. 4 iiiiiii!!!
          Note 13  -  The Tag Counter feature on the LCD readout can be reset to zero at any  time  by  double  clicking  the  Read  button,  and  observing  the  LCD’s enunciation “Reset  Counter?”.    Pressing  the  Read  button  again  once  while this enunciation is on the LCD will force the Tag Counter to reset to the value “0000”.  Resetting the Tag Counter does not alter the ID codes previously read and stored in the Stick Reader’s internal memory.  Note 14  -  The Stick Reader provides a Null Memory Marker Code option that inserts  an  all  zeroes  code  number  (Manufacturer  Code  and  National  ID  Code) whenever  the  Tag  Counter  is  reset.    This  feature  is  easily  enabled  using  the Configurator® program’s “Memory Marker” option.  Note 15  -  The Stick Reader can be optioned to process duplicate tag numbers in either of two ways.  In the default mode, any tag can be read, counted, and stored multiple  times  whenever  any  other  tag(s)  is  read  interventionally.    The  Stick Reader can also be optioned to check  for  duplicate  tags  within the  most recent number of tags as indicated by the Tag Counter, up to a maximum of 75 tags.  In this selected mode, a tag will always be read and displayed, but will be counted and stored only if it has not been read within the last “n” tags where “n” is the Tag Counter indication, and “n” is or less than or equal to 75.  When a tag is read more than once in this mode, the ID code  is  displayed,  and  the  audible  beeper  provides  a  double  beep  indication,  but it  is  not counted  again  or stored  again in memory,  unless at  least  75 other tags  have been read and stored in  the  interim.    See  “Counter  Duplicate”  in  Stick  Reader  Configuration  Options  on pages 11-14.  Reading Transponder Tags  The Stick Reader is always ready to read a transponder tag either immediately after power has been activated (as is indicated by the presence of information on the LCD readout), or from its off state (if the Power On Read option has been set to “Read” – see Note 11).  Initiating a tag reading event requires only a press of the Read button.  When the Read button is pressed and released, the tag activation signal is present for a  3  second  interval.    Alternately,  the  Read  button  can  be  held  down,  and  the activation signal will remain on until the Read button is released, or until a  tag is read.  The tag activation state is  indicated by the red LED indicator illuminating.  When a tag is successfully  read, the tag’s  ID  code  information  will appear  on  the LCD readout,  and for non-duplicate  tag readings,  the Tag Counter indication  will increment,  and  the  ID  code  is  automatically  stored  in the  Stick  Reader’s  internal memory.    In addition, the  Stick Reader’s  green  LED  indicator  will  flash,  and  the audible beeper will sound.  A single flash/beep indication occurs the first time a tag is  read,  and  a  double  flash/beep  indication  occurs  when  a  duplicate  tag  reading occurs.  (See Note 15 above for the option and definition of a duplicate tag read.)  Note 16  -  The 3 second tag activation on signal interval can be configured for times  ranging  between  1  second  and  9  seconds,  in  1  second  increments,  using Configurator®.  The default time interval is 3 seconds.  See Configurator® option “Read Time”  5   Note 17  -  The Stick Reader can be configured to transmit tag data upon any one of three possible conditions:  (1) Send Repeats (the default setting); (2) Do not send  Repeats; and (3) Send  Repeats  upon Re-Read.  See  Configurator®  option “Send Duplicates”.  The LCD Readout  When the Read button is pressed, and the Stick Reader is activated to scan a tag, the Red LED indicator flashes, and the LCD produces the indication as shown below:     ( (   ID TAG    ) )       ( (   READING  ) )  At the end of the tag scanning interval (which is the shorter of 3 seconds or until a tag is successfully read), the LCD readout either displays the ID code information from the tag, or provides an indication that no tag was detected.  These two displays appear as follows:            0009     NO ID TAG          0010      HDX ISO:                 DETECTED!         982 000003705995  In the event that no tag was detected, the above display indication lasts for about 3 seconds, and then the display reverts to display the tag ID code information from the previously read ID tag.  The  LCD  readout  contains  a  backlight  that  illuminates  the  display  and  makes  it easier  to  read  tags  in  dimly  lit  environments.    This  backlight  illuminates  for  an interval of approximately 5 seconds upon initial powering of the Stick Reader, and upon the successful reading of a tag.  