GS550 System User Manual GM550 Version 1043 Revision 2 (FCC-IC) 1 12500 27000 R:24.2 Jib 30ft Bring critical lift data to the operator in real time.
Revision 2 GM550 v1043 FCC-IC.
Table of Contents Overview............................................................................................................................................6 Start-Up .............................................................................................................................................7 Operation...........................................................................................................................................8 Display GS550 ............................
Boom Length Calibration Procedure № 2: Correct with the GS550 ........................................ 41 Radius Calculation ...................................................................................................................... 42 Radius Settings........................................................................................................................ 42 Radius Parameters for a Lattice Crane ...................................................................................
Menu Locator...................................................................................................................................78 LSI Contact Information...................................................................................................................80 GM550 v1043 FCC-IC.
Overview The GS550 system includes the cabin mounted GS550 radio display and compatible crane mounted sensors. The GS550 creates a two-way radio network with the sensors to bring required lift data to the operator. Hoist load, boom and jib angles, boom length, wind speed and pending two-block can be detected and indicated to the operator in real time. Working load radius can be calculated and compared to a rated capacity chart (if programmed).
Start-Up The GS550 must be correctly programmed for the system sensors installed. The GS550 powers up with several green lights flashing, this indicates that the display is waking up programmed sensors and creating a radio communication link with each. Once a reliable radio communication network is established, all green lights will remain lit without flashing. This process may take up to one minute. The delay is created by the battery management function and does not affect system security.
Operation Display GS550 The GS550 displays detailed information on the backlit, two lines liquid crystal display (LCD). Additional information including warnings, alarms, and radio status is communicated by the display lights and the display buzzer. Sensor status lights Liquid Crystal Display (LCD) 1 Bar graph 12500 27000 R:24.
Liquid Crystal Display (LCD) Detailed lift data and system information is displayed here. The liquid crystal display (LCD) can be adjusted to facilitate viewing in varied lighting conditions. See Menu 3) Display Settings. Sensor Status Lights Detailed lift data and system information is displayed here. The liquid crystal display (LCD) can be adjusted to facilitate viewing in varied lighting conditions. 2 Block The red 2 Block alarm light comes on when a programmed anti-two-block switch is in alarm.
Keypad The keypad consists of six buttons used to control, consult, program, and troubleshoot the GS550 display and system. Each button has two functions; a primary (operation) function and a secondary (menu) function for navigation and programming. The secondary functions are described in the section GS550 Menu System. Primary functions: Bypass: Press Bypass to override lockout for emergency purposes*.
Info: Press Info to see system information; use Next to scroll through the pages. Page 1) BIOS (Binary Input Output System) number and version Page 2) Firmware number and version Page 3) Chart number and version (if available) Page 4) SPKG (Software Package) number Limit: Set hoist limits. Step 1. Press Limit to access the limit menu. The limit menu displays the limits for each sensor in the sensor list on successive pages. Step 2. Use Next to scroll from one limit to the next. Step 3.
Menu System There are five basic menus (level one) used to program, consult and control the GS550 system. Menu 1) Parts of Lines Menu 2) Crane Rigging Menu 3) Display Settings Menu 4) Installation Menu 5) System Diagnostic The basic menus include nested sub-menus (level two, three and four) designed to address specific tasks including adjusting values, choosing from lists and following “wizards” through step by step processes. Menu Numbers Menus are identified by a number in the upper left corner.
Menu Navigation From the operation display press Menu to see the five basic menus (level one). Press Enter to drill down one level and enter a selected menu. Press Exit to leave a menu and return up one level. Press Next to move to the next page within a menu; press Back to move to the previous page within a menu. Use Up and Down to modify numeric values and to move through a list of choices. Tip: most menus are circular; press Next on the last page of a menu to return to the first page.
Menu Layout The figure below shows the menus accessible to the operator without password protection under the default factory settings.
Crane Rigging – Capacity Chart Selection The GS550 can be programmed to assist the operator by indicating the working load limit (WLL) from the crane specific rated capacity charts according to the angle and radius information received from the boom mounted sensors. Under no circumstances is the GS550 a substitute for safe operating practices. The operator must fully understand the crane rigging and the crane rated capacity chart to be able to correctly program the GS550 for rated capacity indication.
