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HAMAR LASER R-1307 Operation Manual

Target readouts
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  • Page 2 WARRANTY Hamar Laser Instruments, Inc., warrants each instrument and other articles of equipment manufactured by it to be free from defects in materials and workmanship under normal use and service, its obligation under this warranty being limited to making good at its factory any instrument and other article of...

  • Page 3: Table Of Contents

    Pulse/Continuous Modes (L-705, L-706 and L-708 Lasers) ................... 12 Configuring the R-1307 Readouts ..........................13 Configuring the R-1307B-2.4ZB, R-1307C, R-1307-900/2.4 or R-1307-2.4ZB for a Cabled (Local) Target ..13 Configuring the R-1307-900/2.4, R-1307W-900/2.4, R-1307W-2.4ZB or R-1307-2.4ZB as a Master Readout with up to Two Wireless Targets .............................

  • Page 4: Critical Note On Calibration

    For example, if the target ID on the target serial number label is 2, then the R-1307 must also be set to the number 2. If the target and readout and not matched, a centering error of up to .004 in. (0.10 mm) can occur. In addition, the laser switch setting (CONT.

  • Page 5: R-1307 Target Readouts - Overview

    • Supports 4x4 mm, 10x10 mm or 20x20 mm PSD cabled targets May be used as a Master Readout or as a secondary readout to display data from a second R-1307 • Can be configured to display data from one cabled 2-axis target or to receive data from a second R- •...

  • Page 6: Model R-1307+R

    • Radio frequency available in either 900 MHz or 2.4 GHz ISM band • Can be used as an additional readout to receive data alignment data transmitted from another R-1307 • unit in master (poll) mode R-1307 Target Readout Accessories The A-1307KS Readout Stand Hamar Laser’s new A-1307KS Readout Stand allows for the secure...

  • Page 7: R-1307 Readout Features

    The R-1307BC supports 2-axis cabled targets and the R-1307B-2.4ZB is a combination readout for cabled targets with the capability to wirelessly transmit target data to a second R-1307 or to the A-910- 2.4ZB computer data receiver. Both models support blinking and continuous laser modes. Power is provided by a 2500 mAh Lithium-Polymer rechargeable battery for 7-22 hours of continuous use, depending on the model, radio type and display brightness settings.

  • Page 8: Model R-1307 Readouts - Control Panel

    Model R-1307 Readouts – Control Panel Figure 5 – R-1307 Models Control Panel Features...

  • Page 9: Model R-1307W Readout - Control Panel

    Model R-1307W Readout – Control Panel Figure 6 – R-1307W Readout Control Panel Features...

  • Page 10: Model R-1307C Readout - Control Panel

    Model R-1307C Readout – Control Panel Figure 7 – R-1307C Readout Control Panel Features...

  • Page 11: The Model R-1307+R - Control Panel

    R-1307. The R-1307+R displays the rotation angle of the 2-axis target, either in degrees or with a symbol to indicate when the target is at “top dead center,” (TDC) which is important for accurate bore alignment.

  • Page 12: Using Tdc/Rot Mode With The R-1307+R Readout

    “levelness” of the target so the user can maintain the rotation orientation of the target for each measurement point. The TDC/ROT indicator on the R-1307 lights when the target’s vertical axis is at Top Dead Center (TDC), indicating that the vertical axis is oriented to 12:00 (0 degrees). See Figure 11 for further information.
  • Page 13 Note: While the H display indicates the target’s rotation axis data, the alignment data transmitted by the R-1307 to the target includes the H axis data. Therefore, it is not necessary to switch back to H&V Mode to record the data point. When recording alignment, always keep the R-1307+R in TDC/ROT mode.

  • Page 14: Using The Menu Key

    Fixed) and the PSD size (4x4 mm, 10x10 mm and 20x20 mm) Hidden menu items for any R-1307 model can be temporarily enabled by pressing and holding the UP arrow key while pressing the MENU key. To exit configuration mode, press and hold the MENU button for approximately three seconds until the display returns to normal mode.

  • Page 15: Pulse/Continuous Modes (L-705, L-706 And L-708 Lasers)

    The T-261A and T-266 Targets do not support the Pulsed-Beam Mode and the system purchased is factory- configured to operate in CONTinuous mode when using these targets. When using the L-700 Laser with the R-1307 and a 2-Axis Target, the system is factory-configured to operate in CONTinuous mode.