This illumination time is purposefully limited in order to conserve battery life.  As described in Note 13, the Tag Counter function can be reset to zero at any time by double clicking the Read button while the Stick Reader is powered on and in its idle mode.  Upon double clicking the Read button, the LCD will produce the following display indication:       RESET COUNTER?        > PRESS BUTTON  Pressing the Read Button again while this display indication is present will cause the Tag  Counter  to  be  reset  to  zero.    If  the  Read  button  is  not  pressed  during  this approximate 3 second period, the LCD display will revert to the previously read tag indication, and the Tag Counter will remain at its previous count total.  Resetting the Tag Counter does not alter the contents of the ID Code Memory.  6 iiiii
          Read Range Performance  Figure  2  illustrates  the  read  zone  of  the  Stick  Reader,  within  which  tags  can  be successfully detected and read.  Optimum read distance occurs when the tag antenna is aligned with the Stick Reader’s antenna as shown.  When  the tag is at the end of the Stick Reader, optimum read distance coincides with a coaxial orientation of the antennas, and when the tag is adjacent to the Stick Reader, optimum read distance coincides with a planar orientation of the antennas.  Figure 2  -  Optimum Read Distance Tag Orientation                  Table 2 lists typical read distances that can be expected when reading different types of Allflex eartags, in the optimum tag orientation at the end of the Stick Reader (as shown in Figure 2).  Table 2  -  Typical Read Distances for Various Allflex Eartags  Tag Type  9.6 VDC (84 dBuV/m @10m) HDX/HP Eartag  35 cm HDX/LW Eartag  28 cm FDX-B/HP Eartag  22 cm FDX-B/LW Eartag  20 cm  Factors Affecting Read Range Performance Tag  readers  are  frequently  assessed  with  respect  to  performance  by  their reading distance.  The read distance performance of the Stick Reader will be affected by the following:  Transponder Orientation  -  For maximum reading distance, the axes of the transponder and reader antenna coils must be optimally oriented (see Figure 2). 7 Transponder Quality  -  Each manufacturer’s transponder differs in (a) the amount of exciter signal energy necessary to sufficiently operate the transponder’s internal circuitry, and (b) the signal level  of the ID  Code  information that is returned to  the reader.    Consequently,  it is normal  for  transponders  of  a  common  type  (FDX-B,  for  example)  made  by  different manufacturers to exhibit different read range performance characteristics.  Transponder  Motion    -    Most  portable  readers  have  small  antenna  geometries,  and consequently produce small effective “read zones”.   Portable  readers  are generally  designed for reading transponders under quasi-static conditions.  Transponders that are moving quickly past the reader may not be present within the reader’s read zone sufficiently long for all the ID Code information to be obtained.  Transponder  Size    -  Physically  larger transponders  generally  contain  larger receiving  coils which produce longer reading distances than smaller transponders.  Transponder Type  -  HDX transponders generally exhibit greater reading distances than FDX-B transponders of comparable size.  Proximal  Metallic  Objects    -    Metal  objects  located  near  the  transponder  or  Reader  can attenuate and distort the electromagnetic fields generated in RFID systems, and thus diminish read distance performance.  Electrical Noise Interference  -  RFID transponders and readers use electromagnetic signals as a premise of  operation.  Other electromagnetic phenomena – radiated electrical  noise  from computer displays, for example – can interfere with the transmission and reception of RFID signals, and consequently reduce reading distance.  Transponder/Reader  Interference   -    Multiple transponders  within  the  sensing  range  of  the reader,  or other  readers emitting  excitation energy  in  the immediate  vicinity  can  adversely affect the reading performance or prevent operation of the Stick Reader.  Depleted  Battery  Pack  Charge    -    As  the  Battery  Pack  discharges,  less  energy  becomes available to generate the activation field, and this reduced field will result in a decreased read range.  ID Code Memory  The Stick Reader contains an internal non-volatile memory capable of storing 1638 ID codes.   ID codes are stored automatically upon being read.  A transponder ID code will not be stored multiple times if read multiple times successively, but can be stored in memory multiple times if other tags are read interventionally.  All ID codes are retained when power to the Stick Reader is shut off.  If more than 1638 ID codes are read, the new  ID codes are  written over the oldest ID codes in a wrap-around manner.  ID Codes can be retrieved from the Stick Reader via its RS232 serial port by issuing to the Reader the G command (see Table 4 on page 14).  The G command can be issued  as  many  times  as  desired,  and  the  complete  memory  contents  will  be transferred upon  each  event.    ID  codes  are not  erased  from  the  memory  until the C{Enter} command is received.  8 EartagImplantStick Reader AntennaRead Zone