Step 5. After the last step has been completed the GS550 will display “Rigging ok” and then it will return to the operation display. If a sensor required by the selected capacity chart is not a part of the system or has not established communication with the GS550, then the GS550 will display “sensor invalid”.
Display Settings Program the display for operator preferences in menu 3) Display Settings. Weight Units The weight units for load display may be selected according to operator preference. Length units are associated with weight units by default; see the table below. Important! Rated capacity charts are programmed with the units on the charts provided. Intervals of boom length and load radius, and the steps of rated capacity, may differ on rated capacity charts in different units for the same crane. Step 1.
Contrast Adjust the LCD contrast to optimize visibility. Step 1. Press Menu → Next → Next → Enter → Next → Next → Next to go to menu 3D) LCD contrast adjustment. Step 2. Use Up and Down to adjust the display contrast. Step 3. Press Next to advance to the backlight adjustment page or press Exit twice to return to the operation display. Backlight Mode Adjust the LCD backlight control mode to conform to viewing and power supply conditions. Step 1.
System Diagnostic Diagnose system failures with the sub menus of menu 5) System Diagnostic. System Sensors Diagnostic Access key sensor data for each sensor in this menu: Step 1. Press Menu → Back → Enter → Enter to go to menu 5A1). Step 2. Use Back and Next to select the sensor. Step 3. Press Enter to see sensor data. Step 4. Use Back and Next to select another sensor or press Exit four times to return to the operation display.
Lockout Diagnostic Confirm GS550 lockout output circuits in this menu. Step 1. Press Menu → Back → Enter → Next → Next → Enter to go to menu 5C1) White wire… The page shows the lockout condition of the output (alarm or safe) and the selftest (pass or fail). Step 2. Press Next to go to menu 5C2) Green wire diagnostic … Step 3. Press Next to go to menu 5C3) Orange wire diagnostic… Step 4. Press Exit three times to return to the operation display.
Installation Display GS550 Important! Do not crack or puncture the membrane fascia. The GS550 display is splash and rain proof. Waterproofing depends in part on the integrity of the membrane. Important! Do not power wash the display. The GS550 display is not designed to withstand high-pressure washing devices that can erode the membrane fascia seal or create fissures in the membrane fascia. Power washing the display voids warranty coverage. Mounting Bracket Step 1. Determine the mounting location.
Step 4. Loosen the wing nut of the bracket arm to adjust display orientation to facilitate viewing by the operator and then tighten it back up. Figure: The power cable requires about 4 ½ in. behind the display to protect the connector Power Supply and Lockout Connection Step 1. Connect the black wire (ground) to the negative terminal of the crane battery or the panel connection; alternatively bolt the black wire to the body of the machine with a ¼ inch or 5/16 inch bolt.
Orange wire Green wire Red wire White wire Blue wire Black wire Figure: GS550 power supply connector Wire Colour Black Red White Green Orange Blue Figure: Power supply cable, part № LB006 Function Negative (ground) Positive 12 or 24 volts (crane power supply) Lockout № 1 Lockout № 2 Lockout № 3 Lockout № 4 (option) Table: GS550 power supply and lockout connection Step 4. Lockout number 2 (if required): the green wire functions in the same way as the white wire; see above.
Yellow cable Red wire Black wire Crane Power Supply Battery +12V or +24V Figure: Connection without lockout Yellow cable White wire To valve coil if normally closed is required Bosch relay n.c. Red wire n.o. Black wire co Battery +12V or +24V To valve coil if normally open is required Crane Power Supply Figure: Connection with white wire lockout and recommended Bosch relay 24 Revision 2 GM550 v1043 FCC-IC.
Lockout Settings Warning, alarm and lockout control is programmed in this menu. The GS550 can be programmed to generate alarms and lockout for almost all programmed limits, and two-block. Furthermore, warnings are generated when approaching programmed load limits and rated capacity (when applicable). Warning Level When gross load (regardless of tare value) approaches the maximum limit for a load sensor the red overload alarm light will flash.
Lockout Triggers Different events can be programmed to cut voltage on the lockout wires of the yellow cable. Each lockout wire can be linked to a different combination of lockout conditions. Step 1. Press Menu → Next → Next → Next → Enter → Next → Next → Next→ Next → Next → Next → Enter → Next → Next → Next to access menu 4G4) White wire lockout trigger. Step 2. Select which alarm conditions will trigger lockout on the white wire. Step 3.
