SET60 E 0

SURVEYING INSTRUMENTS SET62 SET65 Electronic Total Station OPERATOR’S MANUAL 71015 90010 This is the mark of the Japan Surveying Manufacturers Association. Instruments FOREWORD FOREWORD Thank you for purchasing the SOKKIA GREEN LABEL Electronic Total Station, SET62/SET65. For the best performance of the instruments, please carefully read these instructions and keep them in a convenient location for future reference. * Except where stated, "SET" means SET62/SET65 in this manual. Screens and illustrations appearing in this manual are of SET62. General Handling Precautions Before starting work or operation, be sure to check that the instrument is functioning correctly with normal performance. Do not submerge the instrument into water. The instrument can not be submerged underwater. The instrument is designed based on the International Standard IP54, therefore it is protected from the normal rainfall. Setting the instrument on a tripod When mounting the instrument on a tripod, use a wooden tripod when possible. The vibrations that may occur when using a metallic tripod can effect the measuring precision. Installing the tribrach If the tribrach is installed incorrectly , the measuring precision could be effected. Occasionally check the adjusting screws on the tribrach. Make sure the base fixing lever is locked and the base fixing screws are tightened. Guarding the instrument against shocks When transporting the instrument, provide some protection to minimize risk of shocks. Heavy shocks may cause the measurement to be faulty. Carrying the instrument Always carry the instrument by its handgrip. Exposing the instrument to extreme heat. Do not leave the instrument in extreme heat for longer than necessary. It could adversely affect its performance. Sudden changes of temperature Any sudden change of temperature to the instrument or prism may result in a reduction of measuring distance range, i.e when taking the instrument out from a heated vehicle. Let instrument acclimate itself to ambient temperature. Battery level check Confirm battery level remaining before operating. Taking the battery out It is recommended not to take the battery out during the power is on. All the data stored is possible gone at that time. So please do your assembling or taking the battery out after the power is off. Do not hold the lower part of display unit When you take out the instrument from a carrying case, or keep into the case, please hold the hand grip and base of the instrument. Please do not hold the lower part of the display unit. 1 FOREWORD Precautions for Safe Operation For the safe use of the product and prevention of injury to operators and other persons as well as prevention of property damage, items which should be observed are indicated herein by an exclamation point within a triangle used with WARNING and CAUTION statements in this instruction manual. The definitions of the indications are listed below. Be sure you understand them before reading the manual’s main text. Definition of Indication  WARNING  CAUTION Ignoring this display and making an operation error could possibly result in death or serious injury to the operator. Ignoring this display and making an operation error could possibly result in minor injury or property damage.  This symbol indicates items for which caution (hazard warnings exclusive) is urged. Specific details are printed in or near the symbol.  This symbol indicates items which are prohibited. Specific details are printed in or near the symbol.  This symbol indicates items which must always be performed. Specific details are printed in or near the symbol. General  Warning    Do not use the unit in areas exposed to high amounts of dust or ash, in areas where there is inadequate ventilation, or near combustible materials. An explosion could occur. Do not perform disassembly or rebuilding. Fire, electric shock or burns could result. Never look at the sun through the telescope. Loss of eyesight could result.  Do not look at reflected sunlight from a prism or other reflecting object through the telescope. Loss of eyesight could result.  Direct viewing of the sun during sun observation will cause loss of eyesight. Use solar filter (option) for sun observation.  When securing the instrument in the carrying case make sure that all catches, including the side catches, are closed. Failure to do so could result in the instrument falling out while being carried, causing injury.  Caution  Do not use the carrying case as a footstool. The case is slippery and unstable so a person could slip and fall off it.  Do not place the instrument in a case with a damaged case or belt. The case or instrument could be dropped and cause injury.  Do not wield or throw the plumb bob. A person could be injured if struck.  Secure handle to main unit. Failure to properly secure the handle could result in the unit falling off while being carried, causing injury.  Tighten the adjustment tribrach clamp securely. Failure to properly secure the clamp could result in the tribrach falling off while being carried, causing injury. 2 FOREWORD Power Supply  Warning  Do not short circuit. Heat or ignition could result.  Do not place articles such as clothing on the battery charger while charging batteries. Sparks could be induced, leading to fire.  Do not use voltage other than the specified power supply voltage. Fire or electrical shock could result.  Do not use batteries other than those designated. An explosion could occur, or abnormal heat generated, leading to fire.   Do not use damaged power cords, plugs or loose outlets. Fire or electric shock could result. Do not use power cords other than those designated. Fire could result.  Use only the specified battery charger to recharge batteries. Other chargers may be of different voltage rating or polarity, causing sparking which could lead to fire or burns.  Do not use the battery or charger for any other equipment or purpose. Fire or burns caused by ignition could result.  Do not heat or throw batteries or chargers into fire. An explosion could occur, resulting in injury.  To prevent shorting of the battery in storage, apply insulating tape or equivalent to the terminals. Otherwise shorting could occur, resulting in fire or burns.  Do not use batteries or the battery charger if wet. Resultant shorting could lead to fire or burns.  Do not connect or disconnect power supply plugs with wet hands. Electric shock could result.  Caution  Do not touch liquid leaking from batteries. Harmful chemicals could cause burns or blisters. Tripod  Warning  When mounting the instrument to the tripod, tighten the centering screw securely. Failure to tighten the screw properly could result in the instrument falling off the tripod, causing injury.  Tighten securely the leg fixing screws of the tripod on which the instrument is mounted. Failure to tighten the screws could result in the tripod collapsing, causing injury.  Do not carry the tripod with the tripod shoes pointed at other persons. A person could be injured if struck by the tripod shoes.  Keep hands and feet away from the tripod shoes when fixing the tripod in the ground. A hand or foot stab wound could result.  Tighten the leg fixing screws securely before carrying the tripod. Failure to tighten the screws could lead to the tripod legs extending, causing injury. 3 FOREWORD User 1)This product is for professional use only! The user is required to be a qualified surveyor or have a good knowledge of surveying, in order to understand the user and safety instructions, before operating, inspecting or adjusting. 2)Wear the required protectors (safety shoes, helmet, etc.) when operating. Exceptions from Responsibility 1)The user of this product is expected to follow all operating instructions and make periodic checks of the product’s performance. 2)The manufacturer, or its representatives, assumes no responsibility for results of a faulty or intentional usage or misuse including any direct, indirect, consequential damage, and loss of profits. 3)The manufacturer, or its representatives, assumes no responsibility for consequential damage, and loss of profits by any disaster, (an earthquake, storms, floods etc.). A fire, accident, or an act of a third party and/or a usage any other usual conditions. 4)The manufacturer, or its representatives, assumes no responsibility for any damage, and loss of profits due to a change of data, loss of data, an interruption of business etc., caused by using the product or an unusable product. 5)The manufacturer, or its representatives, assumes no responsibility for any damage, and loss of profits caused by usage except for explained in the user manual. 6)The manufacturer, or its representatives, assumes no responsibility for damage caused by wrong movement, or action due to connecting with other products. 4 FOREWORD Contents FOREWORD . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 General Handling Precautions. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1 Precautions for Safe Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2 User . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4 Exceptions from Responsibility . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4 Contents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5 1 NOMENCLATURE AND FUNCTIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1 1.1 1.2 1.3 1.4 1.5 1.6 Nomenclature . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1 Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-3 Operating Key. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-4 Function Key (Soft Key) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-5 Star key mode. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-6 Serial signal RS-232C connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-7 2 PREPARATION FOR MEASUREMENT . . . . . . . . . . . . . . . . . . . . . . . . . . 2-1 2.1 2.2 2.3 2.4 2.5 Setting Instrument Up For Measurement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-1 Power Switch Key ON . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-2 Battery Power Remaining Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-3 Vertical and Horizontal Angle Tilt Correction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-4 How to Enter Alphanumeric characters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-6 2.5.1 How to Enter Alphanumeric Characters. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-6 3 ANGLE MEASUREMENT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-1 3.1 Measuring Horizontal Angle Right and Vertical Angle . . . . . . . . . . . . . . . . . . . . . . . . . 3-1 3.2 Switching Horizontal Angle Right/Left. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-2 3.3 Measuring from the Required Horizontal Angle . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-2 3.3.1 Setting by Holding the Angle . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-2 3.3.2 Setting a Horizontal Angle from the Keys . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-3 3.4 Vertical Angle Percent Grade(%) Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-3 3.5 Repetition Angle Measurement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-4 3.6 Buzzer Sounding for Horizontal Angle 90° Increments. . . . . . . . . . . . . . . . . . . . . . . . . 3-5 3.7 Compasses (vertical angle) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-6 4 DISTANCE MEASUREMENT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-1 4.1 4.2 4.3 4.4 4.5 4.6 4.7 Setting of the Atmospheric Correction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-1 Setting of the Correction for Prism Constant . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-1 Distance Measurement (Continuous Measurement) . . . . . . . . . . . . . . . . . . . . . . . . . . 4-1 Distance Measurement (N-time Measurement/Single Measurement) . . . . . . . . . . . . . . . . . . . 4-2 Fine Mode/Tracking Mode/Coarse Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-3 Stake Out (S.O) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-4 Offset Measurement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-5 4.7.1 Angle Offset . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-6 4.7.2 Distance Offset Measurement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-8 4.7.3 Plane Offset Measurement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-10 4.7.4 Column Offset Measurement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-12 5 COORDINATE MEASUREMENT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-1 5.1 5.2 5.3 5.4 Setting Coordinate Values of Occupied Point. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-1 Setting Height of the Instrument . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-2 Setting Height of Target (Prism Height) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-2 Execution of Coordinate Measuring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-3 6 SPECIAL MODE (Menu Mode). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-1 6.1 Application Measurement (PROGRAMS) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-2 6.1.1 Remote Elevation measurement (REM) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-2 6.1.2 Missing Line Measurement (MLM). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-5 6.1.3 Setting Z Coordinate of Occupied Point. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-8 6.1.4 Area Calculation. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-11 6.1.5 Point to Line Measurement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-14 6.2 Setting the GRID FACTOR. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-16 5 FOREWORD 6.3 Setting Illumination of Display and Cross Hairs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-17 6.4 Setting Mode 1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-18 6.4.1 Setting Minimum Reading . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-18 6.4.2 Auto Power Off. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-19 6.4.3 Vertical and Horizontal Angle Tilt correction (Tilt ON/OFF) . . . . . . . . . . . . . . . . 6-19 6.4.4 Systematic Error of Instrument Correction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-20 6.4.5 Heater ON/OFF . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-20 6.4.6 Setting RS-232C communication with external device . . . . . . . . . . . . . . . . . . . 6-21 6.5 Setting Contrast of Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-22 6.6 ROAD . