Master User's Manual The GS550 System Document Part Number GM550, Version 2004, Revision B 1 12500 27000 R:24.
Table of Contents 1. Introduction....................................................................................9 1.1 Overview .................................................................................................................9 1.2 Version Compatibility (applies for produced manufactured prior to June 2007) .............9 1.3 Start-Up...................................................................................................................9 2. Operation...........................
2.5.9 Boom Length Calibration Procedure № 1: Mechanical Set-Up............................25 2.5.10 Boom Length Calibration Procedure № 2: Correct with the GS550 ...................26 2.6 Radius ....................................................................................................................28 2.6.1 Radius Verification and Adjustment ....................................................................28 2.6.2 Radius Settings ................................................................
3.2.4 Transfer Data Logger Files from the GS550 to the PDA.......................................53 3.2.5 Transfer Data Logger Files from the PDA to a Personal Computer .......................53 3.3 Trouble Shooting PDA Communication Issues ...........................................................55 3.4 Data Logger Viewer..................................................................................................56 3.4.1 Installation on a Personal Computer ............................................
Table of Illustrations Figure 1 Key Components In A Typical System ............................................................................ 10 Figure 2 GS550 Front View ........................................................................................................... 11 Figure 3 GS550 Load Display........................................................................................................ 11 Figure 4 Menu Levels ........................................................................
Figure 27 Transfer Data Logger Files From The GS550................................................................50 Figure 28 Transferring Files From A Palm To A GS550.................................................................51 Figure 29 Palm HotSync Page .......................................................................................................52 Figure 30 Palm LSI Firmware List ..................................................................................................
Table of Tables Table 1 Information Menu Alerts.................................................................................................... 15 Table 2 Weight Units...................................................................................................................... 20 Table 3 Full report column headings.............................................................................................. 57 Table 4 Wind report column headings ..................................................
CE and ATEX Certifications Master User's Manual Convention For information on CE and ATEX Certifications, Warning means that there is a possible please refer to sections relative on certification danger. This action should be performed in and declaration of conformity. order to meet the proper operation, and it is performed not to break the system. If this is not followed, some failures or breaks can occur.
8 The GS550 System
1. Introduction 1.1 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).
Figure 1 Key Components In A Typical System 10 The GS550 System
2. Operation 2.1 Display GS550 The GS550 displays detailed information on the backlit, two lines liquid crystal display (LCD) (see Figures 2 and 3). Additional information including warnings, alarms, and radio status is communicated by the display lights and the display buzzer. Figure 2 GS550 Front View Figure 3 GS550 Load Display 2.
2.1.1 Liquid Crystal Display 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 the 2.4 Display Settings section of this manual. 2.1.2 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.
BYPASS. Press BYPASS to override lockout for emergency purposes*. The alarm will remain silent until the next alarm; lockout will re-engage as soon as the button is released. TARE. Zero the hook and rigging weight. 1. Press TARE to enter the tare menu. 2. Use Next to select the load sensor. 3. If no tare value, then press Tare to create a tare value equal to the weight on the load sensor. Example: with hook block and rigging only. Load display is net weight (gross weight minus tare value). 4.
Info. When the orange Info light flashes press Info to see critical system alerts. Press Next to advance from one page to the next. Standard info menu pages include: • • • • Alert BIOS (Binary Input Output System) number and version Firmware number and version Chart number and version (if available) SPKG (Software Package) number Description The sensor indicates a value greater than the operator adjusted limit Warning! Do not operate the crane beyond the limits specified by the manufacturer.
The boom or jib angle is above the maximum angle permitted by the selected chart. (For charts determined by radius only this message will occur when the radius is less than the minimum radius permitted by the chart). • Verify the boom and jib angles permitted by the rated capacity chart selected. The boom or jib angle is under the minimum angle permitted by the selected chart.