The following conditions will not trigger lockout; they will generate an alarm: • • • • • Minimum list angle Maximum list angle Minimum heel angle Maximum heel angle Maximum rope speed Lockout Relay Inversion WARNING! Inverting lockout relays will allow crane operation in the event the GS550 display fails. Operating a crane without a functioning anti-two-block system and load and angle indication is dangerous and may be against the law.
Datasheet 28 Revision 2 GM550 v1043 FCC-IC.
Load Cell WARNING! Capacity and safety factor for load cells and adapter plate assemblies are calculated for load along the intended axis of load (vertical with the assembly hanging free); side loading may cause load cell and adapter plate assembly to fail, causing load to drop. Lifts must be rigged such that the load cell and adapter plate assembly hang free and not be subjected to side loading. Important! The load cell antenna must not be in contact with metal.
Angle Sensors for the Boom or Jib WARNING! Keep the angle sensor away from the boom and any connecting metal structures when welding the metal lugs to the boom. Proximity to welding may cause permanent damage to the angle sensor and prevent accurate angle indication. Mounting Procedure The GS010 series angle sensors can be turned on by starting up the GS550 display to which they are programmed. The angle sensor can then assist in levelling itself with the red and green LED.
Step 1. Determine the angle sensor position. a. The GS010-01 boom angle sensor can be mounted on either side of the boom. b. The GS010-02 360° angle sensor must be mounted on the left side of the jib. c. The angle sensor must be level with the boom centreline. d. The top / bottom axis of the angle sensor must be within 15 degrees of vertical e. The angle sensor must have a clear line of sight to the cabin mounted display. f. The angle sensor antenna must not contact a metal object. Step 2.
Angle Calibration Procedure № 2: Correct with the GS550 Calibrate angle indication by adjusting the trim (offset) value in the GS550 display; the GS550 will then communicate the updated trim value to the sensor. Step 1. Position the boom at a precisely known angle. Step 2. Press Menu → Next → Next → Next → Enter → Next → Enter → Next → Enter → to go to manual calibration menu page 4B2A) Step 3. Use Back and Next to select the angle sensor to be calibrated. Step 4.
Anti-Two-Block Switch GS050 WARNING! Keep the anti-two-block switch away from the boom and any connecting metal structures when welding mounting brackets to the boom. Proximity to welding may cause permanent damage to the anti-two-block switch and render the anti-twoblock system unsafe.
Up to 8 in. (20 cm) diameter Boom base → Mount bracket below and behind sheave centre. Figure: Telescopic boom, anti-two-block switch placement for both live and dead end mounting If the head sheave diameter is between 8 and 16 inches (20-41 centimetres) then two mounting brackets will be required to permit both live and dead end mounting. 8-16 in. (20-41 cm) diameter Boom base → Mount bracket 4 in. (10 cm) below sheave centre.
For live end mounting on multiple sheave blocks with sheaves greater than 16 inches (41 centimetres) in diameter consult your service representative. Mount bracket 2-4 in. (5-10 cm) below sheave centre. Boom base → Figure: Jib, rooster or other extension, anti-two-block switch placement for single part of line operation only For fast line weight installation place the anti-two-block switch mounting bracket directly below the sheave center as low and as close to the edge of the sheave as possible.
Step 3. Chain length adjustment № 1 – minimum boom angle i. At minimum boom angle, with no additional weight on the hook block and one part of line only, lift the boom just enough to have the hook block suspend and clear the sensor chain and weight. ii. Hoist slowly until the red two-block warning lights comes on and the buzzer sounds. Note the hoisting distance remaining; this distance must be great enough to allow the operator and the lockout system, if installed, to prevent a two-block event.
Step 4. Chain length adjustment № 2 – maximum boom angle i. Raise the boom to the maximum angle. ii. Hoist slowly until the red two-block warning lights comes on and the buzzer sounds. Note the hoisting distance remaining; this distance must be great enough to allow the operator and the lockout system, if installed, to prevent a two-block event. If necessary, add lightweight chain between the sensor and weight to increase warning distance.