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-23 6.6.1 Input Start Point . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-24 6.6.2 Input Road Data. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-25 6.6.3 Search Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-29 6.6.4 Edit Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-29 6.6.5 Set OCC and BS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-30 6.6.6 Setout Road . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-32 6.6.7 Select a File . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-33 6.6.8 Initialize ROAD data. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-33 7 DATA COLLECTION. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-1 7.1 Preparation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-3 7.1.1 Selecting a File for Data Collection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-3 7.1.2 Selecting a Coordinate File for Data Collection . . . . . . . . . . . . . . . . . . . . . . . . . . 7-4 7.1.3 Occupied Point and Backsight Point . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-4 7.2 Operational Procedure of “DATA COLLECT” . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-7 7.3 Data Collect Offset Measurement mode. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-10 7.3.1 Angle Offset Measurement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-10 7.3.2 Distance Offset Measurement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-12 7.3.3 Plane Offset Measurement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-14 7.3.4 Column Offset Measurement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-16 7.4 NEZ Auto Calculation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-17 7.5 Point to Line Measurement. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-18 7.5.1 To change to the point to line measurement . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-18 7.5.2 Executing a point to line measurement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-19 7.6 Editing PCODE Library [PCODE INPUT] . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-20 7.7 Setting Parameter of Data Collect [CONFIG.] . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-21 8 LAYOUT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-1 8.1 Preparation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-3 8.1.1 Setting the GRID FACTOR . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-3 8.1.2 Selecting Coordinate Data File . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-4 8.1.3 Setting Occupied Point . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-5 8.1.4 Setting Backsight Point . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-6 8.2 Executing a Layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-8 8.2.1 Layout of Coordinates of Point to Line . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-10 8.3 Setting a New Point . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-11 8.3.1 Side Shot Method . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-11 8.3.2 Resection Method . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-13 9 MEMORY MANAGER MODE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-1 9.1 Display Internal Memory Status . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-2 9.2 Searching Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-3 9.2.1 Measured Data Searching . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-3 9.2.2 Coordinate Data Searching . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-5 9.2.3 PCODE LIBRARY Searching. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-6 9.3 FILE MAINTENANCE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-7 9.3.1 Rename a File . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-8 9.3.2 Searching Data in a File. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-8 9.3.3 Deleting a File . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-9 9.4 Coordinate Data Direct Key Input . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-10 6 FOREWORD 9.4.1 Coordinate data input. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-10 9.4.2 PTL (Point to Line) data input . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-11 9.5 Delete a Coordinate Data from a File . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-12 9.6 Editing PCODE Library . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-13 9.7 Data Communications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-14 9.7.1 Sending Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-14 9.7.2 Loading Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-15 9.7.3 Setting Parameter of Data Communications . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-16 9.8 Initialization . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-17 10 SET AUDIO MODE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-1 11 SETTING THE PRISM CONSTANT VALUE . . . . . . . . . . . . . . . . . . . . 11-1 12 SETTING ATMOSPHERIC CORRECTION . . . . . . . . . . . . . . . . . . . . . 12-1 12.1 Calculation of Atmospheric Correction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12-1 12.2 Setting of Atmospheric Correction Value . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12-1 13 CORRECTION FOR REFRACTION AND EARTH CURVATURE . . . . 13-1 13.1 Distance Calculation Formula. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13-1 14 POWER SOURCE AND CHARGING . . . . . . . . . . . . . . . . . . . . . . . . . . 14-1 14.1 On-board Battery BT-G1S . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14-1 15 DETACH/ATTACH OF TRIBRACH. . . . . . . . . . . . . . . . . . . . . . . . . . . . 15-1 16 SELECTING MODE. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16-1 16.1 Items of the Selecting Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16-1 16.2 How to Set Selecting Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16-3 17 CHECK AND ADJUSTMENT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17-1 17.1 Checking and adjusting of instrument constant . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17-1 17.2 Checking the Optical Axis. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17-2 17.3 Checking/Adjusting the Theodolite Functions. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17-3 17.3.1 Checking/Adjusting the Plate Level . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17-4 17.3.2 Checking/Adjusting the Circular Level . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17-4 17.3.3 Adjustment of the Vertical Cross-hair . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17-5 17.3.4 Collimation of the Instrument . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17-6 17.3.5 Checking/Adjusting the Optical Plummet Telescope . . . . . . . . . . . . . . . . . . . . 17-7 17.3.6 Adjustment of Vertical Angle 0 Datum . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17-8 17.4 How to Set the Instrument Constant Value. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17-9 17.5 Adjustment of Compensation Systematic Error of Instrument . . . . . . . . . . . . . . . . 17-10 17.6 Reference frequency check mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17-12 18 PRECAUTIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18-1 19 OPTIONAL ACCESSORIES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19-1 20 BATTERY SYSTEM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20-1 21 TARGET SYSTEM. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21-1 22 ERROR DISPLAYS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22-1 23 SPECIFICATIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23-1 24 REGULATIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24-1 APPENDIX ......................................................................................Appendix-1 Dual Axis Compensation ........................................................................................Appendix-1 Precaution when Charging or Storing Batteries. . . . . . . . . . . . . . . . . . . . . . . . . . . .Appendix-3 7 1 NOMENCLATURE AND FUNCTIONS 1 NOMENCLATURE AND FUNCTIONS 1.1 Nomenclature Handle locking screw Objective lens Instrument center mark Optical plummet telescope Display unit Serial signal connector Circular level Adjustment screw for circular level Leveling screw Base Tribrach fixing lever 1-1 1 NOMENCLATURE AND FUNCTIONS Sighting collimator Battery locking lever Telescope focusing knob On-board battery BT-G1S Telescope grip Telescope eyepiece Instrument center mark Vertical motion clamp Vertical tangent screw Horizontal tangent screw Plate level Horizontal motion clamp Display unit 1-2 1 NOMENCLATURE AND FUNCTIONS 1.2 Display z Display The display uses a dot matrix LCD which has 4 lines and 20 characters per line. In general, the upper three lines display measured data, and the bottom line displays the soft key function which changes with the measuring mode. z Contrast and Illumination The contrast and illumination of display window are adjusted. see Chapter 6 “SPECIAL MODE (Menu Mode)”. or section 1.5 “Star key mode”. z Heater (Automatic) The built-in automatic heater functions when the temperature is below 0°C. This keeps the display's speed up at temperatures lower than 0°C. To set the heater ON/OFF, see section 6.4.5 “Heater ON/ OFF” . The operating time will become short if a heater is used. z Example V : 90°10'20" HR: 120°30'40" HR: 120°30'40" HD* 65.432 m VD: 12.345 m MEAS MODE S/A P1↓ 0SET HOLD HSET P1↓ Angle measurement mode Distance measurement mode V-angle H-angle Horizontal-angle : 120°30’40” Horizontal distance : 65.432m Relative elevation : 12.345m : 90°10’20” : 120°30’40” Feet and inch unit Feet unit HR: 120°30'40" HD* 123.45 f VD: 12.34 f MEAS MODE S/A P1↓ HR: 120°30'40" HD* 123.04.6f VD: 12.03.4f MEAS MODE S/A P1↓ Horizontal-angle : 120°30’40” Horizontal distance : 123ft4in6/8in Relative elevation : 12ft3in4/8in Horizontal-angle : 120°30’40” Horizontal distance : 123.45ft Relative elevation : 12.34ft z Display marks Display Contents Display Content V V-angle * EDM working HR H-angle right m Meter unit HL H-angle left f Feet and inch unit HD Horizontal distance VD Relative elevation SD Slope distance N N coordinate E E coordinate Z Z coordinate 1-3 1 NOMENCLATURE AND FUNCTIONS 1.3 Operating Key Alphanumeric characters key Keys Name of Key  Star key Coordinate meas.key Function Star key mode is used for each presetting or displaying as follows. 1 Contrast of the display 2 Reticle illumination 3 Back Light 4 Tilt correction 5 Set audio mode Coordinate measurement mode Distance meas.key Distance measurement mode. ANG Angle meas.key Angle measurement mode POWER Power source key ON/OFF of power source MENU Menu key Switches menu mode and normal mode. To set application measurements and adjust in the menu mode. ESC Escape key z Returning to the measurement mode or previous layer mode from the mode set. z To be DATA COLLECTION mode or LAYOUT mode directly from the normal measurement mode. z It is also possible to use as Record key in normal measurement mode. To select function of Escape key, see Chapter 16 “SELECTING MODE”. ENT Enter key Press at the end of inputting values. F1–F4 Soft key ( Function key) Responds to the message displayed. 1-4 1 NOMENCLATURE AND FUNCTIONS 1.4 Function Key (Soft Key) The Soft Key message is displayed at the bottom line of display. The functions are according to the displayed message. Angle measurement mode Distance measurement mode V: 90°10'20" HR:120°30'40" HR:120°30'40" HD*[r] << m VD: m MEAS MODE S/A P1↓ 0SET HOLD HSET P1↓ TILT REP H-BZ R/L [F1] [F2] V% P2↓ CMPS P3↓ [F3] OFSET S.O m/f/i P2↓ Coordinates measurement mode N: 123.456 m E: 34.567 m Z: 78.912 m MEAS MODE S/A [F4] Soft keys R.HT INSHT OCC P2↓ OFSET --- m/f/i P3↓ Angle measurement Page 1 2 3 Soft Display key mark Function F1 0SET Angle of Horizontal is set to 0°00'00" F2 HOLD Hold the horizontal angle F3 HSET Sets a required horizontal angle by entering numerals. F4 P1↓ The function of soft keys is shown on next page (P2). F1 TILT Setting Tilt Correction If ON, the display shows tilt correction value. F2 REP Repetition angle measurement mode F3 V% Vertical angle percent grade(%) mode F4 P2↓ The function of soft keys is shown on next page (P3). F1 H-BZ Sets the buzzer sound for every horizontal angle 90° F2 R/L F3 CMPS F4 P3↓ Switches R/L rotation of horizontal angle. Switches the COMPASS ON/OFF of vertical angle. The function of soft keys is shown on next page (P1). Distance measurement mode 1 F1 MEAS F2 MODE Sets a measuring mode, Fine/Coarse/Tracking F3 F4 F1 2 P1↓ Start measuring S/A Select set audio mode P1↓ The function of soft keys is shown on next page (P2). OFSET Select Off-set measurement mode F2 S.O Select stake out measurement mode F3 m/f/i Switches meter, feet or feet and inch unit. F4 P2↓ The function of soft keys is shown on next page (P1). 1-5 1 NOMENCLATURE AND FUNCTIONS Coordinate measurement mode 1 2 F1 MEAS F2 MODE Sets a measuring mode, Fine/Coarse/Tracking F3 S/A Select set audio mode F4 P1↓ The function of soft keys is shown on next page (P2). F1 R.HT F2 F3 F4 F1 3 Start measuring Sets a prism height by input values. INSHT Sets an instrument height by input values. OCC Sets an instrument coordinate point by input values. P2↓ The function of soft keys is shown on next page (P3). OFSET Select Off-set measurement mode F3 m/f/i Switches meter, feet or feet and inch unit. F4 P3↓ The function of soft keys is shown on next page (P1). 1.5 Star key mode Press the () key to view the instrument options. The following instrument options can be selected from the (): 1. Adjustment the contrast of the display (0 to 9 steps) [ or ] 2. Adjustment the reticle illumination (1 to 9 steps) [ or ] 3. Turn the backlight of the display ON/OFF [F1] 4. Setting Tilt Correction [F2] 5. S/A (set audio) mode [F4] Note: Star key mode does not function when the same function as the function assigned to the star key mode is performed from the main routine. V : 77°42'30" HR : 120°30'40" 0SET HOLD HSET P1↓ Press the star () key. key Display mark Function F1 Turn the backlight of the display ON/OFF F2 Setting Tilt Correction If ON, the display shows tilt correction value. F4 The light acceptance quantity level for the EDM (SIGNAL), the atmospheric correction value (PPM) and correction value of prism constant (PSM) are displayed. or Adjust the contrast of the display (0 to 9 steps) or Adjust the Reticle Illumination (1 to 9 steps) ON/OFF of the reticle illumination is linked with ON/OFF of the backlight. 