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. 2.2.1 Menu Numbers Menus are identified by a number in the upper left corner (see Figure 4). The basic menus (level one) are numbered one through five. Level two menus are lettered alphabetically. Level three menus are numbered. Level four menus are alphabetized. Figure 4 Menu Levels 2.2.
Figure 5 Menu Navigation 2.2.3 Password Protection The submenus of menu 4) Installation are protected by a password by default. Password settings can be adjusted in menu 4H) Password Settings. The factory set administrator and user passwords are AZA. If the user password is forgotten, it can be changed as long as the administrator password is known. Forgotten password? Call LSI technical support (Houston, TX) at 888 819 4355 or contact your local LSI representative. 2.2.
Figure 6 Open Access Menu: Default Factory Settings 2.2.5 Parts of Line The load sensor often shares the weight with multiple parts of line. For accurate load indication the GS550 must be programmed for the number of parts of line. 1. Press Menu and Enter to enter menu 1) Parts of Line. 2. Use Next and Back to select the load sensor; typically sensor number one is associated with sheave one (the main hoist) and sensor number two is associated with sheave two (the auxiliary hoist) etc. 3.
2.3.1 Display Programming In order to indicate WLL the GS550 must be programmed with a valid rated capacity chart specific to the crane. The capacity chart programmed can be verified on the chart number page of the Information menu: press Info and Next twice (press Exit to return to the operation display). If the chart number information screen says “Chart not loaded” the GS550 has not been programmed to function as a rated capacity indicator.
Figure 7 Chart Wizard: Steps 1 to 5 should be followed to select the capacity chart 2.4 Display Settings Program the display for operator preferences in menu 3) Display Settings. 2.4.1 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 table 2. 1. 2. 3. 4. Press Menu, and then Next twice. Press Enter to go to menu 3A) Weight units. Use Up and Down to select the weight units for load display.
2.4.3 Light Intensity Adjust the intensity off the LEDs (light emitting diodes) to facilitate viewing in bright sunlight or in reduced visibility. 8. 1. 2. 3. Press Menu, and then Next twice. Press Enter, and then Next twice to go to menu 3C) Light intensity adjustment. Use Up and Down to adjust the intensity of the lights. Press Next to advance to the contrast adjustment page or press Exit twice to return to the operation display. 2.4.4 Contrast Adjust the LCD contrast to optimize visibility. 1. 2. 3. 4.
Figure 8 Sensor Diagnostic Data 4. Press Enter to get the sensor firmware product and version numbers (see Figure 9). Figure 9 Sensor Firmware Product And Version Numbers 5. Press Exit five times to return to the operation display. 2.5.2 Radio Network Diagnostic 1. Press Menu and Back. 2. Press Enter, Next, and then Enter to go to menu 5B1) Radio network background noise. Warning! The "list of last 32 sensors received" includes all functioning GS series sensors within range.
2. Press Enter, Next twice, and then Enter to go to menu 5C1) White wire… The page shows the lockout condition of the output (alarm or safe) and the self-test (pass or fail). To temporarily invert the lockout relay press Up or Down. 3. Press Next to go to menu 5C2) Green wire diagnostic. 4. Press Next to go to menu 5C3) Orange wire diagnostic. 5. Press Exit three times to return to the operation display. 2.5.4 Display Diagnostic 7. Press Menu and Back. 1.
6. Repeat step 4 to adjust password protection for each menu as required. Press Enter at any time to save changes made. Press Exit at any time to return to menu 4) Installation. If there are any unsaved changes the display will request confirmation: press Enter to save before quitting or press Exit to quit without saving. 2.5.7 Angle Calibration Procedure № 1: Mechanical Set-Up 1. Level the boom such that it is perfectly horizontal; use a high quality bubble or digital angle sensor.