  • Page 16: Configuring The R-1307 Readouts

    For example, for R-1307 #2 WARNING: Targets are matched to specific R-1307 Readouts. For example, Target #1 must be connected to Readout #1 or the calibration is void. 7. To exit configuration mode, press and hold the MENU button for approximately three seconds until the display returns to normal mode.
  • Page 17 Figure 12 – Connecting a Cabled (Local) Target to the R-1307...

  • Page 18: Configuring The R-1307-900/2.4, R-1307W-900/2.4, R-1307W-2.4Zb Or R-1307-2.4Zb As A Master Readout With Up To Two Wireless Targets

    Configuring the R-1307-900/2.4, R-1307W-900/2.4, R-1307W-2.4ZB or R- 1307-2.4ZB as a Master Readout with up to Two Wireless Targets Note: Refer to Figure 13 for configuring the Readout to display data from one target in dual-axis (fixed beam) mode and Figure 14 for configuring the Readout to display data from two targets in single-axis (scanning beam) mode.
  • Page 19 Figure 13 – Using the R-1307 with one Unitarget in Dual-Axis (fixed beam) mode...
  • Page 20 Figure 14 -- Using the R-1307 with up to two Unitargets in Single-Axis (scanning) mode...

  • Page 21: Configuring The R-1307W-900/2.4, R-1307-900/2.4, R-1307W-2.4Zb Or R-1307-2.4Zb As A Backup Readout For Wireless Targets (Listen Mode)

    Configuring the R-1307W-900/2.4, R-1307-900/2.4, R-1307W-2.4ZB or R- 1307-2.4ZB as a Backup Readout for Wireless Targets (Listen Mode) Note: Refer to Figure 5 or Figure 6 for descriptions of the control panel buttons and indicator function applicable to your unit and to Figure 16 for a list of Menu settings.

  • Page 22: Configuring The R-1307W-900/2.4, R-1307-900/2.4, R-1307W-2.4Zb Or R-1307-2.4Zb As A Backup Readout To An R-1307 Readout With A Cabled (Local) Target (Listen Mode)

    Configuring the R-1307W-900/2.4, R-1307-900/2.4, R-1307W-2.4ZB or R- 1307-2.4ZB as a Backup Readout to an R-1307 Readout with a Cabled (Local) Target (Listen Mode) Note: Refer to Figure 5 or Figure 6 for a description of the control panel buttons and indicator functions applicable to your unit and to Figure 16 for a list of Menu settings.

  • Page 23: Setting The Target Network Id And System Id For The R-1307 Readout

     Radio channel cannot be selected because no Radio is present or detected.  This is a standard message for the R-1307C. For Models R-1307 or R-1307W, this message indicates a fault in the radio module.  Indicates a problem with the connection to the Cabled (Local) Target’s Position Sensing ...

  • Page 24: The A-910-2.4Zb And Utility Software

    The A-910-2.4ZB and Utility Software The A-910-2.4 ZB operates with the R-1307-2.4ZB models and plugs directly into any unused computer USB port to communicate directly with the targets. Utility software is provided for driver installation, setup and configuration. For detailed information, see...

  • Page 25: Requirements For Radio Devices

    Wireless Target(s): System ID switch setting. • For example, if the System ID of an A-1519-900 is set to 02, then the Channel number of the R-1307 should be set to 02. Within radio range, or for all practical purposes within the same facility, there can only be one Master Device in mode per system.
  • Page 26 Figure 16 -- Settings Menu, Flow Diagram...
  • Page 27 Figure 17 – Target PSD Descriptor, Standard Targets and Lasers...

  • Page 28: Appendix A - Equipment Specifications

    Aluminum Physical Dimensions 5.45 in. x 4.63 in. x 1.45 in. (excluding antenna of R-1307 and R-1307W) 138 mm x 118 mm x 37 mm Note: The shelf life of lithium polymer batteries is 2-3 years under optimal conditions. Expect the battery capacity to drop to 80 percent after 500 charge/discharge cycles.
  • Page 29 Resolution and Accuracy --Wireless Targets (R-1307-2.4ZB and R-1307W-2.4ZB only) Position resolution and accuracy of wireless targets are not controlled by the R-1307. Wireless targets process and calibrate the position of the laser internally; therefore, the accuracy and resolution are device-dependent. Consult your wireless target documentation for more information.