1-6 1 NOMENCLATURE AND FUNCTIONS z Adjustment the contrast (0 to 9) of the display This enable you to adjust the contrast of the display. Press the up or down arrow keys to adjust the contrast. z Adjustment the reticle illumination (1 to 9) This enable you to adjust the reticle illumination. z Turn the display back light ON/OFF To turn the back light ON, press the [F1] key. Press [F1] again to turn the back light OFF. z Tilt correction The tilt setting mode performed here will not be memorized after powering OFF. To set TILT correction in the initialized setting (it is memorized after powering OFF), see Section 6.4.3 “Vertical and Horizontal Angle Tilt correction (Tilt ON/OFF)”. z Set audio mode The light acceptance quantity level (Signal level) is displayed in this mode. When reflected light from the prism is received, a buzzer sounds. This function is good for easy collimation when the target is difficult to find. Press the [F4] key to view the set audio screen. (1) To stop the buzzer, refer to Chapter 16 “SELECTING MODE”. (2) Also, it is possible to display the signal level in Distance Measuring Mode. The temperature, pressure, PPM, and PSM can be viewed in set audio mode. Refer to Chapter 10 “SET AUDIO MODE”, Chapter 11 “SETTING THE PRISM CONSTANT VALUE” and Chapter 12 “SETTING ATMOSPHERIC CORRECTION”, for further instructions. 1.6 Serial signal RS-232C connector The serial signal connector is used for connecting the SET with a computer or TOPCON Data Collector, which enables the computer to receive measured data from the SET or to send preset data of horizontal angle, etc. to it. z The following data will be output at each mode. Mode Output Angle mode (V, HR or HL) V, HR (or HL) Horizontal distance mode (HR, HD, VD) V, HR, HD, VD Slope distance mode (V, HR, SD) V, HR, SD, HD Coordinate mode N, E, Z, HR (or V, HR, SD, N, E, Z) z The display and the output at the coarse mode are the same as the contents above. z Output at the tracking mode is displayed as distance data only. The details necessary for the connection with the SET is obtained from its Interface Manual which is optionally available. Please refer to the manual. 1-7 2 PREPARATION FOR MEASUREMENT 2 PREPARATION FOR MEASUREMENT 2.1 Setting Instrument Up For Measurement Mount the instrument to the tripod. Level and center the instrument precisely to insure the best performance. Use tripods with a tripod screw of W5/8-11 (JIS B 7907: 2002). Reference: Leveling and Centering the Instrument 1. Setting up the Tripod First, extend the extension legs to suitable lengths and tighten the screws on their midsections. 2. Attaching the Instrument on the Tripod Head Place the instrument carefully on the tripod head and slide the instrument by loosening the tripod screw. If the plumb bob is positioned right over the center of the point, slightly tighten the tripod screw. 3. Roughly Leveling the Instrument by Using the Circular Level 1 Turn the leveling screws A and B to move the bubble in the circular level. The bubble is now located on a line perpendicular to a line running through the centers of the two leveling screws being adjusted. 2 Leveling screw C 3 Leveling screw C Leveling screw A Leveling screw B Rotate the instrument 90° (100g) around its vertical axis and turn the remaining leveling screw or C to center the bubble once more. Repeat the procedures 1 and 2 for each 90° (100g) rotation of the instrument and check whether the bubble is correctly centered for all four points. 5. Centering by Using the Optical Plummet Telescope Adjust the eyepiece of the optical plummet telescope to your eyesight. Slide the instrument by loosening the tripod screw, place the point on the center mark, and then tighten the tripod screw. Sliding the instrument carefully not to rotate that allows you to get the least dislocation of the bubble. Point Turn the leveling screw C to bring the bubble to the center of the circular level. 4. Centering by Using the Plate Level 1 Rotate the instrument horizontally by using the Horizontal motion/clamp screw and place the plate level parallel with the line connecting leveling screws A and B, and then bring the bubble to the center of the plate level by turning leveling screws A and B. 2 Center mark 6. Completely Leveling the Instrument Leveling the instrument precisely in a similar way to 4. Rotate the instrument and check to see that the bubble is in the center of the plate level regardless of telescope direction, then tighten the tripod screw hard. Leveling screw A Leveling screw B 2-1 2 PREPARATION FOR MEASUREMENT 2.2 Power Switch Key ON 1 Confirm the instrument is leveled. 2 Turn the power switch ON. Power switch key ON SOKKIA SET62 V : HR: 0SET 90°10'20" 0°00'00" HOLD Battery Power Remaining Display HSET P1↓ z Confirm the battery power remaining display. Replace with charged battery or charge when battery level is low or indicates “Battery empty”. see Section 2.3 “Battery Power Remaining Display”. z Contrast adjustment You can confirm prism constant value (PSM) , atmospheric correction value (PPM) and you can also adjust the contrast of the display when the instrument is turned on. To display this screen, see Chapter 16 “SELECTING MODE”. CONTRAST ADJUSTMENT PSM: ↓ 0.0 PPM 0.0 ↑ - - ENTER This enables you to adjust the brightness by pressing the [F1](↓) or [F2](↑) key. To memorize the setting value after powering off, press [F4](ENTER) key. 2-2 2 PREPARATION FOR MEASUREMENT 2.3 Battery Power Remaining Display Battery power remaining display indicates the power condition. V : HR: 90°10'20" 0°00'00" 0SET HOLD Measurement is possible. HSET P1↓ The power is poor. The battery should be recharged or replaced. Battery power remaining display Blinking <Battery empty> Other displays disappear. Note: 1 2 3 Measurement is impossible. Need to recharge or replace the battery. The battery operating time will vary depending on the environmental conditions such as ambient temperature, charging time, the number of times of charging and discharging etc. It is recommended for safety to charge the battery beforehand or to prepare spare full charged batteries. For general usage of the battery, see Chapter 14 “POWER SOURCE AND CHARGING”. The battery power remaining display shows the power level regarding to the measurement mode now operating. The safety condition indicated by the battery power remaining display in the angle measurement mode does not necessarily assure the battery’s ability to be used in the distance measurement mode. It may happen that the mode change from the angle mode to the distance mode will stop the operation because of insufficient battery power for the distance mode which consumes more power than angle mode. 2-3 2 PREPARATION FOR MEASUREMENT 2.4 Vertical and Horizontal Angle Tilt Correction When the tilt sensors are activated, automatic correction of vertical and horizontal angle for mislevelment is displayed. To ensure a precise angle measurement, tilt sensors must be turned on. The display can also be used to fine level the instrument. If the (TILT OVER) display appears the instrument is out of automatic compensation range and must be leveled manually. Zenith Zenith Standing axis Standing axis Inclination of the standing axis in the Y direction Inclination of the standing axis in the X direction Trunnion axis Horizontal z SET compensates both the vertical angle and the horizontal angle readings due to inclination of the standing axis in the X and Y directions . z For more information about dual axis compensation, refer to APPENDIX 1 “Dual Axis Compensation”. When the instrument is out of compensation. (TILT OVER) V : HR: ° ° ' ' " " <X TILT OVER> Standing Axis in the X direction out of range V : HR: ° ° ' ' " " <Y TILT OVER> Standing Axis in the Y direction out of range V : HR: ° ° ' ' " " <XY TILT OVER> Standing Axis in the X and Y directions out of range z To set auto tilt correction from the moment that power is on, see Section 6.4.3 “Vertical and Horizontal Angle Tilt correction (Tilt ON/OFF)”. z The display of Vertical or Horizontal angle is unstable when instrument is on an unstable stage or a windy day. You can turn off the auto tilt correction function of V/H angle in this case. 2-4 2 PREPARATION FOR MEASUREMENT z Setting Tilt Correction by Soft Key To enable you to select tilt ON/OFF function. setting is not memorized after power is OFF. [Example] Setting X Tilt OFF Operating procedure Option 1 Press [F4] key to get the function page 2. [F4] Display V : HR: 90°10'20" 120°30'40" 0SET HOLD HSET TILT 2 Press [F1](TILT) key. In case ON is already selected, the display shows tilt correction value. [F1] REP V% P1↓ P2↓ TILT SENSOR:[X-ON] X:-0°00'25" X-ON XY-ON OFF --- 3 Press [F3](OFF) key. [F3] TILT SENSOR: [OFF] X-ON XY-ON OFF --4 Press [ESC] key. [ESC] V : HR: 90°10'20" 120°30'40" 0SET HOLD HSET P1↓ z The setting mode performed here will not be memorized after powering OFF. To set TILT correction in the initialized setting (it is memorized after powering OFF), see Section 6.4.3 “Vertical and Horizontal Angle Tilt correction (Tilt ON/OFF)”. 2-5 2 PREPARATION FOR MEASUREMENT 2.5 How to Enter Alphanumeric characters This enables you to enter alphanumeric characters such as the instrument height, prism height, occupied point, backsight point etc. 2.5.1 How to Enter Alphanumeric Characters z How to select a item [Example setting] Occupied point in the data collection mode. The arrow indicates a item to enter. PT# →ST-01 ID : INS.HT: 0.000 m INPUT SRCH REC OCNEZ The arrow line moves up or down when the [ ] key or [ ] key is pressed. [ ] or [ ] PT# :ST-01 ID → INS.HT: 0.000 m INPUT SRCH REC OCNEZ PT# :ST-01 ID : INS.HT→ 0.000 m INPUT SRCH REC OCNEZ Alphanumeric characters key 2-6 2 PREPARATION FOR MEASUREMENT z How to enter characters [Example setting] SOKKIA-1 1 Move the arrow to enter a item using the [ or [ ] ] key. PT# → ID : INS.HT: 0.000 m INPUT SRCH REC OCNEZ 2 Press the [F1] (INPUT) key. The arrow changes to the equal (=). The instrument switches to numerical input mode. 3 Press the [F1] [ALP] key. The instrument switches to alphabetical input mode. 4 Enter letters of the alphabet by pressing the alphanumeric characters key. Example: [1] (STU) key is pressed once. 5 Enter other letters of the alphabet in the same way. 6 Press the [F1] (NUM) key, again. The instrument switches back to numerical input mode. 7 Enter numbers by pressing the alphanumeric characters key. Example: [ - ], [1] key is pressed. PT# = ID : INS.HT: 0.000 m [ALP][SPC][CLR][ENT] PT# = ID : INS.HT: 0.000 m [NUM][SPC][CLR][ENT] PT# =S ID : INS.HT: 0.000 m [NUM][SPC][CLR][ENT] PT# =SOKKIA ID : INS.HT: 0.000 m [NUM][SPC][CLR][ENT] PT# =SOKKIA ID : INS.HT: 0.000 m [ALP][SPC][CLR][ENT] PT# =SOKKIA-1 ID : INS.HT: 0.000 m [ALP][SPC][CLR][ENT] 8 Press [F4](ENT) key. The arrow moves to next item. Select next character in the same manner. PT# =SOKKIA-1 → ID INS.HT: 0.000 m [NUM][SPC][CLR][ENT] z To correct a character, move the cursor to correct character by pressing [ again. 2-7 ] or [ ] key and enter 3 ANGLE MEASUREMENT 3 ANGLE MEASUREMENT 3.1 Measuring Horizontal Angle Right and Vertical Angle Make sure the mode is in Angle measurement. Operating procedure Operation 1 Collimate the 1st target (A). Collimate A Display V : 90°10'20" HR: 120°30'40" 0SET HOLD HSET P1↓ 2 Set horizontal angle of target A at 0° 00' 00". H ANGLE 0 SET > OK? [F1] Press the [F1](0 set) key and press the [F3](YES) key. --- --- [YES][NO] [F3] V : HR: 90°10'20" 0°00'00" 0SET HOLD HSET P1↓ 3 Collimate the 2nd target (B). Collimate B The required V/H angle to target B will be displayed. V : 98°36'20" HR: 160°40'20" 0SET HOLD HSET P1↓ Reference: How to Collimate 1 2 3 Point the telescope toward the light. Turn the diopter ring and adjust the diopter so that the cross hairs are clearly observed. (Turn the diopter ring toward you first and then backward to focus.) Aim the target at the peak of the triangle mark of the sighting collimator. Allow a certain space between the sighting collimator and yourself for collimating. Focus the target with the focusing knob. *If parallax is created between the cross hairs and the target when viewing vertically or horizontally while looking into the telescope, focusing is incorrect or diopter adjustment is poor. This adversely affects precision in measurement or survey Eliminate the parallax by carefully focusing and using diopter adjustment. Focusing knob Telescope eyepiece (Diopter ring) ∞ 3-1 ∞ ∞ ∞ 3 ANGLE MEASUREMENT 3.2 Switching Horizontal Angle Right/Left Make sure the mode is Angle measurement. Operating procedure Operation 1 Press the [F4](↓) key twice to get the function [F4] twice on page 3. Display V : 90°10'20" HR: 120°30'40" 0SET 2 Press the [F2](R/L) key. [F2] The mode Horizontal angle Right (HR) switches to Left (HL) mode. HOLD HSET P1↓ TILT REP V% P2↓ H-BZ R/L CMPS P3↓ V : 90°10'20" HL: 239°29'20" H-BZ R/L CMPS P3↓ 3 Measure as HL mode. z Every time pressing the [F2](R/L) key, HR/HL mode switches. 3.3 Measuring from the Required Horizontal Angle 3.3.1 Setting by Holding the Angle Make sure the mode is angle measurement. Operating procedure Operation 1 Set the required horizontal angle, using Display angle Horizontal tangent screw. Display V : 90°10'20" HR: 130°40'20" 0SET HOLD HSET P1↓ 2 Press the [F2](HOLD) key. [F2] 3 Collimate the target. H ANGLE HOLD HR= 130°40'20" > SET ? --- --- [YES][NO] Collimate 4 Press the [F3](YES) key to finish holding the [F3] horizontal angle.*1) The display turns back to normal angle measurement mode. V : 90°10'20" HR: 130°40'20" 0SET HOLD HSET P1↓ *1) To return to the previous mode, press the [F4](NO) key. 3-2 3 ANGLE MEASUREMENT 3.3.2 Setting a Horizontal Angle from the Keys Make sure the mode is Angle measurement. Operating procedure Operation 1 Collimate the target. Collimate Display V : 90°10'20" HR: 170°30'20" 0SET HOLD HSET P1↓ 2 Press the [F3](HSET) key. [F3] 3 Input the required horizontal angle by 70.4020 [F4] using keys. *1) For example: 70°40'20" H ANGLE SET HR= --- --- [CLR][ENT] V : HR: 90°10'20" 70°40'20" 0SET HOLD HSET P1↓ When completed, normal measuring from the required Horizontal angle is possible. *1) To enter Alphanumeric characters, see Section 2.5 “How to Enter Alphanumeric characters”. 