Operation Display 1) 2) Parts of Rigging Line Crane 3) Display Settings 4) Installation 4A) Sensor List Calibration 4B) Sensor Enter user password: aaa 4B1) 4B2) Automatic Manualvalue parameter calibration wizard calibration 4B2A) No. x id: 4B2A) No. Gxxxxx x id: Gxxxxx Load sensor Angle sensor HeartbeatTrim: 60 0.0 Up/Down, Enter->Save Up/Down, Enter->Save Figure 10 Angle Calibration Procedure No 2 2.5.9 Boom Length Calibration Procedure № 1: Mechanical Set-Up Figure 11 shows the actual boom length.
4. Verify the boom length indicated at full boom extension matches the actual fully extended boom length. If not then follow 2.5.10 Boom Length Calibration Procedure № 2: Correct with the GS550. 2.5.10 Boom Length Calibration Procedure № 2: Correct with the GS550 If the displayed boom length does not match the actual length of the boom retracted or extended and if it is not possible to easily correct by following Boom Length Calibration Procedure № 1 (previous page), then follow this procedure.
2. Press Enter and Next to go to menu 4B) Sensor Calibration. 3. Press Enter to go to the password page. 4. Use Back, Next, Up, and Down to enter the user password, and then press Enter to go to 4B1) Automatic Value Calibration Wizard. 5. Press Enter to go to 4B1A). 6. Use Back and Next to select the length sensor, and then press Enter to confirm communication with the sensor is possible. 7. Press Next to start the wizard. 8.
2.6 Radius 2.6.1 Radius Verification and Adjustment 1. Verify the boom and luffing jib* angles, and the boom length†, are indicated correctly. 2. Verify the correct rated capacity chart is selected‡. 3. Test № 1: measure the actual radius and compare to the radius indicated. Repeat with the boom at minimum angle, at 45 degrees, and at maximum angle; repeat at minimum and maximum boom length†. If radius indication is not accurate then go to step 4. 4.
Tip With the boom at 45° and the maximum load on the hoist, the boom deflection value should equal the difference between the actual and the displayed radius. With the boom at 45° and half the maximum load on the hoist, the boom deflection value should equal twice the difference between the actual and the displayed radius. 11. Test № 4: measure the actual radius and compare to the radius indicated.
Operation Display 1) Parts of Line 2) Crane Rigging 3) 4) Display Settings Installation Basic radius parameters 4A) Sensor List Calibration 4B) Sensor 4C) Radius Settings 4C10) Jib mount point perpendicular 0.0 Enter user password: aaa 4C1) Boom length 60.0 4C12) Select hoist main 4C2) Slew offset 0.0 4C13) Jib length 0.0 4C3) Height offset 0.0 4C4) Boom deflection 0.0 4C5) Boom top length 0.0 4C6) Boom top offset 0.0 4C7) No load Deflection 4C11) Jib mounting point parallel 0.0 0.
2.6.
2.6.4 Basic Radius Parameters for a Telescopic Boom Crane Sheave head length perpendicular (menu 4C17) • The distance from the head sheave centre to the boom centreline (Your measurement) Boom length: the distance from the boom base pin to the head sheave centre Sheave radius (menu 4C19) (Your measurement) Boom base pin Slew offset (menu 4C2) • The distance from the boom base pin to the crane centre of rotation • If the boom base pin is behind the centre of rotation this value will be negative.
2.6.5 Advanced Radius Parameters Typical sheave heads: • 4C17) Sheave head length perpendicular = D1 • 4C18) Sheave head length parallel = 0 Extensions, two possibilities: 1) Manual length (4C16): The offset is always zero degrees. 2) Lattice extension length(4C15): The offset angle must be adjusted.
2.6.6 Load Pin Transmitter GS001 1. Determine the transmitter mounting position (see Figure 17). 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.
1. Press Menu, and then Next three times to go to menu 4) Installation (see Figure 17). 2. Press Enter and Next to go to menu 4B) Sensor Calibration. 3. Press Enter to go to the password page. 4. Use Back, Next, Up, and Down to enter the user password, and then press Enter to go to 4B1) Automatic Value Calibration Wizard. 5. Press Enter to go to 4B1A). 6. Use Back and Next to select the load sensor, and then press Enter to confirm communication with the sensor is possible. 7. Press Next to start the wizard.