Length Sensor Cable Reel WARNING! Arc welding will damage LSI sensors, causing immediate failure or greatly reducing functional life. Arc welding on or near LSI equipment will void warranty. Keep LSI equipment well clear of any arc welding. The GS101 includes the LS101 cable reel and the GS011 angle/length sensor. The GS011 is concealed under the cover of the LS101, though the antenna is visible.
Mounting the Cable Reel Step 1. Determine placement. Find a clear mounting position on the left side of the first (lowest) section of the boom. The mounting position should be close to the base of the boom; at least ten feet (three metres) from the tip of the first section and where the cable reel won’t obstruct free boom movement at all boom angles and slew positions. Furthermore, the reel must be placed such that the cable has a clear straight line to the end of the last section at all boom lengths.
distance from the boom base pin to the head sheave centre as measured along the boom centreline. Depending on the exact placement of the cable reel and the cable anchor the displayed length may differ from the actual length.
Boom Length Calibration Procedure № 2: Correct with the GS550 If displayed boom length does not match actual boom length for retracted or extended boom and if it is not possible to easily correct by following Boom Length Calibration Procedure № 1 (previous page), then follow this procedure. This procedure is completed in the operators cab, it requires fully retracting, and then fully extending the boom, as prompted by the on screen instructions.
Radius Calculation Before proceeding with radius calibration: Install the display unit (see Installation – Display GS550). Install the angle sensor (see Installation – Angle Sensors for the Boom or Jib) and verify the accuracy of its reading. Telescopic boom cranes: install the length sensor (see Installation – Length Sensor Cable Reel). Make sure the length is displayed properly for retracted and extended boom.
Step 2) Determine the following measurements to within a tenth of a foot: slew offset, sheave head length and sheave radius. These measurements are described in the subsections Radius Parameters for a Lattice Crane and Radius Parameters for a Hydraulic Crane that follow. Verify that the radius parameters have been set correctly; the values may be adjusted with the + and buttons. Press the Next button to proceed from one parameter to the next. 1 25400 A:20.0 L: 16.0 R: 7.
Radius Parameters for a Lattice Crane The radius calculation parameters highlighted in green must be measured on the crane and set into the radius settings of the GS550 display unit Head sheave Jib mounting point Jib offset angle Distance from head sheave centre to jib mounting point (Your measurement) Head sheave radius Jib length (Your measurement) Sheave head length: distance from head sheave centre to boom centreline Boom length: distance from boom base pin to head sheave centre (Your measurement
Radius Parameters for a Hydraulic Crane The radius calculation parameters in green must be measured on the crane and set into the radius settings in the GS550 display. The sheave head length is the distance between the boom centerline and the center of the lower sheave. (Your measurement) Boom length: the distance from the boom base pin to the head sheave centre Boom base pin Sheave radius. (Your measurement) The slew offset is the distance between the boom pin and the center of rotation.
Radius Display Troubleshooting For accurate radius calculation the actual boom length and angle, and the jib length and angle must be correctly displayed by the GS550 and all radius parameters must be correctly measured and entered in the radius settings of the GS550 display. Before proceeding with troubleshooting confirm that all steps described at the beginning of the Radius Calculation section, including the radius parameters subsection, have been followed.
Advanced Radius Settings (Reference) On most cranes, the radius parameters described above should be sufficient to calibrate accurate radius indication. When the GS550 has been programmed with rated capacity charts additional radius parameters may facilitate fine tuning radius indication. With the most common Sheave Head: (Sh.Len Pr) distance perpendicular to boom centerline: arrow D1 (Sh.
Wireless Wind Speed Sensor GS020 Includes: Wind speed sensor/transmitter assembly Mounting rod Mounting screw Mounting screw washers (2) Installation Unscrew the mounting rod from the wind speed sensor transmitter assembly. Select the welding point for the mounting rod. The mounting rod must be installed on the same side of the boom as the cabin mounted display, perpendicular to the boom at the highest point possible.
Wireless Load Pins WARNING! Do not pull on a load pin by the pigtail. LP011, LP015, and LP026 Step 1. Mount the load pin to the boom tip or block by replacing the pin of the wedge socket. The load pin is directional and must be oriented correctly to indicate load accurately. Install the pin so that the bracket embraces the wedge socket and prevents pin rotation. Tip: When installed at the boom tip the lot number can be read right side up and the “line pull” arrow points down towards the block.