3.4 Vertical Angle Percent Grade(%) Mode Make sure the mode is Angle measurement. Operating procedure Operation 1 Press the [F4](↓) key to get the function on page 2. [F4] Display V : 90°10'20" HR: 170°30'20" 0SET HOLD HSET P1↓ TILT 2 Press the [F3](V%) key. *1) [F3] REP V% P2↓ V : -0.30 % HR: 170°30'20" TILT REP V% P1↓ *1) Every time pressing the [F3](V%) key, the display mode switches. z When the measurement is carried out over ±45° (±100%) from the horizontal, the display shows <OVER>. 3-3 3 ANGLE MEASUREMENT 3.5 Repetition Angle Measurement z Repetition angle measurement can be done by horizontal angle right measurement mode. Make sure the mode is Horizontal Angle Right measurement. Operating procedure Operation 1 Press the [F4](↓) key to get the function on page 2. [F4] Display V : 90°10'20" HR: 170°30'20" 0SET HOLD HSET P1↓ TILT 2 Press the [F2](REP)key. [F2] [F3] 4 Collimate the target A and press the [F1] (0SET) key. 5 Press the [F3] (YES) key. 6 Collimate the target B using the horizontal clamp and tangent screw. Press the [F4](HOLD) key. 7 Recollimate target A using the horizontal clamp and tangent screw, and press the [F3](REL)key. 8 Recollimate target B using the horizontal clamp and tangent screw, and press the [F4](HOLD) key. 9 Repeat 7 to 8 to measure the desired number of repetitions. Collimate A [F1] V% P2↓ REPETITION ANGLE > OK? --- 3 Press the [F3](YES) key. REP --- [YES][NO] REP-ANGLE COUNT[ 0] Ht: 0°00'00" Hm: 0SET V/H REL HOLD REPETITION ANGLE INITIALIZE > OK? --- --- [YES][NO] [F3] REP-ANGLE COUNT[ 0] Ht: 0°00'00" Hm: 0SET V/H REL HOLD Collimate B [F4] REP-ANGLE COUNT[ 1] Ht: 45°10'00" Hm: 45°10'00" 0SET V/H REL HOLD Collimate A [F3] REP-ANGLE COUNT[ 1] Ht: 45°10'00" Hm: 45°10'00" 0SET V/H REL HOLD Collimate B [F4] REP-ANGLE COUNT[ 2] Ht: 90°20'00" Hm: 45°10'00" 0SET V/H REL HOLD REP-ANGLE COUNT[ 4] Ht: 180°40'00" Hm: 45°10'00" 0SET V/H REL HOLD [Example] 4 measurement 3-4 3 ANGLE MEASUREMENT 10 To return to the normal angle mode, press the [ESC] or [F2] [F2](V/H) key or [ESC] key. 11 Press the [F3](YES) key. [F3] REPETITION ANGLE Exit > OK? --- --- [YES][NO] V : 90°10'20" HR: 170°30'20" 0SET HOLD HSET P1↓ z Horizontal angle can be accumulated up to (3600°00'00" – minimum reading) (horizontal angle right). In case of 5 second reading, horizontal angle can be accumulated up to +3599°59'55". z Error will be displayed when the results differ from first measurement by more than ±30". 3.6 Buzzer Sounding for Horizontal Angle 90° Increments When the horizontal angle falls in the range of less than ± 1° of 0°, 90°, 180° or 270°, the buzzer sounds. Buzzer stops only when the horizontal angle is adjusted to 0°00’00”, 90°00’00”, 180°00’00” or 270°00’00”. This setting is not memorized after powering off. Refer to 16 “SELECTING MODE” to set the initial setting (memorized after powering off). Make sure the mode is Angle measurement. Operating procedure Operation 1 Press the [F4](↓) key twice to get the function [F4] twice on page 3. 2 Press the [F1](H-BZ) key. [F1] The data previously set is shown. Display V : 90°10'20" HR: 170°30'20" 0SET HOLD H-BZ R/L HSET P1↓ CMPS P3↓ H-ANGLE BUZZER [OFF] [ON] [OFF] --- ENTER 3 Press the [F1](ON) key or [F2](OFF) key to select the buzzer ON/OFF. [F1] or [F2] H-ANGLE BUZZER [ON] [ON] [OFF] --- ENTER 4 Press the [F4](ENTER) key. [F4] V : 90°10'20" HR: 170°30'20" 0SET HOLD HSET P1↓ 3-5 3 ANGLE MEASUREMENT 3.7 Compasses (vertical angle) Vertical angle is displayed as shown below. +90° 0° 0° -90° Operating procedure Operation 1 Press the [F4](↓) key twice to get the function [F4] twice on page 3. Display V : 98°10'20" HR: 170°30'20" 0SET HOLD HSET P1↓ H-BZ R/L 2 Press the [F3](CMPS) key. *1) [F3] V : - 8°10'20" HR: 170°30'20" H-BZ R/L *1) Every time pressing the [F3](CMPS) key, the display mode switches. 3-6 CMPS P3↓ CMPS P3↓ 4 DISTANCE MEASUREMENT 4 DISTANCE MEASUREMENT 4.1 Setting of the Atmospheric Correction When setting the atmospheric correction, obtain the correction value by measuring the temperature and pressure. Refer to Section 12.2 “Setting of Atmospheric Correction Value”. 4.2 Setting of the Correction for Prism Constant Set the prism constant correction value of the prism used to the SET beforehand. Refer to Chapter 11 “SETTING THE PRISM CONSTANT VALUE”. The setting value is kept in the memory even after power is off. 4.3 Distance Measurement (Continuous Measurement) Make sure the mode displays angle measurement. Operating procedure Operation 1 Collimate the center of prism. Collimate P Display V : 90°10'20" HR:120°30'40" 0SET HOLD HSET P1↓ 2 Press the [ ] key. Distance measurement starts. *1), 2) [ ] The measured distances are shown. *3)~*5) HR: 120°30'40" HD*[r] << m VD: m MEAS MODE S/A P1↓ HR: 120°30'40" HD* 123.456 m VD: 5.678 m MEAS MODE S/A P1↓ z Pressing the [ ] key again, the display changes to horizontal (HR) and vertical (V) angle and slope distance (SD). *6) * [ ] V : 90°10'20" HR: 120°30'40" SD* 131.678 m MEAS MODE S/A P1↓ *1) When EDM is working, the " " mark appears in the display. *2) To change mode from Fine to Coarse or Tracking, refer to section 4.5 “Fine Mode/Tracking Mode/ Coarse Mode”. To set the distance measurement when the instrument is powered on, refer to Chapter 16 “SELECTING MODE”. *3) The distance unit indicator "m" (for meter), "f" (for feet or feet inch) appears and disappears alternatively with buzzer sounds at every renewal of distance data. *4) Measurement may repeat automatically in the instrument if the result is affected by shimmer etc. *5) To return to the normal measuring angle mode from a distance measuring mode, press the [ANG] key. *6) It is possible to choose the display order (HR, HD, VD) or (V, HR, SD) for initial measuring distance mode. Refer to Chapter 16 “SELECTING MODE”. 4-1 4 DISTANCE MEASUREMENT 4.4 Distance Measurement (N-time Measurement/Single Measurement) When the number of times measurement is preset, the SET measures the distance the set number of times. The average distance will be displayed. When presetting the number of times as 1, it does not display the average distance, because of single measurement. Single measurement is set at the factory. Make sure the mode displays angle measurement. Operating procedure Operation 1 Collimate the center of prism. Display V : HR: 90°10'20" 120°30'40" 0SET HOLD HSET P1↓ 2 Press the [ [ ] HR: 120°30'40" HD*[r] << m VD: m MEAS MODE S/A P1↓ 3 Press [F1](MEAS) key while continuous [F1] HR: 120°30'40" HD*[n] << m VD: m MEAS MODE S/A P1↓ ] key. Continuous measuring starts.*1) measuring is exceeding. *2) The average value is displayed and "*" mark disappears. z While EDM is working, press [F1](MEAS) key again, the mode will be changed to continuous measuring mode. HR: 120°30'40" HD: 123.456 m VD: 5.678 m MEAS MODE S/A P1↓ *1) It is possible to set the measurement mode for N-times measurement mode or continuous measurement mode when the power is turned on. Refer to Chapter 16 “SELECTING MODE”. *2) For setting the number of times (N-times) in the measurement, refer to Chapter 16 “SELECTING MODE”. 4-2 4 DISTANCE MEASUREMENT z Choose meter /feet / feet+inch unit by soft key It is possible to change the unit for distance measurement mode by soft key. This setting is not memorized after power off. Refer to 16 “SELECTING MODE” to set at the initial setting (memorized after power off). Operating procedure Operation 1 Press the [F4](P1↓) key to get the function on [F4] page 2 2 Every time pressing the [F3](m/f/i) key, the display unit will be changed. z Every time pressing the [F3](m/f/i) key, the unit mode switches. [F3] Display HR: 120°30'40" HD* 2.000 m VD: 3.000 m MEAS MODE S/A P1↓ OFSET S.O m/f/i P2↓ HR: 120°30'40" HD* 6.560 f VD: 9.845 f OFSET S.O m/f/i P2↓ 4.5 Fine Mode/Tracking Mode/Coarse Mode This setting is not memorized after power is off. Refer to Chapter 16”SELECTING MODE” to set at the initial setting (memorized after power is off). •Fine Mode : This is a normal distance measuring mode. The unit to be displayed: 0.2mm or 1mm. (0.001ft or 0.005ft) Measurement time 0.2mm mode : approx. 2.8 sec. 1mm mode : approx. 1.2 sec. •Tracking Mode : This mode measures in shorter time than in fine mode. It is very useful when tailing the moving object or carrying out stake-out work. The unit to be displayed: 10mm Measuring time: approx. 0.4 sec. •Coarse Mode : This mode measures in shorter time than in fine mode. The unit to be displayed: 10mm or 1mm Measuring time: approx. 0.7 sec. Operating procedure Operation Display HR: 120°30'40" HD* 123.456m VD: 5.678m MEAS MODE S/A 1 Press the [F2](MODE) key from the distance [F2] measuring mode.*1) The initial character (F/T/C) of set mode is displayed. (F: Fine, T: Tracking, C: Coarse) 2 Press the [F1](FINE) key, [F2](TRACK) key, or [F1]~[F3] [F3](COARSE) key. *1) To cancel the setting, press the [ESC] key. 4-3 P1↓ HR: 120°30'40" HD* 123.456m VD: 5.678m FINE TRACK COARSE F HR: 120°30'40" HD* 123.456m VD: 5.678m MEAS MODE S/A P1↓ 4 DISTANCE MEASUREMENT 4.6 Stake Out (S.O) The difference between the measured distance and the input stake out distance is displayed. Measured distance — Stake out distance = Displayed value z In stake out operation, you can select either horizontal distance (HD), relative elevation (VD) and slope distance (SD) Operating procedure 1 Press the [F4](↓) key in the distance measuring mode to get the function on page 2. Operation Display [F4] HR: 120°30'40" HD* 123.456 m VD: 5.678 m MEAS MODE S/A P1↓ OFSET S.O m/f/i 2 Press the [F2](S.O) key. [F2] The data previously set is shown. STAKE OUT HD : 0.000 m HD 3 Select the measuring mode by pressing the [F1] to [F3] key. [F1] Example: Horizontal distance Enter data [F4] VD SD --- STAKE OUT HD = 0.000 m --- 4 Enter the distance for stake out. *1) P2↓ --- [CLR][ENT] STAKE OUT HD : 100.000 m INPUT --- --- ENTER 5 Collimate the target (Prism). Collimate P Measuring starts. The difference between the measured distance and the stake out distance is displayed. 6 Move the target until the difference becomes 0m. HR: 120°30'40" dHD*[r] << m VD: m MEAS MODE S/A P1↓ HR: 120°30'40" dHD* 23.456 m VD: 5.678 m MEAS MODE S/A P1↓ *1) Refer to section 2.5 “How to Enter Alphanumeric characters”. z To return to normal distance measurement mode, stake out distance to "0" m or turn the power off. 4-4 4 DISTANCE MEASUREMENT 4.7 Offset Measurement There are four offset measurement modes in the Offset Measurement. z Angle offset z Distance offset z Plane offset z Column offset To show the offset measurement menu, press the [OFSET] soft key from distance or coordinate measurement mode. Example: Coordinate measurement Distance measurement N: E: Z: MEAS HR: 120°30'40" HD: 123.456 m VD: 5.678 m MEAS MODE S/A P1↓ OFSET S.O m/f/i 123.456 34.567 78.912 MODE S/A R.HT INSHT P2↓ OFSET --- OCC m m m P1↓ P2↓ m/f/i P3↓ Press the [F1](OFSET) key. Press the [F1](OFSET) key. Offset Measurement Menu OFFSET 1/2 F1:ANG.OFFSET F2:DIST.OFFSET F3:PLANE OFFSET P↓ [F4] OFFSET 2/2 F1:COLUMN OFFSET P↓ z Outputting the Measurement Data The results of offset measurement can be output to external device. Setting the function of the [ESC] key to (REC), the [F3] soft key which assigned (REC) will appear in measured result display. Refer to Chapter 16 “SELECTING MODE” to set this option. OFFSET-MEASUREMENT HR: 120°30'40" SD: 123.456 m NEXT --- REC --[F3] z Distance measurement mode of the offset measurement Offset measurement will be done by N-time fine measurement mode. For setting measuring times refer to Chapter 16 “SELECTING MODE”. 4-5 4 DISTANCE MEASUREMENT 4.7.1 Angle Offset This mode is useful when it is difficult to set up the prism directly, for example at the center of a tree. Place the prism at the same horizontal distance from the instrument as that of point A0 to measure. To measure the coordinates of the center position, operate the offset measurement after setting the instrument height/prism height. When measuring coordinates of ground point A1: Set the instrument height/prism height. When measuring coordinates of point A0: Set the instrument height only. (Set the prism height to 0 ). Prism P Prism height When sighting to A0, you can select one of two ways. One is to fix vertical angle to the prism position even updown the telescope position, and the other is to gear vertical angle to the updown of telescope movement. In case following the vertical angle to the movement of telescope, SD (Slope Distance) and VD (Vertical Distance) will be changed according to the movement of telescope. To set this option, refer to Chapter 16 “SELECTING MODE”. Instrument height Occ. Point z Set the instrument height/prism height before proceeding to the offset measurement mode. z When setting the coordinate value for the occupied station, refer to Section 5.1 “Setting Coordinate Values of Occupied Point”. Operating procedure Operation Display 1 Press the [F4](P1↓) key from distance measuring [F4] HR: 120°30'40" HD: 123.456 m VD: 5.678 m MEAS MODE S/A P1↓ OFSET S.O m/f/i P2↓ 2 Press the [F1](OFSET) key. [F1] OFFSET 1/2 F1:ANG.OFFSET F2:DIST.OFFSET F3:PLANE OFFSET P1↓ 3 Press the [F1](ANG. OFFSET) key. [F1] OFFSET-MEASUREMENT HR: 120°30'40" HD: m MEAS --- --- --- mode to get the function on page 2. 4 Collimate prism P, and press the [F1](MEAS) key. 4-6 Collimate P [F1] OFFSET-MEASUREMENT HR: 110°20'30" HD*[n] << m >Measuring... 4 DISTANCE MEASUREMENT The horizontal distance from the instrument to the prism will be measured. OFFSET-MEASUREMENT HR: 110°20'30" HD* 56.789 m >Measuring... After measuring, the result added offset value will be shown. OFFSET-MEASUREMENT HR: 110°20'30" HD: 56.789 m NEXT --- --- --- 5 Collimate point A0 using the horizontal motion Collimate A0 clamp and horizontal tangent screw. OFFSET-MEASUREMENT HR: 113°30'50" HD: 56.789 m NEXT --- --- --- 6 Show the relative elevation of point A0. [ ] OFFSET-MEASUREMENT HR: 113°20'30" VD: 3.456 m NEXT --- --- --- 7 Show the slope distance of point A0. [ ] OFFSET-MEASUREMENT HR: 113°20'30" SD: 56.894 m NEXT --- --- --- [ ] OFFSET-MEASUREMENT HR: 113°20'30" N : -12.345 m NEXT --- --- --- z Each time pressing the [ ] key, horizontal distance, relative elevation and slope distance are shown in sequence. 