          Each  ID  code  is  followed  by  a  {CR}{LF}  (carriage  return/line  feed)  which  will cause each ID code to appear on a separate line of a PC display.  Note 18  -  The Stick Reader contains a Configurator® option that automatically inserts a null identification code in  memory  whenever the Tag Counter is reset (see Notes 13, 14, and 15).  The combined functions of Tag Counter and Memory Marker provides a means of establishing partitions in memory between blocks of ID codes that represent separate groups of identified animals, thus facilitating the management  of  ID  code  data  once  downloaded  to  a  PC  database.   To  set  this  partitioning marker, select the “Generate” setting in the Configurator® Memory Marker option.   Using the Stick Reader’s Serial Data Interface  Serial Data Interface Requirements The  RS232  serial  data  interface  is  available  on  the  RS320  by  connecting  the detachable Data/Power Cable to the Cable Connector located on the Endcap.  The Stick Reader’s  Cable  Connector  is  covered  with  a  protective  cap  to  guard  against foreign material contamination.  Remove this cap and install the Data/Power Cable by engaging the connector and rotating the lock-ring.  The RS232 serial interface comprises a 3-wire arrangement with a DB9F connector, and consists of transmit (TxD/pin 2), receive (RxD/pin 3), and ground (GND/pin 5).  Figure 3 illustrates the power and data wiring of the Power Jack and Data Connector.  This interface is factory configured with the default settings of 9600 bits/second, no parity, 8 bits/word, and 1 stop bit (“9600N81”).  These parameters can be changed by using the options included in the Configurator® program.  Note 19  -  The RS320 Stick Reader is provided with the connectorized endcap and detachable Data/Power cable in its standard configuration.  Also available is the  optional  AY300  Rugged  Environment  Endcap  Kit,  which  includes  a  Blank Endcap with no connector (for mobilized Stick Reader use) and a Cable Endcap with  a  permanent  and  strain  relieved  cable  attached (for  tethered  Stick  Reader use).   This Cable  Endcap  can  be  used  to  connect  the  Stick  Reader  in  an  equivalent  manner  as  the detachable cable.  Note  20    -    The  Stick  Reader  RS232  interface  is  wired  as  a  DCE  (data communications equipment) type that connects directly to the serial port of a PC or any  other device that is designated as a DTE (data terminal equipment) type.  When the Stick Reader is connected to other equipment that is wired as DCE also (such as a Palm Pilot or Pocket PC), a “null modem” adapter is required in order to properly cross-wire transmit and receive signals so that communications can occur.  Note 21  -  The Stick Reader’s  serial  data  connection  can  be extended  using  a standard DB9M to DB9F cable. Extensions longer than 20 meters (~65 feet) are not recommended for data, and extensions longer that 2 meters (~6 feet) are not recommended  for  data  and  power.    The  Allflex  AY005  and  AY006  Extension Cables provide suitable 10 and 20 meter extensions for data.    9 Figure 3  -   Stick Reader Power Jack and Data Connector Wiring Diagram  Serial  output  data  appears  on  the  Stick  Reader’s  TxD/pin  2  connection  in  ASCII format,  which  is  compatible  with  most  PC  terminal  emulator  programs,  such  as Hyperterminal®.    Configurator®  provides  options  for  flexible  parsing  and formatting  of  transponder  ID  code  information  (see  “Configuration  Options”  on pages 11-14 of this guide).  The default formats for ISO transponder tag types are listed in Table 3.  Table 3  - Default Serial Data ID Code Formats Tag Type  Default Format HDX ISO  LA_982_000001088420{CR}{LF} HDX Industrial  LR_0006_0000000018514243{CR}{LF} FDX-B ISO  LA_982_000000255895{CR}{LF} Note:  _ = space; {CR} = carriage return; {LF} = line feed  Interpreting Tag ID Code Information  Table 3 lists the default data formats that are transmitted from the Stick Reader’s serial communications port, in response  to reading compatible type tags.  For ISO type tags, there is no contextual differentiation between HDX and FDX-B outputs.  Both types of tags produce a default format:  LA_982_000001088420{CR}{LF}  where the underscore “_” represents a space character, and {CR}{LF} is a carriage return /line feed (unprinted control characters which cause a PC’s display cursor to jump to the beginning of the next line prior to displaying the next ID number).  In the above data output, the prefix “LA” represents “line mode – animal coded read only tag”, “982” is the Allflex manufacturer number assigned by ICAR, and the last 12 digits comprise a unique number sequence for the particular tag being read. 10 iiiiTo StickReader+ PwrTxDRxDGnd2953231Gnd#20AWG#26AWG1AuxDB9(F)2.5mmCoaxial Jack