• Imbalance • Slack Rope These functions can be used to generate an alarm condition on the lockout wires of the GS550. 2.8.1 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. To activate sum load indication program a “Sum load sensor” in the sensor list. The “id number” is used to identify the load sensors to be summed. Sum maximum limit.
2. Press Enter twice to go to the sensor list (4A1). 3. Press Next repeatedly to advance to the next available sensor position, usually following the four load sensors and the sum load sensor. 4. The id can be left at 0, press Next. 5. The sensor type should flash; use Up and Down to select the sensor type Imbalance sensor. Only one imbalance sensor is required to calculate imbalance for all four load sensors. 6. Press Enter to save any changes. 7. Press Exit three times to return to the operation display.
5. The sensor type should flash; use Up and Down to select the sensor type Slack rope sensor. Only one slack rope sensor is required to calculate slack rope for all four load sensors. 6. Press Enter to save any changes. 7. Press Exit three times to return to the operation display. 8. Adjust the slack rope minimum limit in the limit menu. 2.9 List and Trim Angle Sensor The GS010-03 is a two axis angle sensor designed to detect both list and trim angle.
2.9.2 Mounting Instructions Warning! Remove the angle sensor from any connecting metal structures or surfaces when welding the metal lugs to the mounting surface. Proximity to welding may cause permanent damage to the angle sensor and prevent accurate angle indication. 1. Determine the angle sensor position. a. The mounting surface must be flat and known to be level (0°) in both the list and trim axes. b. The angle sensor must have a clear line of sight to the cabin mounted display. c.
11. Press Enter to communicate changes to the sensor. 12. Repeat steps 6 through 11 for the list angle. 13. Press Exit four times to return to the operation display. 14. Verify accurate list and trim angle indication (see Figure 20).
2.10 Rope Payout Figure 21 Rope Payout Display Typically the rope payout sensor is factory installed on the line rider load sensor (see Figure 21). Alternatively the rope payout sensor may be installed on an appropriate sheave. Power supply must be provided to the rope payout sensor. A GS550 display can then be programmed to communicate with the sensor and to indicate rope payout (length) and rope speed. Zero the rope payout using the Tare menu before calibration. 2.10.
5. Verify the rope payout indicated matches the actual length of wire rope paid out. If not then follow Rope Payout Calibration Procedure № 2. 2.10.3 Rope Payout Calibration Procedure № 2: Correct with the GS550 If rope payout indicated does not match actual rope payout, and if it is not possible to easily correct by following Rope Payout Calibration Procedure № 1, then follow this procedure.
2. Press Enter and Next to go to menu 4B) Sensor Calibration. 3. Press Enter to go to the password page. 4. Use Back, Next, Up, and Down to enter the user password, and then press Enter to go to 4B1) Automatic Value Calibration Wizard. 5. Press Enter to go to 4B1A). 6. Use Back and Next to select the rope payout sensor, and then press Enter to confirm communication with the sensor is possible. 7. Press Next to start the wizard. 8.
2.11.1 Recording Modes Adjust the data logger recording mode as required: 1. 2. 3. 4. Press Menu, and then Next three times. Press Enter, Next five times, and then Enter to go to menu 4F1) Data logger mode Use Up and Down to select the data logger recording mode. 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). 5. Press Enter to save any changes. 6.
2. Press Enter, and then Next five times. 3. Press Next, Enter and Next to go to menu 4F2) Adjust date. 4. The last two digits of the year should be flashing: use Up and Down to adjust the year. 5. Press Next to adjust the month. 6. The month should be flashing: Use Up and Down to adjust the month. 7. Press Next to adjust the day. 8. The day should be flashing: use Up and Down to adjust the day. 9. Press Next to adjust the time. 10.