Wedge socket Load pin ↑ Single part block Figure: Load pin LP011, LP015, or LP026 – installation on a single part block Load Pin Transmitter GS001 Step 1. Determine the transmitter mounting position. a. The load pin and transmitter pigtails must connect easily without stretching or kinking at all boom angles and working conditions. The jumper cable may be used between the load pin and transmitter to increase transmitter placement options. b.
Load Calibration: Load Pins, Line Riders and Compression Cells Important! Load indication by load pins, line riders and compression cells must be calibrated! This procedure applies to load pins, line riders and compression cells. This procedure must be followed at installation and every time thereafter the load sensor or load transmitter is changed. Flat bar load links (part numbers GC005, GC012, GC018, GC035, GC060, GC100, GC170 etc.) are factory calibrated, on site calibration is not required.
Step 5. Press Exit three times to return to the operation display. Load indication by load pins, line riders and compression cells varies depending on the load sensor, the load transmitter and the installation. Recalibrate after every change in load sensor or load transmitter and when installing on a different machine. The calibration values are stored in the load transmitter; recalibration is not required if the display is changed.
Four Point Lift The following functions are available for applications such as container cranes and gantry cranes that require load indication from four load sensors simultaneously. 1. Sum load indication 2. Imbalance 3. Slack Rope Each of these functions can be used to generate an alarm condition on the lockout wires of the GS550. Sum Load Indication When sum load indication is programmed the sum of the loads on the pre-determined load sensors is indicated by the operation display.
Imbalance Systems programmed for four load sensors and four load sum indication can be programmed with an imbalance sensor to warn against uneven load distribution or against unwanted rope payout if one corner of the load touches down before the others. The Imbalance Factor Limit The imbalance factor is the percent difference between the load on one load sensor and the average load on the other three.
Slack Rope Systems programmed for four load sensors and four load sum indication can be programmed with a slack rope sensor to warn against unwanted rope payout when the load touches down. The Slack Rope Minimum Limit The slack rope sensor compares the sum load to an adjustable slack rope minimum limit. When the sum load goes below the slack rope limit a slack rope alarm is generated. The slack rope limit is usually adjusted to less than the weight of all rigging below the load sensors.
Data Logger The GS550 includes a data logger that records all significant events with a date and time stamp and actual sensor values. The data logger memory can hold over 16 000 records, this is equivalent to several days or several years of operation depending on the recording mode selected and machine use. The data can be extracted using a portable download tool and then transferred to a personal computer for analysis.
Step 1. Press Menu → Next → Next → Next → Enter → Next → Next → Next → Next → Next → Enter to go to menu 4F1) Data logger mode Step 2. Use Up and Down to select the data logger recording mode. Step 3. Automatic modes only: press Next to advance to the adjustment page for the interval (automatic recording mode), variation (automatic variation recording mode), or threshold (automatic peak recording mode). Step 4. Press Enter to save any changes. Step 5.
The Sensor List All sensors in the GS550 system are programmed in the sensor list. The GS550 uses information from all sensors in the sensor list. Conversely the GS550 will not use or display information from sensors that are not programmed to the sensor list. If a sensor is removed from the crane then it must be removed from the sensor list. If a sensor is replaced the sensor list must be updated with the new id number.
How to Remove a Sensor from the GS550 Step 1. Determine the sensor to be removed. If more than one sensor of the same type has been added to the sensor list then determine the radio identification number (id) of the sensor to be removed before proceeding. This number between 10000 and 99999 is engraved on the sensor. Step 2. Press Menu → Next → Next → Next → Enter → Enter to go to menu page 4A1). Step 3.
Portable Download Tool The portable download tool consists of a compatible Palm personal digital assistant (PDA) and LSI software kit. Using the portable download tool it is possible to update firmware, install rated capacity charts or export data logger files without removing the display from the crane.
Installing Palm Software Step 1. Insert the CD-ROM identified Desktop Software & manual in the personal computer (PC) CD-ROM drive; installation will begin automatically. This software is also available on the internet at Palm’s web site: http://www.Palmone.com/us/support/downloads/win_desktop.html Step 2. The software should be installed in the default directory: C:\Program Files\Palm. Step 3. Follow the installation wizard step by step. Step 4.