          The TIRIS S2000 output format has become a de facto standard for many users, and appends the reserved field and data block bits contained in the ISO coded eartag to the Stick Reader’s default format, causing the ID code information to appear in the format:  LA_00000_0_982_000001088420{CR}{LF}  This output is easily configured using either the Configurator® utility, or by issuing the Command “BE40239” to  the Stick Reader  (See  Serial Command  Language on page 14).  Note  22    -    The  manufacturer  code  “982”  will  be  different  for  another manufacturer’s tag,  and  can  also  be replaced  by  an  ISO  country  code  (“250”  = France,  for  example).    When  other  manufacturer  codes  or  country  codes  exist, there can exist the same 12 digit ID number.  Note 23  -  While HDX and FDX-B type transponders have an identical context, they are guaranteed by Allflex to be unique.  That is, HDX tag type ID numbers are  never  duplicated  in  FDX-B  type  tags,  despite  their  sharing  the  same manufacturer ID code (“982”) or the same country code.   For HDX Industrial coded tags, the output format is:  LR_0006_0000000018514348{CR}{LF}  In this tag format, the prefix “LR” represents “line mode – industrial coded read only tag”, “0006” is an application code unique to Allflex, and the last 16 digits comprise a unique identifying number sequence.  The  above  default  formats  can  be  changed  using  the  features  described  in  the following section “Stick Reader Configuration Options”.    Stick Reader Configuration Options  Basic Operating Procedure The Stick Reader is configured at the factory with default configuration settings that make  it  immediately  functional  upon  application  of  power.    These  settings  are selected for compatibility with most users’ applications, and should be changed only once a thorough understanding of options and the effect of each is understood by the user.    The  Configurator®  screen  illustrated  in  Figure  4  is  shown  with  all  options listed in their default states, and Table 5 on page 17 describes the behavior of the RS320 Stick Reader with these default settings in effect.   11 Using Configurator® to Select Stick Reader Options  Configurator®  is  an  easy  to  install  and use  PC-based  utility  that provides  users  a convenient  means  of  customizing  the  Stick  Reader’s  behavior  and  ID  code formatting.    Configurator®  is  provided  on  a  3.5”  diskette  with  the  RS320  Stick Reader  in  self-extracting  and  installing  format.    To  install  Configurator®,  simply install  the  diskette  into  the  PC’s  floppy  drive,  and  run  the  executable  file “install.exe”.    Follow  the  directions  as  they  appear  on  the  screen to complete  the installation process, and then launch Configurator® by  clicking on the Allflex icon which appears on the PC’s desktop screen.  Configurator  is  a  single  window  program  with  numerous  drop-down  menus  that contain  the  available  selections  for  each  option.    Configurator®  contains  an extensive Help facility that is thoroughly instructive about its use, and so information provided  in  this  User  Manual  is  only  cursory.    Figure  4  is  an  illustration  of  the Configurator® screen.  The main toolbar at the top of the Configurator® window provides the familiar MS-Windows® style drop-down menus, which are also presented in alternative icon and menu form on the two lines immediately beneath.  These toolbar functions provide the ability to define and  save custom configurations that can be later recalled and used to reconfigure Stick Readers for specific applications.    To change the configuration of an RS320 Stick Reader, connect it to the PC’s COM1 serial port that is running Configurator®, power-on the Stick Reader by pressing its Read button, and click on “Get Settings” on the  second toolbar  line to retrieve  the Stick  Reader’s  current  configuration.    If  the  Stick  Reader  and  PC  establish communications, the Stick Reader’s configuration settings will appear in the several drop-down menu boxes.  