Figure 24 Menu Page 4A1) Sensor List 4. Advance to the next empty sensor position in the sensor list. Press Next repeatedly until the LCD shows “No sensor” on the bottom line. Up to 32 sensors may be added to the sensor list. 5. The id number should flash; this means it is adjustable. Use Up and Down to program the sensor id. Tip Press Up and Down simultaneously to make the sensor id number jump directly to 15000. Press Up and Down simultaneously again to make the sensor id number jump directly to 10000.
5. The sensor id should flash, press Next, the sensor type should flash; this means it is adjustable. Use Up and Down to select “No sensor”. This will remove the sensor from the sensor list but retain the sensor id. Tip Press Next and Back simultaneously to remove the sensor from the sensor list. The id number will revert to 0, and the sensor type will revert to "No Sensor". 6. Press Enter to save any changes made to the sensor list. 7. Press Exit three times to return to the operation display. 2.
2.13.2 Repeater Communication between a GS550 and a programmed sensor can be routed through a different programmed sensor (repeater). This can be done either to extend the range of the network or to assist communication around a large radio obstacle. The battery life of the sensor repeated (source) will be reduced by about a year*. The battery life of the sensor repeater will be reduced to 35 days†. This function should not be used where it is not required. Program a sensor repeater. 1. 2. 3. 4. 5.
Important! Test all system functions after setting up or removing a repeater. Shut off and then restart the GS550; within one minute the 2 Block and Load, “M” and “A” flashing radio status lights () should remain solid. 2.13.3 Wireless Sensor Update It is possible to send a firmware update to a sensor using the GS550 (menu 4I4).
3. Portable Download Tool The portable download tool consists of a compatible personal digital assistant (PDA) and LSI software kit. Update firmware, install rated capacity charts or export data logger files using the portable download tool without removing the display from the crane. The PDA and the GS550 display connect wirelessly through the IrDA (infrared) ports and the PDA and a personal computer (PC) can be connected with a USB cable (see Figures 26 and 27).
Figure 28 Transferring Files From A Palm To A GS550 3.1 Installing PDA Software 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 The software should be installed in the default directory: C:\Program Files\Palm Follow the installation wizard step by step.
Figure 29 Palm HotSync Page 3.2.2 Transfer Firmware Files from the PDA to a GS550 1. On the PDA, start the LSI Firmware software: a. Press the house icon to go to the Home menu. b. Select the LSI Firmware icon from the Home menu. 2. On the GS550 display, press and hold Bypass while starting the display. The display will enter a safer mode and allow firmware updates. 3. Align the infrared ports of the PDA and the GS550, about 6 inches (10 centimetres) apart. 4. On the PDA, send the file: a.
3.2.3 Conserve GS550 Configuration When Updating Firmware The LSI Firmware PDA Software can conserve the actual (old) system configuration, including the sensor list and radius parameters, when updating firmware in a GS550 display. When this option is selected the PDA retrieves the configuration from the GS550 and saves it before sending the new firmware. If a problem occurs during the firmware update, then the saved configuration file will be displayed in the LSI Firmware Charts/Config list on the PDA.
2. On the PDA, press the star icon to start HotSync. HotSync will connect the PDA with the PC and update files from each. Data logger files will be transferred to the following directory of the personal computer: C:\Program Files\Palm\PALM_NAME\Backup Note: PALM_NAME is the actual name of the PDA device.
3.3 Trouble Shooting PDA Communication Issues Copy to a PDA when using several PDAs with the same PC 1. Transfer a firmware to a PDA a. In the Explorer window, right-click the file. Then, select “Send To”… and “PDA Quick Install” (see Figure 32). b. Or… double-click the firmware received in an email. Figure 32 Send To Menu 2. Usually a window will pop up to confirm the addition of this file to the list of files to be transferred to a PDA. Verify the “User” in this window.