Transfer Firmware Files from the Palm to a GS550 Step 1. On the Palm, start the LSI Firmware software: a. Press the house icon to go to the Home menu. b. Select All from the drop down menu in the upper right hand corner. c. Select LSI Firmware. Step 2. On the GS550 display, press and hold Bypass while starting the display. The display will enter a safer mode and allow firmware updates. Step 3. Align the infrared ports of the Palm and the GS550, about 6 inches (10 centimetres) apart. Step 4.
Transfer Data Logger Files from the GS550 to the Palm Step 1. On the Palm, start the LSI Datalogger software. a. Press the house icon to go to the “home” menu b. Select All from the drop down menu in the upper right hand corner c. Select LSI Datalogger. Step 2. Align the infrared ports of the Palm and the GS550 about 6 inches (10 centimetres) apart. Step 3. On the Palm, receive the file: a. Press Receive. b.
Data Logger Viewer The Data logger viewer is a software application used to display on a personal computer (PC) a log file generated by the GS550 data logger. To transfer data logger files from a GS550 to a PC see the section “Transferring Files”. The Data logger viewer opens the log file, converts it from a Palm database file to a text (binary) file, and then displays the contents. Two reports can be produced and transferred to Excel, the full report and the wind speed report.
Step 2. Click on the file folder icon to open a log file (or click on File → Open). Step 3. Enter the file location. The Palm software usually writes the Palm files to a folder with a name like C:\Program Files\Palm\PALM_NAME\Backup\ Note: PALM_NAME is the actual name given to the Palm. Step 4. Select the log file to open. Only .pdb files generated by the LSI software in the Portable Download Tool are supported. LSI_08_13_2004_15_31_48.
Wind Report To create a wind report in Excel, click on the Wind Report button in the tool bar. Figure: Excerpt of a Wind Report Column Date Time Sensor ID Wind (mph) Nb. Gust Max. Gust (mph) Description Date of event recorded Time of event recorded Wind speed sensor id number Average wind speed in the period Number of gusts exceeding the wind speed maximum limit during the period. Maximum wind speed (gust) during the period.
Maintenance Replacing Sensor Batteries All Sensors Except the GS050 Anti-Two-Block Switch What Is Needed • A hex key 5/32 in. (approximately 3.97 mm) • A flat bladed screwdriver • One (1) new high quality “D” cell battery: 3.6 V lithium, or alkaline • RTV non-corrosive silicone Tip: A 3.6 volt lithium “D” cell battery will provide about two years of battery life for a load cell, while an alkaline “D” cell battery will provide less than one year of battery life.* Step 1.
The GS050 Anti-Two-Block Switch What Is Needed • An adjustable wrench • Four (4) new high quality “C” cell batteries: 3.6 V lithium, or alkaline • RTV non-corrosive silicone Tip: Four 3.6 volt lithium “C” cell batteries will provide over four years of battery life, while four alkaline “C” cell batteries will provide about one year of battery life.* Important! Replace all four batteries of the anti-two-block switch at the same time. Unchanged batteries will reverse polarity severely reducing battery life.
Replacing Antennas Sensors The GS series sensor antenna (part number TA011) is identified with a blue strip. The TA011 is replaceable. Slightly damaged antennae (bent, sheathing scratched, plastic head cap missing etc.) should not be replaced unless otherwise identified as preventing proper sensor function. Heavily damaged antennae (ripped out, sheared off, wire exposed and fraying etc.) should be replaced to ensure communication between the sensor and the cabin mounted display unit.
Coat the exposed metal foot of the new antenna with an electrical insulating compound by carefully inserting it in the mouth of the compound tube. White nylon hex bolt Antenna Sensor box Antenna receptacle Hold the new antenna by the black plastic sheathing and guide it through the hole in the sensor box. Carefully seat the antenna in its mating connector. When the antenna is correctly seated, pulling on it will be met with light resistance.