8 Show N coordinate of point A0 or A1. z Each time pressing [ ] key, N, E and Z coordinate are shown in sequence. z To return to procedure 4, press [F1](NEXT) key. z To return to the previous mode, press [ESC] key. 4-7 4 DISTANCE MEASUREMENT 4.7.2 Distance Offset Measurement The measurement of a place apart from a prism is possible by inputting offset horizontal distance of front and back/right and left. Forward HD oHD sign RorL HD Prism height Prism P Instrument height Occ.Point When measuring coordinates of ground point A1: Set the instrument height/prism height. When measuring coordinates of point A0: Set the instrument height only. (Set the prism height to 0). Operating procedure Operation Display 1 Press the [F4](P1↓) key from distance measuring [F4] HR: 120°30'40" HD: 123.456 m VD: 5.678 m MEAS MODE S/A P1↓ OFSET S.O m/f/i P2↓ 2 Press the [F1](OFSET) key. [F1] OFFSET 1/2 F1:ANG.OFFSET F2:DIST.OFFSET F3:PLANE OFFSET P↓ 3 Press the [F2](DIST. OFFSET) key. [F2] DISTANCE OFFSET INPUT RorL HD oHD= m --- --- [CLR] [ENT] Enter HD [F4] DISTANCE OFFSET INPUT FORWARD HD oHD= m --- --- [CLR] [ENT] Enter HD [F4] DISTANCE OFFSET HR: 80°30'40" HD: m MEAS --- --- --- mode to get the function on page 2. 4 Enter Right and Left direction offset value, and press the [F4](ENTER) key. 5 Enter a Forward direction offset value, and press the [F4](ENTER) key. 4-8 4 DISTANCE MEASUREMENT 6 Collimate prism P, and press the [F1](MEAS) key. Measuring will start. Collimate P [F1] After measuring, the result added offset value will be shown. 7 Show the relative elevation of point P0. z Each time pressing the [ ] key, horizontal distance, relative elevation and slope distance are shown in sequence. DISTANCE OFFSET HR: 80°30'40" HD* [n] << m >Measuring... DISTANCE OFFSET HR: 80°30'40" HD: 10.000 m NEXT --- --- --[ ] DISTANCE OFFSET HR: 80°30'40" VD: 11.789 m NEXT --- --- --DISTANCE OFFSET HR: 80°30'40" SD: 11.789 m NEXT --- --- --- z Show coordinate of point P0. [ z To return to procedure 4, press [F1](NEXT) key. z To return to the previous mode, press [ESC] key. 4-9 ] N : E : Z : NEXT 12.345 23.345 1.345 --- --- m m m --- 4 DISTANCE MEASUREMENT 4.7.3 Plane Offset Measurement Measuring will be taken for the place where direct measuring can not be done, for example distance or coordinate measuring for a edge of a plane. Three random prism points (P1, P2, P3) on a plane will be measured at first in the plane offset measurement to determine the measured plane. Collimate the measuring target point (P0) then the instrument calculates and displays coordinate and distance value of cross point between collimation axis and of the plane. (Prism) (Point without prism) (Prism) (Prism) Prism heights of P1 to P3 is set to zero automatically. z When setting the coordinate value for the occupied station, refer to Section 5.1 “Setting Coordinate Values of Occupied Point”. Operating procedure Operation Display 1 Press the [F4](P1↓) key from distance measuring [F4] HR: 120°30'40" HD: 123.456 m VD: 5.678 m MEAS MODE S/A P1↓ OFSET S.O m/f/i P2↓ 2 Press the [F1](OFSET) key. [F1] OFFSET 1/2 F1:ANG.OFFSET F2:DIST.OFFSET F3:PLANE OFFSET P↓ 3 Press the [F3](PLANE OFFSET) key. [F3] PLANE N001#: SD: MEAS --- mode to get the function on page 2. 4 Collimate prism P1, and press the [F1](MEAS) key. N-time measuring will start. After measuring, the display will show the second point measurement. 5 Measure the second and third points in the same way. 4-10 m --- --- Collimate P1 [F1] PLANE N001#: SD* [n] << m >Measuring... Collimate P2 [F1] PLANE N002#: SD: MEAS --- m --- --- 4 DISTANCE MEASUREMENT Collimate P3 [F1] The instrument calculates and displays coordinate and distance value of cross point between collimation axis and of the plane. *1), 2) 6 Collimate the edge (P0) of the plane. *3), 4) Collimate P0 7 To show the slope distance (SD), press the [ ] key. z Each time pressing the [ ] key, horizontal distance, relative elevation and slope distance are shown in sequence. PLANE N003#: SD: MEAS --- m --- --- HR: HD: VD: EXIT 80°30'40" 54.321 m 10.000 m HR: HD: VD: EXIT 75°30'40" 54.600 m -0.487 m V : HR: SD: EXIT 90°30'40" 75°30'40" 56.602 m z To show coordinate of point P0, press the [ ] key. 8 To escape the measuring, press the [F1](EXIT) key. The display returns to the previous mode. *1) In case the calculation of plane was not successful by the measured three points, error displays. Start measuring over again from the first point. *2) Data display is the mode beforehand of offset measurement mode. *3) Error will be displayed when collimated to the direction which does not cross with the determined plane. *4) The refrector height of the target point P0 is set to zero automatically. 4-11 4 DISTANCE MEASUREMENT 4.7.4 Column Offset Measurement If it is possible to measure circumscription point (P1) of column directly, the distance to the center of the column (P0), coordinate and direction angle can be calculated by measured circumscription points (P2) and (P3). The direction angle of the center of the column is 1/2 of total direction angle of circumscription points (P2) and (P3). Prism z When setting the coordinate value for the occupied station, refer to Section 5.1 “Setting Coordinate Values of Occupied Point”. Operating procedure Operation Display 1 Press the [F4](P1↓) key from distance measuring [F4] HR: 120°30'40" HD: 123.456 m VD: 5.678 m MEAS MODE S/A P1↓ OFSET S.O m/f/i P2↓ 2 Press the [F1](OFSET) key. [F1] OFFSET 1/2 F1:ANG.OFFSET F2:DIST.OFFSET F3:PLANE OFFSET P↓ 3 Press the [F4](P↓) key. [F4] OFFSET 2/2 F1:COLUMN OFFSET mode to get the function on page 2. P↓ 4 Press the [F1](COLUMN OFFSET) key. [F1] 5 Collimate the center of the column (P1) and press the [F1](MEAS) key. N-time measuring will start. 4-12 Collimate P1 [F1] COLUMN OFFSET Center HD: m MEAS --- --- --COLUMN OFFSET Center HD* [n] << m >Measuring... 4 DISTANCE MEASUREMENT After the measurement, angle measuring display of the left side (P2) will be shown. 6 Collimate the left side of the column (P2) and press the [F4](SET) key. After the measurement, angle measuring display of the right side (P3) will be shown. 7 Collimate the right side of the column (P3) and press the [F4](SET) key. COLUMN OFFSET Left HR: 120°30'40" --- --- --- SET Collimate P2 [F4 COLUMN OFFSET Right HR: 180°30'40" --- --- --- SET Collimate P3 [F4] COLUMN OFFSET HR: 150°30'40" HD: 43.321 m NEXT --- --- --- The distance between the instrument and center of the column (P0) will be calculated. 8 To show the relative elevation (VD), press the [ ] key. Each time pressing the [ ] key, horizontal distance, relative elevation and slope distance are shown in sequence. z To show coordinate of point P0, press the [ ] key. 9 To escape the measuring, press the [ESC] key. The display returns to the previous mode. 4-13 [ ] COLUMN OFFSET HR: 150°30'40" VD: 2.321 m NEXT --- --- --- 5 COORDINATE MEASUREMENT 5 COORDINATE MEASUREMENT 5.1 Setting Coordinate Values of Occupied Point Set the coordinates of the instrument (occupied point) according to coordinate origin, and the instrument automatically converts and displays the unknown point (prism point) coordinates following the origin. It is possible to retain the coordinates of the occupied point after turning the power off. Refer to Chapter 16 “SELECTING MODE”. Prism (n, e, z) Inst.PointC Origin(0, 0, 0) Operating procedure Operation 1 Press the [F4](↓) key from the coordinate measurement mode to get the function on page 2. 2 Press the [F3](OCC) key. 3 Enter N coordinate value. *1) [F4] Display N: 123.456 E: 34.567 Z: 78.912 MEAS MODE S/A R.HT INSHT OCC m m m P1↓ P2↓ [F3] N= E: Z: --- 0.000 m 0.000 m 0.000 m --- [CLR][ENT] Enter data [F4] N: E= Z: --- -72.000 m 0.000 m 0.000 m --- [CLR][ENT] 4 Enter E and Z coordinate values in the same N: 51.456 m E: 34.567 m Z: 78.912 m MEAS MODE S/A P1↓ manner. After entering the values, the display returns coordinate measuring display. *1) Refer to Section 2.5 “How to Enter Alphanumeric characters”. z Input range –9999999.9990 < N, E, Z < +99999999.9990m –9999999.999 < N, E, Z < +99999999.999 ft. –9999999.11.7 < N, E, Z < +99999999.11.7 ft.+inch 5-1 5 COORDINATE MEASUREMENT 5.2 Setting Height of the Instrument It is possible to retain the height of instrument after turning the power off. Refer to Chapter 16 “SELECTING MODE”. Operating procedure Operation 1 Press the [F4](↓) key from the coordinate measurement mode to get the function on page 2. 2 Press the [F2](INSHT) key. The current value is displayed. 3 Enter the instrument height. *1) Display [F4] N: 123.456 E: 34.567 Z: 78.912 MEAS MODE S/A R.HT INSHT OCC [F2] INSTRUMENT HEIGHT INPUT INS.HT= 0.000 m --- --- [CLR][ENT] Enter Inst.HT [F4] N: E: Z: MEAS 123.456 34.567 78.912 MODE S/A m m m P1↓ P2↓ m m m P1↓ *1) Refer to Section 2.5 “How to Enter Alphanumeric characters”. z Input range –999.9999 < Instrument height < +999.9999 m –999.999 < Instrument height < +999.999 ft. –999.11.7 < Instrument height < +999.11.7 ft.+inch 5.3 Setting Height of Target (Prism Height) This mode can be used to obtain Z coordinate values . It is possible to retain the height of target after turning the power off. Refer to Chapter 16 “SELECTING MODE”. Operating procedure Operation 1 Press the [F4](↓) key from the coordinate measurement mode to get the function on page 2. 2 Press the [F1](R.HT) key. The current value is displayed. 3 Enter the prism height. *1) [F4] N: 123.456 E: 34.567 Z: 78.912 MEAS MODE S/A R.HT INSHT OCC [F1] REFLECTOR HEIGHT INPUT R.HT= 0.000 m --- --- [CLR][ENT] Enter R.HT [F4] *1) Refer to Section 2.5 “How to Enter Alphanumeric characters”. z Input range –999.9999 < Prism height < +999.9999 m –999.999 < Prism height < +999.999 ft. –999.11.7 < Prism height < +999.11.7 ft.+inch 5-2 Display N: E: Z: MEAS 123.456 34.567 78.912 MODE S/A m m m P1↓ P2↓ m m m P1↓ 5 COORDINATE MEASUREMENT 5.4 Execution of Coordinate Measuring Measure the coordinates by entering the instrument height and prism height, coordinates of unknown point will be measured directly. z When setting coordinate values of occupied point, see Section 5.1 “Setting Coordinate Values of Occupied Point” z When setting the instrument height and prism height, see Section 5.2 “Setting Height of the Instrument” and 5.3 “Setting Height of Target (Prism Height)”. z The coordinates of the unknown point are calculated as shown below and displayed: Coordinates of occupied point : (N0, E0, Z0) Instrument height : INS.HT Prism height : R.HT Vertical distance (Relative elevation) : z (VD) Coordinates of the center of the prism, originated from the center point of the instrument : (n, e, z) Coordinates of unknown point : (N1, E1, Z1) N1=N0+n E1=E0+e Z1=Z0+INS.HT+z - R.HT Coordinates of the center of the prism, originated from the center point of the instrument (n, e, z) Center point of the instrument (No, Eo, Zo+Inst.h) Unknown point (N1, E1, Z1) Occupied point (No, Eo, Zo) Origin (o, o, o) Operating procedure Operation Display 1 Set the direction angle of known point A. *1) Set direction angle V : 90°10'20" HR: 120°30'40" 2 Collimate target prism. Collimate P 0SET 3 Press the [ ] key. Measuring starts. [ ] HOLD HSET P1↓ N*[r] E: Z: MEAS MODE << m m m S/A P1↓ N* E: Z: MEAS The result will be shown. 123.456 34.567 78.912 MODE S/A m m m P1↓ *1) Refer to Section 3.3 “Measuring from the Required Horizontal Angle”. z In case the coordinate of instrument point is not entered, (0, 0, 0) will be used as the default for the instrument point. z The instrument height will be calculated as 0 when the instrument height is not entered. z The prism height will be calculated as 0 when the prism height is not set. 5-3 6 SPECIAL MODE (Menu Mode) 6 SPECIAL MODE (Menu Mode) By pressing the [MENU] key, the instrument will be in MENU mode. In this mode, special measuring , setting and adjustment are possible. Normal measurement mode [MENU] MENU 1/3 F1:DATA COLLECT [ESC] F2:LAYOUT F3:MEMORY MGR. P↓ [ESC] [F1] "DATA COLLECTION MODE" See Chapter 7 “DATA COLLECTION”. [F2] "LAYOUT MODE" [F4] See Chapter 8 “LAYOUT”. [F3] "MEMORY MANAGER MODE" See Chapter 9 “MEMORY MANAGER MODE”. Programs MENU 2/3 [ESC] F1:PROGRAMS F2:GRID FACTOR F3:ILLUMINATION P↓ [ESC] [F1] PROGRAMS F1:REM F2:MLM F3:Z COORD. 1/2 P↓ Grid factor [F4] GRID FACTOR =1.000000 [F2] >MODIFY? [YES][NO] Reticle illumination [F3] ILLUMINATION[ON:1] F1:ON F2:OFF F3:LEVEL Setting mode 1 [ESC] MENU 3/3 F1:PARAMETERS 1 F2:CONTRAST ADJ. P↓ [ESC] [F1] [F4] PARAMETERS 1 1/3 F1:MINIMUM READING F2:AUTO POWER OFF F3:TILT P↓ Display contrast adjustment [F2] CONTRAST ADJUSTMENT LEVEL:4 ↓ 6-1 ↑ --- ENTER 6 SPECIAL MODE (Menu Mode) 6.1 Application Measurement (PROGRAMS) 6.1.1 Remote Elevation measurement (REM) To obtain elevation of the point at which setting the target prism is not possible, place the prism at any point on the vertical line from the target then carry out REM procedure as follows. Target K Prism Prism height Instrument 1) With prism height (h) input (Example: h=1.5m) Operating procedure Operation 1 After pressing the [MENU] key, press the [F4](P↓) key to get the menu on page 2. 2 Press the [F1] key. [MENU] [F4] [F1] Display MENU 2/3 F1:PROGRAMS F2:GRID FACTOR F3:ILLUMINATION P↓ PROGRAMS F1:REM F2:MLM F3:Z COORD. 1/2 P↓ 3 Press the [F1](REM) key. [F1] REM F1:INPUT R.HT F2:NO R.HT 4 Press the [F1] key. [F1] REM-1 <STEP-1> R.HT = 0.000 m ––– ––– [CLR][ENT] 5 Enter prism height. *1) Enter R.HT [F4] Collimate P REM-1 <STEP-2> HD: MEAS ––– ––– m SET 6 Collimate prism. 7 Press the [F1](MEAS) key. [F1] Measuring starts. 6-2 REM-1 <STEP-2> HD*[n] >Measuring... << m 6 SPECIAL MODE (Menu Mode) Horizontal distance (HD) between the instrument and prism will be shown. REM-1 <STEP-2> HD* 123.456 m >Measuring... 8 After measuring, the prism position will be REM-1 VD: 1.500 m decided. *2) ––– 9 Collimate target K. Collimate K Vertical distance (VD) will be shown. *3) R.HT HD ––– REM-1 VD: 10.456 m ––– R.HT HD ––– *1) Refer to Section 2.5 “How to Enter Alphanumeric characters”. *2) To return to procedure 5, press the [F2](R.HT) key. To return to procedure 6, press the [F3](HD) key. *3) To return to PROGRAMS Menu, press the [ESC] key. 2) Without prism height input Operating procedure Operation 1 After pressing the [MENU] key, press the [F4](P↓) key to get the menu on page 2. 2 Press the [F1] key. [MENU] [F4] [F1] Display MENU 2/3 F1:PROGRAMS F2:GRID FACTOR F3:ILLUMINATION P↓ PROGRAMS F1:REM F2:MLM F3:Z COORD. 3 Press the [F1](REM) key. [F1] REM F1:INPUT R.HT F2:NO R.HT 4 Press the [F2] key. [F2] REM-2 <STEP-1> HD: m MEAS ––– ––– 5 Collimate prism. Collimate P 6 Press the [F1](MEAS) key. [F1] Measuring starts. Horizontal distance (HD) between the instrument and prism will be shown. 6-3 REM-2 <STEP-1> HD*[n] << m >Measuring... REM-2 <STEP-1> HD* 123.456 m >Measuring... 1/2 P↓ ––– 6 SPECIAL MODE (Menu Mode) 7 After measuring, the prism position will be REM-2 <STEP-2> V : 60°45'50" ––– ––– ––– decided. 