The PDA doesn’t respond. If the PDA doesn’t appear to respond to commands or if problems occur during a transfer operation then the PDA can be reset by pressing the reset button on the back. All applications will then restart; data should not be lost. To Free Up Memory 1. Power up the Palm. With the plastic pen, press on the Home icon on the lower left side of the screen until an icon called "LS420 Download" is visible. 2. Press on the LS420 Download icon. A list of available files will be displayed. 3.
Figure 35 DataViewer Toolbar 2. Click the file folder icon to open a log file (or click File, and then Open). 3. Enter the file location. Example: A typical PDA file folder C:\Program Files\PDA\PDA_NAME\Backup\ Note: PDA_NAME is the actual name given to the PDA. 4. Select the log file to open. Only .pdb files generated by the LSI software in the Portable Download Tool are supported. Example: A typical file name for a log file generated by a GS550 data logger LSI_08_13_2004_15_31_48.PDB 3.4.
Figure 36 Exerpt Of Wind Report Column Description Date Time Sensor ID Wind (mph) Nb. Gust Max. Gust (mph) Date of event recorded Time of event recorded Wind speed sensor id number Average wind speed during the period Number of gusts exceeding the wind speed maximum limit during the period. Maximum wind speed (gust) during the period. Table 4 Wind report column headings Wind charts. The data from the Wind or Max Gust columns can be easily charted (see Figure 37). Figure 37 Maximum Gust Chart 1.
4. Certification Notes 4.1 Model Numbers The model numbers for product certified by the Federal Communications Commission (FCC – United States of America), Industry Canada (IC), and the European Community (CE) can be found in the table below.
4.2 Important Notes for Hazardous Area Certified Components Warning! 1. Understand manual before operation. 2. Replace batteries only in a non-hazardous area. Specifications For all sensors except the GS050-CSA & GS050-ATEX-CE, use 3.6V lithium batteries, Tadiran TL-5930 model. For GS050-CSA & GS050-ATEX-CE anti-two-block switches, use only alkaline ‘C’ batteries, Duracell 1.5 volts PC1400 model. Warning! 1. Substitution of components may intrinsic safety. 2.
Models Battery Type (Continued) (Continued) GS001-ATEX-CE Par Number (Continued) D Manufacturer (Continued) Voltage Per Cell Temperature Code (Continued) (Continued) T4 TL-5930 Tadiran 3.6V PC1400 Tadiran 1.
4.5 Equipment Marking Table 6 mentions the equipment marking. As you can see, each part number (P/N) has ATEX and FCC labels that you can consult for information. P/N ATEX Part Number (which ends with FCC ATEX-CE) GS050 GCxxx GS001 GS002 GS005 GS010 GS020 Inside Batt. Boxes: GCxxx GS001 GS002 GS005 GS010 GS020 Load Systems International I Model №:GC012-ATEX-CE Load Cell 5.
GS020 Intrinsically, safe sensors have the following stainless steel plate: part number UB223: Table 6 Equipment Marking 4.
4.6 GS550 Display Labels 1 2 3 4 5 Figure 38 GS550 Display Labels Label CSA Class 1 Div 2 ATEX 1 2 3 4 5 UB227 Label UB217 Label UB226 Label UB228 CSA-specific UB227 Label UB217 Label UB226 Label ---Load Systems International International: +1 281 664 1330 Web: www.loadsystems.com Email: sales@loadsystems.
4.7 Certifications Used For Class 1 Division 1 And Division 2 Class 1, Division 1 certification (intrinsically safe) is available for most LSI sensors. Class 1, Division 2 certification (non-incendiary) is available for the GS550 display. Certificate CSA #1332949 on master contract 215780 is available on request. Applicable CSA-certified requirements include: • • • • • • • • • CSA Standard C22.2 No.0.4-M2004: Bonding and grounding of electrical equipment (protective grounding) CSA Standard C22.2 No.
Increase the separation between the equipment and receiver. Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. Consult the dealer or an experienced radio/TV technician for help. In order to maintain compliance with FCC regulations, shielded cables must be used with this equipment. Operation with non-approved equipment or unshielded cables is likely to result in interference to radio and TV reception.