Also, at the very bottom of the Configurator® window, the Hardware,  Software,  and  communications  Protocol  version  information  retrieved from the Stick Reader will appear.  Note 24  -  If communications are not automatically established, check the PC’s COM port to which the Stick Reader has been connected, and ensure this COM port  is  the  one  that  appears  in  the  drop-down  menu  in  the  third  toolbar  line “Configurator  Communication”.    Normally,  this  will  be  COM1,  but  may  be another COM port depending on the user’s PC configuration.  Note  25    -    Once  the  Stick  Reader  is  powered  on,  Configurator®  will automatically keep the Stick Reader’s power on.  If the user is planning to work for an extended period of time with Configurator® and the RS320 Stick Reader, use of the AC Adapter is recommended in order to conserve battery life.  Note 26  -  At the top of the ID Code Format option group is a line of characters that appear as “LT EEEE IIIIIIIIIIII”.  This is a dynamic literal representation of the selected format.  As format options are changed, these will be reflected in the appearance of this line.  Once all format options have been selected, the user can read  a  test  tag,  and  confirm  that  the  desired  format  appears  in  the  lower  box labeled “Tag Read”, where the ID Code number appears in Figure 4. 12 iiiii
          Figure 4  -  Configurator® Window   The Configurator® options are categorized in four areas:  (1) Operational Settings, (2) Display Settings, (3) ID Code Format, and (4) Communications Settings.  When the  user  moves  the  PC’s  cursor  over  the  name  of  the  option  (such  as  “Memory Marker”),  a  cursor  information  bubble  momentarily  appears  and  provides  a  brief information caption.  More detailed information about every option and the effect of the available selections can be obtained in the Configurator® Help facility.  Operational Settings are used to select the Stick Reader’s behavioral traits,  such as the Reader’s  exciter on interval (Read  Time) and its power  on  interval (Time On).  Display Settings determine how the ID code information is exhibited on the  Stick Reader’s LCD readout.  Communications Settings set the data rate and format of the data  sent to  and from the  Stick  Reader’s  RS232  serial  port,  and  ID  Code  Format establishes the appearance of the data sent on the serial port. 13 Near the bottom of the screen is a box labeled “Tag Read”, and this box displays the ID code information that is sent from the Stick Reader when a tag is read.  This box is useful in confirming the format and appearance of the serial data after setting the options contained in the ID Code Format box.  After making changes to ID Code Format options, the user can read sample tags and see if the resulting data format is that which is desired.  This facility also provides a convenient means of observing the effect of the available options on the appearance of the serial port data.   Serial Command Language  Although Configurator® provides the most convenient means of establishing options for the Stick Reader, all options can also be set using a set of literal alphanumeric commands, which are sent to the Stick Reader over its serial communications port.  In  particular,  commands  which  download  the  Stick  Reader’s  internally  stored  ID codes and which clear the internal memory are useful to users who intend to transfer ID codes to PC database programs.  Table 4 lists these literal commands to which the Stick Reader responds by altering its  setup  configuration  or  providing  informational  responses.    For  a  complete description of all commands and configuration option variables, please refer to the Allflex Stick Reader Serial Command Language Manual.   Table 4  -  Frequently Used Command Language Characters Command  Application P  Reader’s current settings are sent in command language format Bnnnnnn  Configures ID code serial data format Snn  Sets serial data communications parameters Inn  Sets miscellaneous options r  Resends the last tag read R  Initiates reading (Stick Reader must already be on) G  Retrieves all ID codes stored in memory M  Sets ID code memory options C{Enter}  Clears ID memory ? or H  Retrieves list of valid Command Language characters Note:  Commands followed with “n” (hexadecimal characters) require the user to press the PC’s {Enter} key after typing in all command characters.  Single letter commands do not require {Enter} to be pressed, except as noted in Table 4.        14