Load cell maintenance WARNING! Heavy shock may affect load indication accuracy. Inspect the load cell regularly for clearly visible dents or scratches. Test the load indication if collision damage is visible. Reading Accuracy LSI Load cells are pre-calibrated at the factory. No “zeroing” or other calibration is required on installation. Each link is heat treated to age the steel and ensure stable readings for many years; load cells are individually temperature compensated to guarantee accuracy.
• Box water tightness: if the transmitter box has been removed it must be correctly resealed with RTV non-corrosive silicone. • Antenna: small scratches on the antenna will not affect radio communications. A heavy bending of the antenna or bare sections on the wire may reduce the radio efficiency. • Transmitter box hex bolts: hex head bolts on the transmitter box are there to protect the antenna and to hold the transmitter box on the load cell link.
Trouble shooting Palm Pilot Communication Issues Difficulties copying a file to a Palm Pilot when using several Palms with the same PC. 1. Transfer a firmware to a Palm a. Click on the mouse rightbutton over the file in an Explorer window. Then select “Send To”… and “Palm Quick Install”. See the picture below. b. Or… double-click on the firmware received in an email. 2) Usually a window will pop up to confirm the addition of this file to the list of files to be transferred to a Palm.
INSTRUCTIONS TO THE USER 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.
FCC ID: QVBGS000 IC: 7076A-ICGS000 RF Exposure Warning: This product complies with FCC/ IC radiation exposure limits set forth for an uncontrolled environment. To comply with RF exposure requirements, the unit must be installed and operated with 20 cm (8 in.) or more between the product and your body. This product may not be collocated or operated in conjunction with any other antenna or transmitter. This device has been designed to operate with the antennas listed below, and having a maximum gain of 0.
Menu Outline 4D2) Crane capacity chart interpolation 4D3) Out of charts default working load limit 4D4) Enable start section 4D5) Enable stop section 4D6) Retracted boom length tolerance 4D7) Intermediate boom length tolerance 4D8) Extended boom length tolerance 4D9) Radius tolerance 4D10) Boom angle tolerance 1) Parts of Line 2) Crane Rigging 3) Display Settings 3A) Weight units 4E) Memory Banks 3B) Display language 4E1) Copy configuration to memory bank A 4E2) Copy configuration to memory bank B 4E3
4H15) Data logger password protection 4H16) Lockout Settings password protection 4H17) Network Options password protection 4H18) System Diagnostic password protection 4H19) Alarm Bypassed protection 4I) Network Options 5B3) Search for sensors 5C) Lockout Diagnostic 5C1) White wire status and self-test 5C2) Green wire status and self-test 5C3) Orange wire status and self-test 5D) Display Diagnostic 5D1) Time and date 5D2) Time clock battery test 5D3) External power supply voltage 5D4) Display internal te
Menu Locator A Adjust date Adjust time Alarm Bypassed protection Alarm level Automatic value calibration wizard 4F2 4F3 4H19 4G2 4B1 B Backlight mode Blue wire (digital input status) Blue wire lockout trigger Boom angle tolerance Boom deflection Boom length Boom top length Boom top offset 3E 5E4 4G7 4D10 4C4 4C1 4C5 4C6 C Chart Rigging password protection Chart Settings Chart Settings password protection Clear configuration – memory banks Configuration number selection mode Copy configuration to memory
Orange wire lockout trigger Out of charts default working load limit 4G6 4D3 P Parts of Line Parts of Line menu password protection Password Settings 1 4H7 4H R Radio network background noise Radio Network Diagnostic Radius Settings Radius Settings password protection Radius tolerance Reset sensor parameters Restore factory configuration Retracted boom length tolerance 5B1 5B 4C 4H12 4D9 4B3 4E7 4D6 S Search for sensors Select sheave Sensor Calibration Sensor Calibration password protection Sensor Lis
LSI Contact Information USA Corporate Office: Toll Free Phone: Direct Phone: Toll Free Fax: Direct Fax: 9223 Solon, Suite A Houston, TX 77064 (888) 819 4355 (281) 664 1330 (888) 238 4099 (281) 664 1390 Email: sales@loadsystems.com Dubai Corporate Office: Y02 Saif Zone P.O. Box 7976 Sharjah, United Arab Emirates Tel.: +971 6 557 3814 Fax: +971 6 557 3815 Email: sales@loadsystems.com Canadian Corporate Office: 4495 boul.