Antenna List LSI P/N: TA011 Description ¼ wave monopole MFG Load Systems International 4.10 EMI / EMC EMI/EMC (Electro-Magnetic Immunity & Electro-Magnetic Compatibility): EN 301 489-3 V1.4.1 (2002-08) Clause 8: Immunity tests Clause 8.2: Limits for radiated emissions from ancillary equipment, measured on a stand-alone basis (measuring a 10-m distance): Pass Clause 8.
4.
Datasheets: The following figures show all sensors, load cells and display available including the temperature and humidity levels. In addition, it is to mention that the ingress protection (IP) of equipment corresponds to 65. The ingress protection of equipment is an "international classification system for sealing effectiveness of enclosures". The first digit indicates "degree that persons are protected against contact with moving parts (other than smooth rotating shafts, etc.
Figure 40 GC012 Wireless Load Cell Figure 41 GC018 Wireless Load Cell 70 The GS550 System
Figure 42 GC060 Wireless Load Cell Figure 43 GC100 Wireless Load Cell 4.
Figure 44 GC170 Wireless Load Cell Figure 45 GS020 Wind Speed Sensor 72 The GS550 System
Figure 46 GS050 A2B Switch Figure 47 GS550 Wireless Display Environmental Conditions: Operating temperature: -35º C to 85º C (-31º F to 185º F) Humidity range: 0% to 100% for all components except for GS020 Wind Speed Sensor, that is 10% to 100% 4.
Cleaning Procedure For Load Cells Each time you are changing batteries, the equipment cleaning procedure must be performed: 1. Open the casing. 2. Replace batteries verifying the contact with batteries, and the contacts are in good conditions. 3. If contacts have some dust or some rust, clean them. Important! Ensure LED is emitting signal. 4. Remove silicone from plate of the casing. 5. Replace the silicon milinary bag used for keeping humidity. If you do not have any, remove the old one only. 6.
5.
5B) Radio Network Diagnostic 5B1) Radio network background noise 5B2) List last 32 sensors received 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 5D2) Time clock battery test 5D3) External power supply voltage 5D4) internal temperature 5D5) GS550 base station identification number 5D6) GS550 (portable) battery level 5D7) Radio (certification and frequency) 5E) Digital Input Diagnostic 5E4) Blu
6.
Luffing jib length, 4C14 Retracted boom length tolerance, 4D6 S Manual length, 4C16 Manual parameter calibration, 4B2 Memory Banks, 4E Memory Banks password protection, 4H14 N Network Options, 4I Network Options password protection, 4H17 No load deflection, 4C7 O Operation mode, 4D1 Orange wire status and self-test, 5C3 Orange wire lockout trigger, 4G6 Out of charts default working load limit, 4D3 Search for sensors, 5B3 Select sheave, 4C12 Sensor Calibration, 4B Sensor Calibration password protection,
7. LSI PRODUCT WARRANTY 2006/05/26 LIMITED WARRANTY: LOAD SYSTEMS INTERNATIONAL INC. (“LSI”) warrants that its products (the “Products”), for a period of two (2) years after delivery of such Products (the “Warranty Period”), when installed and used in accordance with specifications described in user’s manuals, technical materials and any related writings published by LSI with respect with such Products, will be free from defects in materials and workmanship.
EXCLUSION OF OTHER WARRANTIES The above warranty is the sole warranty applicable and there are no express, legal or implied warranties or conditions in relation to any Products including any implied warranty or condition of merchantability, non-infringement or fitness for a particular purpose and those otherwise arising by statute or otherwise in law or from a course of dealing or usage of trade, which are expressly disclaimed.
8. LSI Contact Information USA Corporate Office: 9223 Solon, Suite A Houston, TX 77064 Toll Free Phone: (888) 819 4355 Direct Phone: (281) 664 1330 Toll Free Fax: (888) 238 4099 Direct Fax: (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.