          Retrieving ID Codes Stored in the Stick Reader’s Memory  The RS320 Stick Reader has internal memory capacity that will store up to 1638 ID codes.  Retrieving these ID codes can be accomplished using the Serial Command Language “G” command.  The format in which the ID codes appear are determined by the user’s configuration settings, as is described in Stick Reader Configuration Options on pages 10-13.  The default format is of the form  LA 982 1234567890{CR}{LF}, where there is a single space  character that occurs between the “LA”  and  “982”,  and  between “982”  and “1234567890”.  The {CR}{LF} designates the non-printable carriage return and line feed control characters, which forces each ID code to appear on a separate line.  An  easy  way  to  transfer  the  ID  code  memory  stored  tag  numbers  into  an  MS-Windows®  applications,  such  as  Excel,  is  to  download  the  tag  numbers  into  the Hyperterminal® program first.   To accomplish this,  set  up  a  direct connection in Hyperterminal® using the COM1 port set to 9600 bits/second, 8 bits/word, no parity, 1 stop bit, and no flow control (9600N81nf).  With communications established with the RS320 Stick Reader, first send the command language character P (upper case), and observe the Stick Reader’s response.  The number shown on the second to last line,  in  the  form  *L-nnnn  indicates  the  number  of  ID  codes  stored  in  the  Stick Reader.  Then send the G command, and the ID codes will be received from the Stick Reader, appearing one per line on the Hyperterminal® screen.  When all ID codes have been received, used the Edit/Select All and Edit/Copy commands to copy all the ID codes to the MS-Windows®  Clipboard.    Then  open MS-Windows Notepad,  and use the Edit/Paste  command  to  copy  the  ID  code  list,  and  save  the  file  in  a  convenient directory using a specified file name.  Excel  can  be  opened,  and  using  the  Data/Get  External  Data/Import  Text  File command, select the file just created with the ID codes, and click on Import.  Excel then opens a Text Import Wizard window that allows the user to specify how the tag numbers will be imported into a spreadsheet.  For example, the entire sequence LA 982 1234567890 can be imported into a single cell, or parts of the tag number can be discarded  or  split  into  separate  cells.    Upon  completing  the  Text  Import  Wizard steps, all the ID codes will be entered in the Excel, and the spreadsheet can be saved and modified as necessary.  Once all tag number data has been transferred into its destination application, and the number of entries has been checked against the number *L-nnnn to ensure complete transfer, the temporary Notepad file can be deleted.  Then, return to Hyperterminal® and send the C{Enter} command to the Stick Reader in order to erase its internal ID code memory.    15 Note 27  -  If problems are encountered with Hyperterminal® or Notepad, the G command  can  be  sent  as  many  times  as  necessary  to  download  the  ID  code memory.    If  data  is  imported  into  Excel  in  a  format  other  than  that  which  is desired it can be re-imported from Notepad using the Text Import Wizard again.  Note 28  -   If an alternate ID  code format is desired, even though tag numbers have  already  been  read  and  stored,  it  is  still  possible  to  use  Configurator®  to change the format, and download the ID codes into Hyperterminal in this changed form.  Note 29  -  Caution!  Once the C{Enter} command is sent, the ID code memory contents are forever lost.  Be certain the ID codes have been entirely obtained in their desired format prior to erasing them.   Default Configuration  The Configurator® window shown in Figure 4 lists the default configuration settings of the RS320 Stick Reader as it is shipped.  Table 5 provides a brief explanation of these option settings.  The  default  configuration  can  also  be  assessed  using  the  serial  port  interface connected to a PC  running a  terminal  emulator program, such  as MS-Windows® Hyperterminal®.  In response to an upper case P command, the RS320 Stick Reader will respond with the following sequence:  *Allflex Stick Reader *HW V2.00 *SW V2.05 *PR V2.31 *B-822239 *S-0C *I-0000 *Y-20 *M-00 *O-1E *N-05 *A-3 *L-0000 *F-1638  The first four lines of this response identify the device as the Allflex Stick Reader, and  the  version  of  hardware,  software,  and  communications  protocol  used  by  the Reader.    The  next  eight  lines  provide  literal  configuration  codes  that  are  further described in the Allflex Serial Command Language document.  The  last two lines indicate the number of ID codes currently stored in the Stick Reader’s memory (L), and the number of ID code storage locations that remain available (F).  As shipped from  the  factory,  the  memory  has  been  cleared  such  that  there  are  no  ID  codes stored, and there are 1638 ID code storage locations available. 16 ii!