8 Collimate ground point G. Collimate G 9 Press the [F4](SET) key. [F4] The position of point G will be decided. *1) REM-2 <STEP-2> V : 123°45'50" ––– ––– ––– SET REM-2 VD: 0.000 m ––– 10 Collimate target K. Collimate K Vertical distance (VD) will be shown. *2) 6-4 V HD ––– REM-2 VD: 10.456 m ––– *1) To return to procedure 5, press the [F3](HD) key. To return to procedure 8, press the [F2](V) key. *2) To return to PROGRAMS Menu, press the [ESC] key. SET V HD ––– 6 SPECIAL MODE (Menu Mode) 6.1.2 Missing Line Measurement (MLM) Measurement for horizontal distance (dHD), slope distance (dSD), elevation (dVD) and horizontal bearing (HR) between two target prisms. It is possible to enter the coordinate value directly or calculate from coordinate data file. MLM mode has two modes. 1.MLM-1 (A-B, A-C): Measurement is A-B, A-C, A-D,...... 2.MLM-2 (A-B, B-C): Measurement is A-B, B-C, C-D,...... Prism A Prism B Instrument Prism C Instrument Prism A Prism B z It is necessary to set the direction angle of the instrument. [Example] MLM-1 (A-B, A-C) z Procedure of MLM-2 (A-B, B-C) mode is completely same as MLM-1 mode Operating procedure Operation 1 After pressing the [MENU] key, press the [F4](P↓) key to get the menu on page 2. 2 Press the [F1] key. [MENU] [F4] [F1] Display MENU 2/3 F1:PROGRAMS F2:GRID FACTOR F3:ILLUMINATION P↓ PROGRAMS F1:REM F2:MLM F3:Z COORD. 3 Press the [F2](MLM) key. [F2] MLM F1:USE FILE F2:DON’T USE 4 Press the [F1] or [F2] key to select using [F2] GRID FACTOR F1:USE G.F. F2:DON’T USE coordinate file. [Example: F2: DON’T USE] 6-5 1/2 P↓ 6 SPECIAL MODE (Menu Mode) 5 Press the [F1] or [F2] key to select using GRID FACTOR. [Example: F2: DON’T USE] 6 Press the [F1] key. 7 Collimate prism A, and press the [F1](MEAS) key. Horizontal distance (HD) between the instrument and prism A will be shown. [F2] MLM F1:MLM-1(A-B, A-C) F2:MLM-2(A-B, B-C) [F1] MLM-1(A-B, A-C) <STEP-1> HD: m MEAS R.HT NEZ ––– Collimate A [F1] 8 After measuring, the prism position will be MLM-1(A-B, A-C) <STEP-2> HD: m MEAS R.HT NEZ ––– decided. 9 Collimate prism B and press the [F1](MEAS) key. Horizontal distance (HD) between the instrument and prism B will be shown. 10 After measuring, the horizontal distance (dHD) and relative elevation (dVD) between prism A and B will be shown. 11 To show slope distance (dSD), press [ MLM-1(A-B, A-C) <STEP-1> HD*[n] << m >Measuring... ] key. 12 To measure the distance between points A and C, press the [F3](HD). *1) 13 Collimate point C (Prism C) and press the [F1](MEAS) key. Horizontal distance (HD) between the instrument and prism C will be shown. 14 After measuring, the horizontal distance (dHD) and relative elevation (dVD) between prism A and C will be shown. 15 To measure the distance between points A and D, repeat procedure 12 to14. *1) *1) To return to previous mode, press the [ESC] key. 6-6 Collimate B [F1] MLM-1(A-B, A-C) <STEP-2> HD* [n] << m MEAS R.HT NEZ ––– [F4] MLM-1(A-B, A-C) dHD : 123.456 m dVD : 12.345 m ––– ––– HD ––– [ ] MLM-1(A-B, A-C) dSD : 234.567 m HR : 12°34'40" ––– ––– HD ––– [F3] MLM-1(A-B, A-C) <STEP-2> HD: m MEAS R.HT NEZ ––– Collimate prism C [F1] [F4] MLM-1(A-B, A-C) dHD : 234.567 m dVD : 23.456 m ––– ––– HD ––– 6 SPECIAL MODE (Menu Mode) z How to use coordinate data It is possible to input coordinate value directly or calculate from coordinate data file Operating procedure Operation Display To use coordinate data file, select “USE FILE” in step 4. After procedure 6. MLM-1(A-B, A-C) <STEP-1> HD: m MEAS R.HT NEZ ––– 1 Press the [F3](NEZ) key. [F3] Direct key input display will be shown. 2 Press the [F3](PT#) key to use coordinate data file. Point number input display will be shown. Pressing the [F3](HD) key, the display will return to procedure 6. After selecting coordinate input mode by pressing the [F3](NEZ or PT# or HD) key, press the [F1](INPUT) key and enter the data. 6-7 [F3] N> 0.000 E: 0.000 Z: 0.000 INPUT ––– PT# m m m ENTER MLM-1(A-B,A-C) PT#:__________ INPUT LIST HD ENTER 6 SPECIAL MODE (Menu Mode) 6.1.3 Setting Z Coordinate of Occupied Point Occupied point coordinate data and known point actual measuring data are utilized, z coordinate of occupied point is calculated and reset again. Known point data and coordinate data can use the coordinate data file. 1) Setting occupied coordinate [Example setting] Using coordinate data file. Operating procedure Operation 1 After pressing [MENU] key, press [F4](P↓) key to get the menu on page 2. 2 Press the [F1] key. [MENU] [F4] [F1] Display MENU 2/3 F1:PROGRAMS F2:GRID FACTOR F3:ILLUMINATION P↓ PROGRAMS F1:REM F2:MLM F3:Z COORD. 3 Press the [F3](Z COORD.) key. [F3] Z COORD.SETTING F1:USE FILE F2:DON’T USE 4 Press the [F1](USE FILE) key. [F1] SELECT A FILE FN:_________ 1/2 P↓ INPUT LIST ––– ENTER 5 Press the [F1](INPUT) key and enter the File [F1] Enter FN [F4] Name. 6 Press the [F1] key. [F1] Z COORD.SETTING F1:OCC.PT INPUT F2:REF.MEAS OCC.PT PT#:_________ INPUT LIST NEZ ENTER 7 Press the [F1](INPUT) key and enter the Point number. Instrument height setting display will be shown. 8 Enter the height. The display returns to Z coordinate menu. [F1] Enter PT# [F4] INSTRUMENT HEIGHT INPUT INS.HT= 0.000 m ––– ––– [CLR][ENT] Enter HT [F4] Z COORD.SETTING F1:OCC.PT INPUT F2:REF.MEAS z For more information about data file, see Chapter 9 “MEMORY MANAGER MODE”. 6-8 6 SPECIAL MODE (Menu Mode) 2) Z Coordinate Calculation from Known Point Measuring Data [Example setting] Using coordinate data file Operating procedure Operation 1 After pressing [MENU] key, press [F4](P↓) key to get the menu on page 2. 2 Press the [F1] key. [MENU] [F4] [F1] Display MENU 2/3 F1:PROGRAMS F2:GRID FACTOR F3:ILLUMINATION P↓ PROGRAMS F1:REM F2:MLM F3:Z COORD. 3 Press the [F3](Z COORD.) key. [F3] Z COORD.SETTING F1:USE FILE F2:DON’T USE 4 Press the [F1](USE FILE) key. [F1] SELECT A FILE FN:_________ 1/2 P↓ INPUT LIST ––– ENTER 5 Press the [F1](INPUT) key and enter the File [F1] Enter FN [F4] Name. 6 Press the [F2] key. [F2] Z COORD.SETTING F1:OCC.PT INPUT F2:REF.MEAS NOO1# PT#:_________ INPUT LIST NEZ ENTER 7 Press the [F1](INPUT) key and enter the Point [F1] Enter PT# [F4] Number in coordinate data file. 8 Press the [F3](YES) key and enter the Point N: E: Z: >OK ? 4.356 m 16.283 m 1.553 m [YES][NO] [F3] REFLECTOR HEIGHT INPUT R.HT= 0.000 m ––– ––– [CLR][ENT] 9 Enter the height. Enter R. HT [F4] REFLECTOR HEIGHT INPUT R.HT: 0.000 m >Sight? [YES][NO] 10 Collimate a prism on the point and press the Collimate P [F3] HR: 120°30'40" HD*[n] << m VD: m >Measuring... Number in coordinate data file. [F3](YES) key. Measuring starts. *1) 6-9 6 SPECIAL MODE (Menu Mode) HR: 120°30'40" HD: 12.345 m VD: 23.456 m NEXT ––– ––– CALC 11 Press the [F4](CALC) key. *2) Z : Z coordinate dZ: Standard deviation 12 Press the [F4](SET) key. *3) Z coordinate of the occupied point will be set. [F4] Z COORD. SETTING Z : 1.234 m dZ : 0.002 m ––– ––– BS SET [F4] BACKSIGHT HR: 23°20'40" Bascksight point measuring screen will be shown. 13 Press the [F3](YES) key. >OK? [F3] Horizontal angle will be set. The display returns to Programs 1/2 menu. *1) Measurement is Fine N-times measurement mode. *2) To measure other points, press the [F1](NEXT) key. *3) Pressing the [F3] key, the display will be changed alternately. 6-10 [YES][NO] PROGRAMS F1:REM F2:MLM F3:Z COORD. 1/2 P↓ 6 SPECIAL MODE (Menu Mode) 6.1.4 Area Calculation This mode calculate the area of a closed figure. There are two area calculation methods as follows. 1) Area Calculation from Coordinate data file 2) Area Calculation from Measured data z Area is not calculated correctly if enclosed lines cross each other. z It is impossible to calculate what a mix of coordinate file data and measured data. z If the coordinate data file does not exist, the area calculation from measured data is done automatically. z The numbers of points used to calculate are not limited. 1) Area Calculation from Coordinate Data File Operating procedure Operation 1 After pressing the [MENU] key, press the [F4](P↓) key to get the menu on page 2/3. 2 Press the [F1] key. [MENU] [F4] [F1] 3 Press the [F4](P↓) key to get the PROGRAMS Display MENU 2/3 F1:PROGRAMS F2:GRID FACTOR F3:ILLUMINATION P↓ PROGRAMS F1:REM F2:MLM F3:Z COORD. 1/2 P↓ [F4] PROGRAMS 2/2 F1:AREA F2:POINT TO LINE P↓ 4 Press the [F1](AREA) key. [F1] AREA F1:FILE DATA F2:MEASUREMENT 5 Press the [F1](FILE DATA) key. [F1] SELECT A FILE FN:_________ menu on page 2/2. INPUT LIST ––– ENTER 6 Press the [F1](INPUT) key and enter the File Name. Initial display will be shown. 7 Press the [F4](NEXT) key. *1), 2) The top of the file data (DATA-01) will be set and the second point number will be shown. 8 Repeat pressing the [F4](NEXT) key to set [F1] Enter FN [F4] AREA [F4] AREA [F4] required number of points. 6-11 0000 m.sq NEXT# :DATA-01 PT# LIST UNIT NEXT 0001 m.sq NEXT# :DATA-02 PT# LIST UNIT NEXT 6 SPECIAL MODE (Menu Mode) When 3 or more points are set, the area surrounded by the points is calculated and the result will be shown. AREA 0021 123.456 m.sq NEXT# :DATA-22 PT# LIST UNIT NEXT *1) To set specify point, press the [F1](PT#) key. *2) To show the list of the coordinate data in the file, press the [F2](LIST) key. 2) Area Calculation from Measured Data Operating procedure Operation 1 After pressing the [MENU] key, press the [F4](P↓) key to get the menu on page 2/3. 2 Press the [F1] key. [MENU] [F4] [F1] 3 Press the [F4](P↓) key to get the PROGRAMS Display MENU 2/3 F1:PROGRAMS F2:GRID FACTOR F3:ILLUMINATION P↓ PROGRAMS F1:REM F2:MLM F3:Z COORD. 1/2 P↓ [F4] PROGRAMS 2/2 F1:AREA F2:POINT TO LINE P↓ 4 Press the [F1](AREA) key. [F1] AREA F1:FILE DATA F2:MEASUREMENT 5 Press the [F2](MEASUREMENT) key. [F2] AREA F1:USE G.F. F2:DON’T USE 6 Press the [F1] or [F2] key to select using GRID [F2] AREA menu on page 2/2. FACTOR. [Example: F2: DON’T USE] MEAS 7 Collimate a prism and press the [F1](MEAS) key. Measuring starts. *1) Collimate P [F1] 0000 m.sq ––– N*[n] <<< m E: m Z: m >Measuring... AREA MEAS 8 Collimate next point and press the [F1](MEAS) Collimate [F1] key. 6-12 UNIT ––– 0001 m.sq ––– UNIT ––– 6 SPECIAL MODE (Menu Mode) When 3 or more points are measured, the area surrounded by the points is calculated and the result will be shown. AREA MEAS 0003 234.567 m.sq ––– UNIT ––– *1) Measurement is Fine N-times measurement mode. z To change the display unit It is possible to change the displayed area unit. Operating procedure Operation Display AREA 0003 100.000 m.sq MEAS ––– 1 Press the [F3](UNIT) key. [F3] AREA UNIT ––– 0003 100.000 m.sq m.sq ha ft.sq acre 2 Select a unit by pressing the [F1] to [F4] key. [F2] Example: [F2](ha) key. AREA 0003 0.010 ha MEAS ––– z m.sq: square meter ha: hectare ft.sq: square feet 6-13 acre: acre. UNIT ––– 6 SPECIAL MODE (Menu Mode) 6.1.5 Point to Line Measurement This mode is used to obtain the coordinate data with the origin point A(0, 0, 0) and the line AB as N axis. Place the 2 prisms at the points A and B on the line, and place the instrument at unknown point C. After measuring the 2 prisms, the coordinate data and the direction angle of the instrument will be calculated and restored. P(n, e, z) Prism P2 Prism P1 R.HT Line INS.HT Instrument Point (Unknown point) Operating procedure Operation 1 After pressing the [MENU] key, press the [F4](P↓) key to get the menu on page 2/3. 2 Press the [F1] key. [MENU] [F4] [F1] 3 Press the [F4](P↓) key to get the PROGRAMS menu on page 2/2. 4 Press the [F2] key. 5 Enter instrument height. 6 Enter reflector A(P1) height. MENU 2/3 F1:PROGRAMS F2:GRID FACTOR F3:ILLUMINATION P↓ PROGRAMS F1:REM F2:MLM F3:Z COORD. 1/2 P↓ [F4] PROGRAMS 2/2 F1:AREA F2:POINT TO LINE P↓ [F2] INSTRUMENT HEIGHT INPUT INS.HT= 0.000 m ––– ––– [CLR][ENT] Enter INS.HT [F4] REFLECTOR HEIGHT INPUT R.HT= 0.000 m ––– ––– [CLR][ENT] Enter R.HT [F4] 6-14 Display POINT TO LINE MEAS.P1 HD: m >Sight? [YES][NO] 6 SPECIAL MODE (Menu Mode) 7 Collimate prism P1 (Origin) and press [F3](YES) Collimate P1 [F3] key. Measuring starts. *1) Input display of reflector B(P2) height will be shown. << m REFLECTOR HEIGHT INPUT R.HT= 0.000 m ––– ––– [CLR][ENT] 8 Enter reflector B(P2) height. Enter R. HT [F4] 9 Collimate prism B (P2)(Origin) and press the Collimate P2 [F3] [F3](YES) key. Measuring starts. *1) The coordinate data and the direction angle of the instrument are calculated and restored. The result (The distance between A and B) will be displayed. dHD: Horizontal distance dVD: Vertical distance dSD: Slope distance *2), 3) [F1] 11 Collimate a prism and press [F4](MEAS) key. Collimate P [F4] Coordinate measurement starts. *4) The result will be shown. *5) POINT TO LINE MEAS.P2 HD: m >Sight? [YES][NO] POINT TO LINE MEAS.P2 HD*[n] >Measuring... N: 0.000 m E: 0.000 m Z: 0.000 m EXIT ––– HT MEAS >Measuring... N: E: Z: EXIT Measurement is Fine N-times measurement mode. To show dSD, press [F4](P↓) key. To show the new occupied data, press [F2](S.CO) key. Measurement is Fine N-times measurement mode. To return to previous mode, press [F1](EXIT) key. 6-15 << m DIST. (P1-P2) 1/2 dHD: 10.000 m dVD: 0.000 m NEZ S.CO ––– P↓ 10 Press [F1](NEZ) key to measure other points. *1) *2) *3) *4) *5) POINT TO LINE MEAS.P1 HD*[n] >Measuring... ––– 3.456 m 5.432 m 0.000 m HT MEAS 6 SPECIAL MODE (Menu Mode) 6.2 Setting the GRID FACTOR GRID FACTOR can reset in this menu mode. For more information, refer to Section 8.1.1 “Setting the GRID FACTOR”. Grid Factor can be applied to the following application programs. It is also possible to cancel the Grid factor function by selecting "DON'T USE" in “SELECTING MODE”. At this time the setting and selecting screens for Grid Factor will be omitted. z Data collection mode When the NEZ automatic calculation (NEZ AUTO. CALC) is ON, Grid factor will be applied to the coordinate data (Including PTL data) recorded into a coordinate data file when the RAW data is measured and recorded. (In this case, Grid Factor is not applied to the RAW data recorded into the measured data file.) z PTL (Point To Line measurement) When executing PTL measurement mode, the NEZ Auto Calculation wil be turned on compulsorily and Grid factor will be applied to the coordinate data. z Layout Execution Layout (Including PTL measurement mode) 1. When displaying the difference (dHD) between grid horizontal distance to a layout point (HDg) on the projection plane and measured ground horizontal distance to a prism point (HD), Grid factor will be applied to grid distance (HDg) in order to reverse-convert grid distance to ground distance. 