  • Page 30: Appendix B - The A-910 Radio Transceiver/Hub And The A-910-2.4Zb Radio

    Figure 18 – The A-910 Radio Transceiver/Hub FRONT PANEL 5. System ID setting switch: set to the same number as the R-1307 CH (Channel) number. Rear Panel Features 1. Not used 2.

  • Page 31: The Zigbee ® Radio Utility For The A-910-24.Zb

    The Zigbee Radio Utility for the A-910-24.ZB ® Pre-installing the Common USB Port Driver (A-910-2.4ZB) This driver is required for the A-910-2.4ZB Transceiver and to communicate with targets via the computer’s USB port. The driver creates a virtual COM Port that is recognized by the applications as a standard serial port.

  • Page 32: Configuring The Hardware And Utility Settings

    (see Manually Selecting a COM Port on Page 30). 3. The Target System ID or R-1307 CH (channel) is the number associated with the A-1519/1520 targets or R-1307 Readout. If using both the A-1519/1520 targets and an R-1307 Readout, both need to be set to the same system ID and channel (see Figure 23).

  • Page 33: Manually Selecting The Com Port

    Manually Selecting the COM Port The A-910 Utility should automatically detect the COM Port upon startup. If not, use the following steps to locate the correct COM Port. Windows XP 1. Right-click My Computer. 2. Click Properties and then select the Hardware tab. 3.

  • Page 34: Setting The Target System Id And Target Network Id (A-1519/A-1520 Targets, A-910-900/2.4, A-910- 2.4Zb)

    Setting the Target System ID and Target Network ID (A-1519/A-1520 Targets, A-910- 900/2.4, A-910-2.4ZB) The System ID is a radio network address that is used by the Radio Communications Protocol to filter unwanted data from other radio transceivers and targets using a different address. Only targets and radio transceivers that are set to a matching System ID can communicate with each other.

  • Page 35: Appendix C - Agency Certifications

    Appendix C – Agency Certifications Agency Certifications for the 2.4 GHz Radio Transceiver (United States of America) Certification Contains FCC ID: OUR-24XSTREAM The enclosed 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.
  • Page 36 Agency Certifications for the 900 MHz Radio Transceiver (United States of America) Certification Contains FCC ID: OUR-9XCITE The enclosed 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.

  • Page 37: Appendix D - Care And Cleaning Of Target Optics

    Appendix D – Care and Cleaning of Target Optics The proper care and cleaning of optical windows and/or lenses of Hamar Laser’s position-sensing devices (targets) assures optimum performance. Contaminants on an optical surface increase scatter, absorb laser energy, and eventually degrade the accuracy of the position-sensing devices. Because cleaning any precision optic risks damaging the surface, optics should only be cleaned when absolutely necessary.

  • Page 38: Appendix E - Programmer's Reference

    Note: The polling rate for scanning lasers (time interval between successive requests for data from the same target) should be greater than or equal to the scan rate. For most Hamar Laser scanners (for example the L-740) the recommended polling rate is 4 times/second (250 milliseconds interval). Polling the same target at a rate faster than the laser scan rate is pointless because the target will not reply with a new data packet until the position has been refreshed by a new laser scan.
  • Page 39 Normal Application Data Packet Packet Length: 18 bytes (Including two Checksum bytes) Byte TEMP NOTES SOM = START OF MESSAGE LEN = LENGTH OF MESSAGE DEV = DEVICE TYPE 19,20 A-1519 = 19 DEC SN= SERIAL NUMBER 00001TO 65535 OPC=OPERATIONAL STATUS CODE 0=UNCALIBRATED, 3=CALIBRATED TNI=TARGET NETWORK ID 1 TO 99...
  • Page 40 Dual Axis Data Packet (R-1307C, R-1307-2.4ZB Readouts or A-1519-2.4ZB, A-1520-2.4ZB targets) BYTE 1 TEMP Packet Length: 22 bytes (Including two Checksum bytes) NOTES ----- ------- SOM = START OF MESSAGE LEN = LENGTH OF MESSAGE A-1519 = 19 DEC DEV = DEVICE TYPE...
  • Page 41 TST – Target Status Byte (All Packet Types) BIT 7 BIT 6 BIT 5 BIT 4 BIT 3 BIT 2 BIT 1 BIT 0 BIT ORDER EXAMPLE: 116 DEC, (01110100 BINARY) => ILL: BIT 7 (INCIDENT LIGHT LEVEL) 0 – 11 NORMAL RANGE BIT 6 12-14 CAUTION.

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