          Table 5  -  Default Configuration Options Option  Default Configuration Behavior Operational Settings    Beep Mode  Reader beeps twice on duplicate reading    Power-On Read  Reader powers up in idle condition    Wireless Sync  Reader does not synchronize to other active readers    Read Time  Momentary Read button press activates reader for 3 sec.    Duplicate Reads  Reader sends tag data on serial port every time it is read    Memory Marker  Memory marker is not inserted upon reset of tag counter    Counter Duplicate  Duplicates not checked for within Tag Counter contents    Time On  Reader shuts off after 30 seconds of idle Display Settings      LCD Format  LCD ID code display format is decimal    Country Code  Country is displayed as 3 letter alpha per ISO 3166    Leading Zeroes  Zeroes preceding ID code significant digits are present ID Code Format      ID Code Format  Reader transmits ID code in a formatted style    Number Format  ID Code is presented in decimal format    Initial Character  First character transmitted is “L”    Tag Type ID  Tag type identification scheme is TIRIS compatible    Reserved Field  ISO 11784 Reserved Field is not transmitted    Data Block Flag  ISO 11784 Data Block Flag is not transmitted    Extended Code  Country/Manufacturer or Application code is transmitted    Country Code  Country Codes are transmitted in ISO 3166 alpha format    Field Delimiter  ID code fields are separated with a space character    Leading Zeroes  Zeroes preceding ID code significant digits are transmitted    Command Prompt  ID code transmission is not terminated with “>” Communications Settings    Bit Rate  9600 bits per second transmit and receive    Data Bits / Parity  8 data bits per character / no parity bit    Flow Control  No flow control to start and stop communications    RS320 Stick Reader Software Upgrades  The RS320 Stick Reader has the ability to accept software upgrades whenever these are made available for the purpose of improving performance and adding features and functions.  Software upgrades are installed from a PC using the Stick Reader’s serial communications.  Typically, an upgrade file is provided to the user either by way of Internet download, or in diskette format.  Once the upgrade file is stored on the user’s  PC,  all  that  is  required  is  double-clicking on the file, and following the instructions provided on the PC’s screen.  17 Optional RS320 Stick Reader Accessories  Model No.  Item Description AY300  Ruggedized Cable Kit (Cable Endcap and Blank Endcap) AC300  Replacement Connectorized Endcap PW320  Replacement/Spare Rechargeable Battery Pack (9.6 VDC NiMH) AK320  Battery Pack Fast Charger AY005  Data/Power Extension Cable - 10 meter AY006  Data/Power Extension Cable - 20 meter AY007  Coaxial Power Pigtail PW410  12VDC Cigarette Lighter Adapter/Charger AY008  1 Meter Coiled Data/Power Cable AY009  3 Meter Straight Data/Power Cable   433 MHz Wireless RF Communications Module RFL200  433 MHz Wireless RF Communications PC Base Station   Bluetooth® RF Communications Module   Bluetooth® RF Communications PC Adapter   IrDA® Communications Module   IrDA® Communications PC Adapter PW50  External Battery Pack (NiCd) PW250  External Battery Pack (NiMH) RFL100  External Battery Pack w/433 MHz RF   Stick Reader Physical Integrity  The Stick Reader has been  constructed  from rugged  and durable  materials to provide long periods of service in harsh environments.  It is water proof, and can withstand immersion in water in use and for cleaning.  The Stick Reader contains electronic components, however, that  can  be  damaged  if  subjected  to  extreme  intentional  abuse,  and  such  damage  can deteriorate or terminate the Reader’s functioning.  The user should refrain from intentionally striking other surfaces and objects with the Stick Reader.  Damage resulting from such is not covered by the Limited Product Warranty described below.   Limited Product Warranty  Allflex  warrants  this  product  against  any  defects  that  are  due  to  faulty  material  or workmanship for a period of one year after date of purchase.  This warranty does not apply to any damage to the product resulting from accident, misuse, modification, or application other than that for which it is intended and that is described within this User Manual.  If  the  product  should  become  defective  within  the  warranty  period,  Allflex  will  repair  or replace it at no charge.  Allflex will return the product, shipping paid, provided it is shipped at customer cost to Allflex.  To obtain a return material authorization (RMA) code, please call Allflex at 303/449-4509, or contact your Allflex sales representative.  18