2. After completion of a layout point, the displayed coordinate data will be applied to grid factor in order to compare with surveying data and calculated data on the projection plane. (NEW POINT-Side Shot) In side shot method, a new point coordinate data will be applied to grid factor and the new point coordinate data will be recorded into a coordinate data file. (NEW POINT - Resection) In resection method, when a new point calculated coordinate data is displayed or recorded, the new point coordinate data will be applied to grid factor and the coordinate data will be recorded into a coordinate data file. z MLM (Missing Line Measurement) When selecting grid factor "USE G.F.", measured data will be applied to grid factor. At this time, horizontal distance (dHD) and slope distance (dSD) will be on the projection plane. z AREA (Area calculation/Measured method) When selecting grid factor "USE G.F.", measured data will be applied to grid factor. At this time, the calculated area will be on the projection plane. Note: Calculation of Z coordinate is not influenced even if it is applied to grid factor. Operating procedure Operation 1 After pressing the [MENU] key, press the [F4](P↓) key to get the menu on page 2. [MENU] [F4] 2 Press the [F2](GRID FACTOR) key. [F2] Display MENU 2/3 F1:PROGRAMS F2:GRID FACTOR F3:ILLUMINATION P↓ GRID FACTOR =0.998843 >MODIFY? 6-16 [YES][NO] 6 SPECIAL MODE (Menu Mode) 3 Press the [F3](YES) key. [F3] 4 Enter Elevation. *1) GRID FACTOR ELEV.=1000 m SCALE:0.999000 --- --- [CLR][ENT] Enter ELEV. [F4] Press the [F4](ENT) key. 5 Enter Scale Factor in the same way. Enter Scale [F4] Grid Factor is displayed for 1 to 2 second and display returns to menu. GRID FACTOR ELEV.:2000 m SCALE=1.001000 --- --- [CLR][ENT] GRID FACTOR =1.000686 *1) Refer to Section 2.5 “How to Enter Alphanumeric characters”. z Input Range: Elevation : –9,999 to +9,999 meter (–32,805 to +3,2805 ft, ft+in) Scale Factor: 0.990000 to 1.010000 6.3 Setting Illumination of Display and Cross Hairs Setting ON/OFF/LEVEL (1 to 9) for illumination of display (LCD) and reticle. z Setting LEVEL (1 to 9) is only for reticle. [Example setting] LEVEL: 2 and turn on the illumination. Operating procedure Operation 1 After pressing the [MENU] key, press the [F4](P↓) key to get the menu on page 2. 2 Press the [F3] key. The data previously set is shown. 3 Press the [F3](LEVEL) key. [MENU] [F4] Display MENU 2/3 F1:PROGRAMS F2:GRID FACTOR F3:ILLUMINATION P↓ [F3] ILLUMINATION [OFF:1] F1:ON F2:OFF F3:LEVEL [F3] ILLUMINATION [OFF:1] [LEVEL MODE] ↓ 4 Press the [F2](↑) key, and then press the [F2] [F4] [F4](ENTER) key. 5 Press the [F1](ON) key. [F1] z To return to previous mode, press the [ESC] key. 6-17 ↑ ––– ENTER ILLUMINATION [OFF:2] F1:ON F2:OFF F3:LEVEL ILLUMINATION [ON:2] F1:ON F2:OFF F3:LEVEL 6 SPECIAL MODE (Menu Mode) 6.4 Setting Mode 1 In this mode, the following settings are possible. 1. Setting Minimum Reading 2. Auto Power off 3. Vertical and Horizontal Angle Tilt Correction (Tilt ON/OFF) 4. Systematic Error of Instrument Correction 5. Heater ON/OFF 6. Setting for RS-232C communication z This setting is memorized after power off. 6.4.1 Setting Minimum Reading Select minimum display unit for angle measurement, coarse distance measurement mode. z To select minimum display for fine measurement mode, see Chapter 16 “SELECTING MODE”. Degree Angle Unit GON MIL 5"/1" 1mgon/0.2mgon 0.1mil/0.01mil Coarse mode Distance unit 10mm (0.02ft)/ 1mm (0.005ft) [Example] Minimum angle: 5”, Coarse: 1mm Operating procedure Operation 1 After pressing the [MENU] key, press the [F4](P↓) Display [MENU] [F4] [F4] MENU 3/3 F1:PARAMETERS 1 F2:CONTRAST ADJ. P↓ 2 Press the [F1] key. [F1] PARAMETERS 1 1/2 F1:MINIMUM READING F2:AUTO POWER OFF F3:TILT P↓ 3 Press the [F1] key. [F1] MINIMUM READING F1:ANGLE F2:COARSE 4 Press the [F1] key. [F1] MINIMUM ANGLE [F1: 1" F2: 5" key twice to get the menu on page 3. ] ENTER 5 Press the [F2](5") key and press the [F4](ENTER) [F2] [F4] MINIMUM READING F1:ANGLE F2:COARSE 6 Press the [F2] key. [F2] COARSE READING F1: 1mm [F2:10mm] ENTER 7 Press the [F1] key and press the [F4](ENTER) key. [F1] [F4] MINIMUM READING F1:ANGLE F2:COARSE key. z To return to previous mode, press the [ESC] key. 6-18 6 SPECIAL MODE (Menu Mode) 6.4.2 Auto Power Off If no key operation is given or no process of measurement is performed for more than 30 minutes (No change exceeding 30” has occurred during horizontal angle or vertical angle measurement.), the power turns off automatically. If the instrument is set at distance measurement mode (No change in distance exceeding 10cm has occurred during distance measurement), the mode changes to angle measurement automatically in case that the instrument does not operate for approximately 10 minutes, and the power turns off after 20 minutes. Operating procedure Operation 1 After pressing the [MENU] key, press the [F4](P↓) Display [MENU] [F4] [F4] MENU 3/3 F1:PARAMETERS 1 F2:CONTRAST ADJ. P↓ 2 Press the [F1] key. [F1] PARAMETERS 1 1/3 F1:MINIMUM READING F2:AUTO POWER OFF F3:TILT P↓ 3 Press the [F2] key. [F2] AUTO POWER OFF [OFF] F1:ON F2:OFF ENTER key twice to get the menu on page 3. The data previously set is shown. 4 Press the [F1](ON) key or [F2](OFF) key, and [F1] or [F2] [F4] press the [F4](ENTER) key. 6.4.3 Vertical and Horizontal Angle Tilt correction (Tilt ON/OFF) In case the instrument is used in an unstable situation, constant indexing of vertical and horizontal angle may be impossible. In this case, the function of tilt correction can be stopped by selecting TILT OFF. It has been set to X,Y (V/H) TILT ON at the factory. z This setting is memorized after powering off. Operating procedure Operation 1 After pressing the [MENU] key, press the [F4](P↓) key twice to get the menu on page 3. [MENU] [F4] [F4] Display MENU 3/3 F1:PARAMETERS 1 F2:CONTRAST ADJ. P↓ 2 Press the [F1] key. [F1] PARAMETERS 1 1/3 F1:MINIMUM READING F2:AUTO POWER OFF F3:TILT P↓ 3 Press the [F3] key. [F3] TILT SENSOR:[XY-ON] X: 0°02'10" Y: 0°03'00" X-ON XY-ON OFF ENTER The data previously set is shown. If already ON, the display shows tilt correction value. 4 Press the [F1](X-ON) key or [F2](XY-ON) or [F3](OFF) key, and press the [F4](ENTER) key. 6-19 [F1]~[F3] [F4] 6 SPECIAL MODE (Menu Mode) 6.4.4 Systematic Error of Instrument Correction Setting ON/OFF for error correction of collimation and horizontal axis for angle measurement. Note: Perform this item after complete Section 17.5 “Adjustment of Compensation Systematic Error of Instrument”. Operating procedure Operation 1 After pressing the [MENU] key, press the [F4](P↓) key twice to get the menu on page 2. [MENU] [F4] [F4] Display MENU 3/3 F1:PARAMETERS 1 F2:CONTRAST ADJ. P↓ 2 Press the [F1] key. [F1] PARAMETERS 1 1/3 F1:MINIMUM READING F2:AUTO POWER OFF F3:TILT P↓ 3 Press the [F4] key. [F4] PARAMETERS 1 2/3 F1:ERROR CORRECTION F2:BATTERY TYPE F3:HEATER P↓ 4 Press the [F1] key. [F1] ERROR CORR. F1:ON F2:OFF The data previously set is shown. [OFF] ENTER 5 Press the [F1](ON) key or [F2](OFF) key, and [F1] or [F2] [F4] press the [F4](ENTER) key. 6.4.5 Heater ON/OFF The heater option for both display units can be turned OFF or ON. Operating procedure Operation 1 After pressing the [MENU] key, press the [F4](P↓) key twice to get the menu on page 2. [MENU] [F4] [F4] Display MENU 3/3 F1:PARAMETERS 1 F2:CONTRAST ADJ. P↓ 2 Press the [F1] key. [F1] PARAMETERS 1 1/3 F1:MINIMUM READING F2:AUTO POWER OFF F3:TILT P↓ 3 Press the [F4] key. [F4] PARAMETERS 1 2/3 F1:ERROR CORRECTION F2:BATTERY TYPE F3:HEATER P↓ 4 Press the [F3] key. [F3] HEATER F1:ON F2:OFF The data previously set is shown. [OFF] ENTER 5 Press the [F1](ON) key or [F2](OFF) key, and [F1] or [F2] [F4] press the [F4](ENTER) key. 6-20 6 SPECIAL MODE (Menu Mode) 6.4.6 Setting RS-232C communication with external device You can set the parameters for RS-232C communication with external device from parameters setting menu. The following parameters can be set. Item Baud rate Character bit/Parity Stop bit ACK mode CR, LF REC type Factory setting Selecting items 1200, 2400, 4800, 9600, 19200, 38400 7/Even, 7/Odd, 8/None 1, 2 Standard, Omitted ON, OFF REC-A, REC-B Baud rate: 1200 baud, Character bit/Parity: 7/Even, CRLF: OFF, REC type: REC-A, ACK: Standard ACK mode, CRLF and REC type are interlocked with the same items in the selecting mode. Refer to 16 “SELECTING MODE”. Sample setting STOP BITS: 2 Operating procedure Operation 1 After pressing the [MENU] key, press the [F4](P↓) key twice to get the menu on page 2. [MENU] [F4] [F4] Display MENU 3/3 F1:PARAMETERS 1 F2:CONTRAST ADJ. P↓ 2 Press the [F1] key. [F1] PARAMETERS 1 1/3 F1:MINIMUM READING F2:AUTO POWER OFF F3:TILT P↓ 3 Press the [F4] key twice. [F4] [F4] PARAMETERS 1 F1:RS-232C 3/3 P↓ 4 Press the [F1] key. The data previously set is shown. 5 Press the [F3] key to select STOP BITS. The data previously set is marked. [F1] RS-232C 1/3 F1:BAUD RATE F2:CHAR./PARITY F3:STOP BITS P↓ [F3] STOP BITS [F1:1 ] F2:2 ENTER 6 Press the [F2](2) key to select stop bit 2, and [F2] [F4] press the [F4](ENTER) key. STOP BITS F1:1 [F2:2 ] ENTER 6-21 6 SPECIAL MODE (Menu Mode) 6.5 Setting Contrast of Display Setting level for contrast of display (LCD) Operating procedure Operation 1 After pressing the [MENU] key, press the [F4](P↓) key twice to get the menu on page 3. 2 Press the [F2] key. Display [MENU] [F4] [F4] MENU 3/3 F1:PARAMETERS 1 F2:CONTRAST ADJ. P↓ [F2] CONTRAST ADJUSTMENT LEVEL: 4 ↓ 3 Press the [F1](↓) key or [F2](↑) key, and press the [F4](ENTER) key. 6-22 [F1] or [F2] [F4] ↑ ––– ENTER 6 SPECIAL MODE (Menu Mode) 6.6 ROAD z Road menu operation PROGRAMS 2/2 F1:AREA F2:POINT TO LINE F3:ROAD P↓ Press F3 key ROAD F1:INPUT DATA F2:SETOUT F3:INITIALIZE Input start point F1 INPUT DATA F1:START POINT F2:H ALIGNMENT F1 START POINT N > 0.000 m E : 0.000 m INPUT --- --- ENTER Input road data F2 H ALIGNMENT F1:DATA INPUT F2:DATA SEARCH F1:LINE F1 F2:CURVE F3:SPIRAL F4:POINT LINE L > AZ: INPUT --- 01 0.000 m 0°00’00” --- ENTER F2 CURVE R > L : INPUT --- 02 0.000 m 0.000 m --- ENTER F3 SPIRAL R > L : INPUT --- 03 0.000 m 0.000 m --- ENTER F4 POINT N > E : INPUT --- 04 0.000 m 0.000 m --- ENTER F1 Search data F2 DATA SEARCH F1:FIRST DATA F2:LAST DATA Set OCC and BS F2 SETOUT F1:OCC&BS F2:SETOUT ROAD F3:SELECT A FILE F1 F2 OCC&BS F1:OCC&BS F2:RESECTION F1 Set out road Resection SETOUT ROAD CHAIN:1000.000 NO01# PT#:__________ INPUT --- --- ENTER F2 Select a file F3 SELECT A FILE FN:__________ INPUT LIST --- ENTER Initialize ROAD data INITIALIZE DATA F3 ERASE ROAD DATA >OK ? OCC&BS F1:COORD. DATA F2:ROAD DATA [NO][YES] 6-23 INPUT LIST NEZ ENTER Edit data LINE F1 L : AZ: EDIT 01/30 100.000 m 45°00’00” 6 SPECIAL MODE (Menu Mode) 6.6.1 Input Start Point To input the start point, carry out the following operating procedure. Operating procedure Operation 1 After pressing the [MENU] key, press the [F4](P↓), [F1], [F4]key to get the programs menu on page 2/2. 2 Press the [F3], [F1], [F1] key. [MENU] [F4] [F1] [F4] Display PROGRAMS 2/2 F1:AREA F2:POINT TO LINE F3:ROAD P↓ [F3] [F1] [F1] START POINT N = 0.000 m E : 0.000 m ––– ––– [CLR][ENT] 3 Input coord N, E. 4 Press the [ENT] key. Input coord [ENT] START POINT CHAIN = 0.000 m INTERVAL:100.000 m ––– ––– [CLR][ENT] 5 Input value data CHAIN, INTERVAL. 6 Press the [ENT] key. Input data [ENT] (Refer to “Input start point” on page 6-23.) <SET!> INPUT DATA F1:START POINT F2:H ALIGNMENT z For [ROAD], in addition to the “Start Point” and “Road Data” input files, other files necessary for the calculations are created. Consequently, if the free area of the memory reaches 10% or less, a “MEMORY POOR” warning message is displayed. (In this case, the instrument can still be operated.) z CHAIN and INTERVAL input range -50,000m≤ CHAIN ≤ +500,000m 0m<INTERVAL ≤ +5,000m 6-24 6 SPECIAL MODE (Menu Mode) 6.6.2 Input Road Data [ROAD] is made up of four types of components: LINE, CURVE, SPIRAL and POINT. To input the required components, carry out the following operating procedure. Operating procedure Operation 1 After pressing the [MENU] key, press the [F4](P↓), [F1], [F4]key to get the programs menu on page 2/2. 2 Press the [F3], [F1], [F2],[F1] key. [MENU] [F4] [F1] [F4] [F3] [F1] [F2] [F1] (Refer to “Input road data” on page 6-23.) Display PROGRAMS 2/2 F1:AREA F2:POINT TO LINE F3:ROAD P↓ F1:LINE F2:CURVE F3:SPIRAL F4:POINT z The amount of input data varies depending on the type of data, up to a maximum of 30. (In the case of POINT input only, the maximum is 9 points including end point.) z An error may occur when entering a combination of POINT and other components if the amount of data entered exceeds the maximum amount allowed for internal calculations. If this happens, please reduce the amount of input data. z Input LINE data Operating procedure Operation Display F1:LINE F2:CURVE F3:SPIRAL F4:POINT 1 To input LINE data, press the [F1] key. *1) 2 Input LENGTH. 3 Press the [ENT] key. [F1] LINE 01 L = 0.000 m AZ: 0°00’00” ––– ––– [CLR][ENT] Input LENGTH LINE 01 L : 100.000 m AZ= 0°00’00” ––– ––– [CLR][ENT] [ENT] 4 Input AZIMUTH. 5 Press the [ENT] key. Input AZIMUTH [ENT] <SET!> *1) The number at the top right of the screen shows the amount of data currently entered. 6-25 6 SPECIAL MODE (Menu Mode) z Input CURVE data Operating procedure Operation Display F1:LINE F2:CURVE F3:SPIRAL F4:POINT 1 To input CURVE data, press the [F2] key. *1) [F2] 2 Input RADIUS. 3 Press the [ENT] key. Input RADIUS [ENT] CURVE 02 R = 0.000 m L : 0.000 m ––– ––– [CLR][ENT] CURVE 02 R : 100.000 m L = 0.000 m ––– ––– [CLR][ENT] Input LENGTH 4 Input LENGTH. 5 Press the [ENT] key. [ENT] 6 Select TURN(direction of turn): RIGHT or LEFT. 7 Press the [ENT] key. Select [F1](LEFT) or [F2](RIGHT) CURVE TURN > RIGHT LEFT RIGHT ––– ENTER [ENT] <SET!> *1) CURVE cannot be input as the first data. 6-26 02 6 SPECIAL MODE (Menu Mode) z Input SPIRAL data Operating procedure Operation Display F1:LINE F2:CURVE F3:SPIRAL F4:POINT 1 To input SPIRAL data, press the [F3] key. *1) 2 Input RADIUS. 3 Press the [ENT] key. [F3] SPIRAL 03 R = 0.000 m L : 0.000 m ––– ––– [CLR][ENT] Input RADIUS [ENT] SPIRAL 03 R : 100.000 m L = 0.000 m ––– ––– [CLR][ENT] Input LENGTH [ENT] 4 Input LENGTH. 5 Press the [ENT] key. 6 Select TURN(direction of turn): RIGHT or LEFT. 7 Press the [ENT] key. Select [F1](LEFT) or [F2](RIGHT) SPIRAL 03 TURN > RIGHT DIR : IN LEFT RIGHT ––– ENTER [ENT] 8 Select DIR(direction): IN(entrance) or OUT(exit). 9 Press the [ENT] key. Select [F1](IN) or [F2](OUT) SPIRAL 03 TURN : LEFT DIR > IN IN OUT ––– ENTER [ENT] <SET!> *1) SPIRAL cannot be input as the first data. 6-27 6 SPECIAL MODE (Menu Mode) z Input POINT data Operating procedure Operation Display F1:LINE F2:CURVE F3:SPIRAL F4:POINT 1 To input POINT data, press the [F4] key. [F4] POINT 04 N = 0.000 m E : 0.000 m ––– ––– [CLR][ENT] 2 Input N coord. 