          SPECIFICATIONS  GENERAL   RFID Compatibility:  ISO 11784 & 11785 HDX and FDX-B Form Factor:  Portable Handheld Fiberglass Tube Enclosure w/Rubber Handle Grip User Interface:  Single “Press to Read” Activation Button Red LED “Exciter Active” Visual Indicator Audible Beeper and Green LED “Good Read” Visual Indicator 2x16 Character LCD Readout for tag number, tag type, and tag counter RS232 Serial Data Port Software upgradeable via RS232 serial port RS232 Serial Port:  1200 BPS to 57.6 KBPS (9600N81 default setting) Serial Data Format  Decimal or Hexadecimal Mfr/Country Code + National ID Code Memory:  Stores up to 1638 transponder codes in non-volatile memory for download User Options:  Non-volatile mode control options selectable via RS232 serial port interface Power/Data Interface:  1 meter coiled cable (extends to 3 meters) or 3 meter straight cable w/DB9(f) connector & 2.5mm x 5.5mm coaxial power jack Battery Power:  Internal/Removable 9.6 VDC Rechargeable NiMH Battery Pack AC Adapter:  12 VDC @ 1.1 A AC Adapter and Battery Pack trickle charger Agency Certifications: (PENDING)  Electromagnetic Compatibility - FCC Part 15 Class A, Industry Canada RSS-210, and CISPR 22 (EN55022), and EN50082-1 Product Safety - UL1950, IEC950 (CE Marked) ISPRA Certification   PHYSICAL/ENVIRONMENTAL Dimensions:  45cm L(RS320-45) or 60 cm L  x 32mm diameter Weight:  0.62 kg.  (22 ounces) Material:  UL94V0 Fiberglass and ABS UL94 HB Plastic Color:  Yellow / Black Operate Temperature  -10ºC to +55ºC  (IEC68.2.1/.2) Storage Temperature  -40ºC to +85ºC  (IEC68.2.1/.2) Humidity:  0 to 95% (IEC68.2.56) Altitude:  -100 to +3,000 meters Mechanical Shock:  Per IEC 68-2-27  (15g/11mS sawtooth) & 1 meter free-fall drop onto concrete) Vibration:  Per IEC 68-2-6  (10-55 Hz sinusoidal/0.75mm displ./1 oct/min./10 cycles) Hermeticity:  IP-67 (dust-tight/immersible) per IEC 529   RELIABILITY   MTBF:  50,000 hours MTTR:  0.5 hours (not field serviceable) Expected Life:  5 years, minimum   PERFORMANCE   Read Distance @ 9.6 VDC  35cm (minimum - Allflex 30mm HDX/HP eartag) 22cm (minimum – Allflex 31mm FDX-B eartag) Reading Orientation:  0º to 45º with less than 10% range decrease Read Zone:  360º in radial and axial planes with respect to end of reader enclosure Interrogation Rate:  ~ 9 times/second Read Error Rate:  Less than 1 in 106 Exciter Signal Field Strength:  84 dBuV/m @ 10 meters with 9.6VDC power input  19 Allflex Worldwide Sales Offices:  Allflex Europe  Allflex USA, Inc.  Allflex Australasia ZI. de Plagué  P.O. Box 612266  Private Bag 11003 Route des Eaux, B.P. 70  Dallas/Ft. Worth Airport  Palmerston North F-35502 Vitre Cedex, France  Texas  75261-2266  New Zealand Tel   33 (0)2.99.75.77.00  Tel   (972) 456-3686  Tel   64 (06) 356-7199 Fax   33 (0)2.99.75.77.29  Fax   (972) 456-3882  Fax   64 (06) 358-5982 http://www.allflex-boulder.com   FCC ID:   NQY-  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 interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.  This device has been tested and meets the Electromagnetic Compatibility (EMC) requirements of EN50082-1 and EN50022 for the CE Declaration of Conformity (DoC).  Caution This equipment has been designed, constructed, and tested for compliance with FCC Rules that regulate intentional and unintentional radiators.  The user is not permitted to make any modifications to this equipment or use it in any manner inconsistent with the methods described in this User Manual, without  express  approval  from  Allflex.    Doing  so  will  void  the  user’s  authority  to operate this equipment.  Other Agency Certification Notices  Industry Canada EMC Certification No.     Trademark Notices Hyperterminal® is a registered trademark of Hilgraeve, Inc. MS-Windows® is a registered trademark of Microsoft, Inc. Configurator® is a registered trademark of Allflex USA, Inc.         20 !

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