3 Press the [ENT] key. Input N coord [ENT] POINT 04 N : 100.000 m E = 0.000 m ––– ––– [CLR][ENT] 4 Input E coord. 5 Press the [ENT] key. Input E coord [ENT] 6 Input RADIUS. *1) 7 Press the [ENT] key. Input RADIUS [ENT] R : 100.000 m A1> 0.000 A2: 0.000 INPUT ––– SKIP ENTER Input parameter A1 [ENT] R : 100.000 m A1: 80.000 A2> 0.000 INPUT ––– SKIP ENTER 8 Input parameter A1. *1) 9 Press the [ENT] key. 10 Input parameter A2. *1) 11 Press the [ENT] key. R > 0.000 m A1: 0.000 A2: 0.000 INPUT ––– SKIP ENTER Input parameter A2 [ENT] <SET!> *1) If the data input is not required, press the [SKIP] key. z When inputting POINT data, if the next data is not POINT data, ROAD is calculated as a straight line irrespective of the values for RADIUS, A1 and A2. 6-28 6 SPECIAL MODE (Menu Mode) 6.6.3 Search Data To search for input data, carry out the following operating procedure. Operating procedure Operation 1 After pressing the [MENU] key, press the [F4](P↓), [F1], [F4]key to get the programs menu on page 2/2. 2 Press the [F3], [F1], [F2], [F2] key. [MENU] [F4] [F1] [F4] [F3] [F1] [F2] [F2] (Refer to “Search data” on page 6-23.) 3 To search from the first data, select [F1] (FIRST DATA). 4 To switch to different data, press the [↓] or [↑] key. [F1] Display PROGRAMS 2/2 F1:AREA F2:POINT TO LINE F3:ROAD P↓ DATA SEARCH F1:FIRST DATA F2:LAST DATA LINE L : AZ: EDIT 01/30 100.000 m 45°00’00” ↓ [↓] or [↑] SPIRAL R : L : EDIT 30/30 200.000 m 100.000 m ↓ 6.6.4 Edit Data To edit input data, carry out the following operating procedure. Operating procedure Operation Display LINE L : AZ: EDIT 1 In DATA SEARCH, press the [F1] key. [F1] 2 Edit the data. Edit data 6-29 01/30 100.000 m 45°00’00” ↓ LINE 01 L = 100.000 m AZ: 45°00’00” ––– ––– [CLR][ENT] 6 SPECIAL MODE (Menu Mode) 6.6.5 Set OCC and BS To set the Occupied Point and Backsight Point, carry out the following operating procedure. Operating procedure Operation 1 After pressing the [MENU] key, press the [F4](P↓), [F1], [F4]key to get the programs menu on page 2/2. 2 Press the [F3], [F2], [F1] key. [MENU] [F4] [F1] [F4] [F3] [F2] [F1] (Refer to “Set OCC and BS” on page 6-23.) 3 Press the [F1] key. *1) [F1] 4 To input OCC. PT, press [F2] the [F1](COORD. DATA) or [F2](ROAD DATA) key. COORD. DATA: Choose the data from Coord Data and set the Occupied Point. Display PROGRAMS 2/2 F1:AREA F2:POINT TO LINE F3:ROAD P↓ OCC&BS F1:OCC&BS F2:RESECTION OCC&BS F1:COORD. DATA F2:ROAD DATA OCC.PT CHAIN= ––– ––– [CLR][ENT] ROAD DATA: Create the data from Road Data and set the Occupied Point. (Example: ROAD DATA) 5 Input OCC. PT, press the [ENT] key. Input OCC. PT 6 Press the [ENT] key. CHAIN:1000.000 >CENTER [ENT] LEFT RIGHT ––– ENTER [ENT] CHAIN:1000.000 N : 0.000 m E : 0.000 m >OK ? [YES][NO] LEFT or RIGHT: Use the offset point. CENTER: Use the center point. (Example: CENTER) 7 Press the [F3](YES) key. [F3] BACKSIGHT CHAIN= ––– ––– [CLR][ENT] 8 Input the backsight. Input Backsight 9 Press the [ENT] key. [ENT] CHAIN: 0.000 >CENTER LEFT RIGHT --- ENTER 6-30 6 SPECIAL MODE (Menu Mode) 10 Collimate the backsight. Collimate Backsight BACKSIGHT H(B)= 45°00’00” >Sight? 11 Press the [F3](YES) key. [YES][NO] [F3] <SET!> SETOUT F1:OCC&BS F2:SETOUT ROAD F3:SELECT A FILE *1) When setting the Occupied Point and Backsight Point using Resection method, select [F2] (RESECTION). For details of the Resection method, refer to Section 8.3.2 “Resection Method”. 6-31 6 SPECIAL MODE (Menu Mode) 6.6.6 Setout Road To setout the road, carry out the following operating procedure. Operating procedure Operation 1 After pressing the [MENU] key, press the [F4](P↓), [F1], [F4]key to get the programs menu on page 2/2. 2 Press the [F3], [F2], [F2] key. [MENU] [F4] [F1] [F4] [F3] [F2] [F2] (Refer to “Set out road” on page 6-23.) Display PROGRAMS 2/2 F1:AREA F2:POINT TO LINE F3:ROAD P↓ SETOUT ROAD CHAIN= --- 3 Input data. Input data SETOUT ROAD CHAIN=1200 --- 4 Press the [ENT] key. [ENT] --- [CLR][ENT] --- [CLR][ENT] CHAIN:1200 > CENTER LEFT RIGHT --- ENTER 5 Select offset. [F2] (Example: RIGHT) Press the [F2] key. *1) 6 Input the offset value. Input offset value 7 Press the [ENT] key. [ENT] CHAIN:1200 : RIGHT = m --- --- [CLR][ENT] CHAIN:1200 N : 0.000 m E : 0.000 m >OK ? [YES][NO] The setout point coordinates are displayed. 8 Press the [F3](YES) key. The distance to the setout point and the backsight are displayed. [F3] CALCULATED HR= 60°00’00” HD= 100.000 m ANG DIST --- --- [F1] CHAIN:1200 HR: 60°00’00” dHR: 0°00’00” DIST --- NEZ --- [F1] HD* dHD: HR: Calculated horizontal angle of the layout point HD: Calculated horizontal distance from the instrument to the layout point 9 Press the [F1](ANG) key. CHAIN: Layout point HR: Measured (Actual) horizontal angle. dHR: Horizontal angle to be turned to the layout point = Actual horizontal angle - Calculated horizontal angle. Correct direction when dHR = 0°00'00" 10 Press the [F1](DIST) key. HD: Measuring (Actual) horizontal distance dHD: Horizontal distance to be turned to the layout point = Actual horizontal distance – Calculated horizontal distance. 6-32 MODE 100.000 m 0.000 m ANG NEZ NEXT 6 SPECIAL MODE (Menu Mode) 11 Press the [F3](NEZ) key. [F3] The coordinate data is shown. N * E : MODE 12 Press the [F4](NEXT) key to set next layout point. 70.000 m 50.000 m ANG --- NEXT [F4] *1) If not selecting offset, press the [ENT] key. 6.6.7 Select a File To set the coordinates to be used for the Occupied Point and Backsight Point, carry out the following operating procedure. Operating procedure Operation 1 After pressing the [MENU] key, press the [F4](P↓), [F1], [F4]key to get the programs menu on page 2/2. 2 Press the [F3], [F2] key. (Refer to “Select a file” on page 6-23.) 3 Press the [F3] key. [MENU] [F4] [F1] [F4] Display PROGRAMS 2/2 F1:AREA F2:POINT TO LINE F3:ROAD P↓ [F3] [F2] SETOUT F1:OCC&BS F2:SETOUT ROAD F3:SELECT A FILE [F3] SELECT A FILE FN:__________ INPUT LIST --- ENTER 4 Enter the name of the file being used (or select it Select a file from the list). 5 Press the [ENT] key. [ENT] 6.6.8 Initialize ROAD data To initialize the data, carry out the following operating procedure. Operating procedure Operation 1 After pressing the [MENU] key, press the [F4](P↓), [F1], [F4]key to get the programs menu on page 2/2. 2 Press the [F3], [F3] key. [MENU] [F4] [F1] [F4] [F3] [F3] (Refer to “Initialize ROAD data” on page 6-23.) Display PROGRAMS 2/2 F1:AREA F2:POINT TO LINE F3:ROAD P↓ INITIALIZE DATA ERASE ROAD DATA >OK ? 3 When the [F4] (YES) key is pressed, all ROAD DATA with the exception of the coordinate data file is erased. [F4] Press the [F4] key. 6-33 [NO][YES] 7 DATA COLLECTION 7 DATA COLLECTION The SET are able to store the measured data into the internal memory. The internal memory is shared by the measured data files and the coordinate data files. Maximum 30 files can be generated. z Measured data The collected data is memorized into a files. z The number of measurement points ( In case not using the internal memory in layout mode) MAX. 24,000 points Because the internal memory covers both data collection mode and layout mode, the number of measurement points will be decreased when the layout mode is used. For the internal memory, refer to Chapter 9 “MEMORY MANAGER MODE”. 1) When turning off the power, ensure that you are in the main menu screen or main angle measurement mode. This ensures completion of the memory access process and avoids possible damage to the stored data. 2) It is recommended for safety to charge the battery (BT-G1S) beforehand and prepare fully charged spare batteries. 7-1 7 DATA COLLECTION z Data collect menu operation By pressing the [MENU] key, the instrument will be in MENU 1/3 mode. Press the [F1](DATA COLLECT) key, the menu of data collect 1/2 will be shown. Normal measurement mode [ESC] [MENU] MENU 1/3 F1:DATA COLLECT F2:LAYOUT F3:MEMORY MGR. P↓ [F1] SELECT A FILE FN: Selecting data collection file INPUT LIST ––– ENTER Set file DATA COLLECT 1/2 F1:OCC.PT# INPUT F2:BACKSIGHT F3:FS/SS P↓ [ESC] [F1] DATA COLLECTION MENU 1/2 [F2] BACK SIGHT Setting direction angle See Section 7.1.3 “Occupied Point and Backsight Point”. [F4] [F3] DATA COLLECT 2/2 F1:SELECT A FILE F2:PCODE INPUT F3:CONFIG. P↓ OCC.PT# INPUT Setting occupied point See Section 7.1.3 “Occupied Point and Backsight Point”. [ESC] [F1] FS/SS Executing data collection See section 7.2 “Operational Procedure of “DATA COLLECT”” SELECT A FILE File can be selected for Data collect. See Section 7.1.1 “Selecting a File for Data Collection”. DATA COLLECTION MENU 2/2 [F2] PCODE INPUT [F3] Editing PCODE library See Section 7.6 “Editing PCODE Library [PCODE INPUT]” CONFIG Setting Parameter of Data Collect See Section 7.7 “Setting Parameter of Data Collect [CONFIG.]”. 7-2 7 DATA COLLECTION 7.1 Preparation 7.1.1 Selecting a File for Data Collection A file used by data collection mode must be selected at first. Select a file before beginning data collection mode because selection screen of a file is displayed. And a selection from data collection menu is possible in the mode. Operating procedure Operation Display MENU 1/3 F1:DATA COLLECT F2:LAYOUT F3:MEMORY MGR. P↓ 1 Press [F1](DATA COLLECT) key from menu 1/3. SELECT A FILE FN:_________ [F1] INPUT LIST ––– ENTER 2 Press [F2](LIST) key to display the list of file. *1) 3 Scroll file list by pressing [ ] or [ ] key and [ select a file to use. *2), 3) 4 Press [F4](ENTER) key. The file will be set and data collect 1/2 menu will be shown. AMIDATA /M0123 →*HILDATA /M0345 TOPDATA /M0789 ––– SRCH ––– ENTER [F2] ] or [ ] [F4] TOPDATA /M0789 →RAPDATA /M0564 SATDATA /M0456 ––– SRCH ––– ENTER DATA COLLECT 1/2 F1:OCC.PT# INPUT F2:BACKSIGHT F3:FS/SS P↓ *1) If you want to make a new file or input file name directly, press [F1](INPUT) key and enter a file name. *2) When a file has been selected already, '*' mark is indicated on left of current file name. *3) Data in a file shown with arrow can be searched by pressing [F2](SRCH) key. z It is possible to select a file from DATA COLLECT 2/2 menu in the same way. 7-3 DATA COLLECT 2/2 F1:SELECT A FILE F2:PCODE INPUT F3:CONFIG. P↓ 7 DATA COLLECTION 7.1.2 Selecting a Coordinate File for Data Collection When coordinate data in a coordinate data file are used for occupied point or backsight point, select a coordinate file from the data collect menu 2/2 beforehand. Operating procedure Operation Display DATA COLLECT 2/2 F1:SELECT A FILE F2:PCODE INPUT F3:CONFIG. P↓ 1 Press the [F1](SELECT A FILE) key from DATA [F1] COLLECT menu 2/2. 2 Press the [F2](COORD.DATA) key. [F2] SELECT A FILE F1:MEAS.DATA F2:COORD.DATA SELECT A FILE FN: INPUT LIST --- ENTER 3 Select a coordinate file in the same manner as Section 7.1.1 “Selecting a File for Data Collection”. 7.1.3 Occupied Point and Backsight Point The occupied point and direction angle in the data collect mode are linked with the occupied point and direction angle in normal coordinate measurement. It is possible to set or change the occupied point and direction angle from the data collect mode. Occupied point can be set by two setting methods as follow. 1) Setting from the coordinate data stored in the internal memory. 2) Direct key input. The following three setting methods for backsight point can be selected. 1) Setting from the coordinate data stored in the internal memory. 2) Direct key input of coordinate data. 3) Direct key input of setting angle. Note: See 9.4 “Coordinate Data Direct Key Input” and 9.7.2 “Loading Data” for how to store coordinate into the internal memory. z Example for setting the occupied point: In case of setting occupied point from the coordinate data stored in the internal memory. Operating procedure 1 Press the [F1](OCC.PT# INPUT) key from the data collect menu 1/2. The previous data is shown. 2 Press the [F4] (OCNEZ) key. Operation Display [F1] PT# → PT-01 ID : INS.HT: 0.000 m INPUT SRCH REC OCNEZ [F4] OCC.PT PT#:PT-01 INPUT LIST NEZ ENTER 3 Press the [F1](INPUT) key. [F1] OCC.PT PT#=PT-01 [ALP][SPC][CLR][ENT] 7-4 7 DATA COLLECTION 4 Enter PT#, press [F4](ENT) key. *1) Enter PT# [F4] PT# → PT-11 ID : INS.HT: 0.000 m INPUT SRCH REC OCNEZ 5 Enter ID, INS.HT in the same way. *2), 3) Enter ID, INS.HT PT# :PT-11 ID : INS.HT→ 1.335 m INPUT SRCH REC OCNEZ >REC ? [YES][NO] 6 Press [F3](REC) key. [F3] 7 Press [F3](YES) key. [F3] The display returns to the data collect menu 1/2. DATA COLLECT 1/2 F1:OCC.PT# INPUT F2:BACKSIGHT F3:FS/SS P↓ *1) Refer to Section 2.5 “How to Enter Alphanumeric characters”. *2) ID can be input by inputting a register number linked with PCODE Library. To show the list of PCODE library, press the [F2](SRCH) key. *3) Press the [F3](REC) key when you do not input the INS.HT. z The data recorded in data collect is PT#, ID and INS.HT. z If point is not found in internal memory "PT# DOES NOT EXIST" is displayed. 7-5 7 DATA COLLECTION z Example for setting the direction angle: The following is to memorize the data of the backsight after setting the backsight point from point number. Operating procedure Operation 1 Press the [F2](BACKSIGHT) key from the data collect menu 1/2. The previous data is shown. 2 Press the [F4] (BS) key. *1) Display → : : 0.000 m 0SET MEAS BS [F2] BS# PCODE R.HT INPUT [F4] BACKSIGHT PT#: INPUT LIST NE/AZ ENT 3 Press the [F1](INPUT) key. [F1] BACKSIGHT PT#= [ALP][SPC][CLR][ENT] 4 Enter PT#, press the [F4](ENT) key. *2) Enter PT# [F4] BS# PCODE R.HT INPUT → PT-22 : : 0.000 m 0SET MEAS BS 5 Press the [F3](MEAS) key. [F3] BS# PCODE R.HT *VH → PT-22 : : 0.000 m SD NEZ ––– 6 Collimate back sight point. Collimate BS [F2] Enter PCODE,R.HT in the same way. *3), 4) Select one of the measuring mode and press the soft key. EXAMPLE: [F2](Slope Distance) key. Measuring starts. Horizontal circle is set to calculated direction angle. Measuring result is memorized and the display returns to the data collect menu 1/2. V : 90°00'00" HR: 0°00'00" SD*[n] <<< m > Measuring... DATA COLLECT 1/2 F1:OCC.PT# INPUT F2:BACKSIGHT F3:FS/SS P↓ *1) Pressing each time the [F3] key, the input method changes as Coordinate value, Angle, Coordinate point name alternatively. *2) Refer to Chapter 2.5 “How to Enter Alphanumeric characters”. *3) PCODE can be input by inputting a register number linked with PCODE Library. To show the list of PCODE library, press the [F2](SRCH) key. *4) Data collect sequence can be set to [MEAS→ EDIT]. Refer to Section 7.7 “Setting Parameter of Data Collect [CONFIG.]”. z If point is not found in internal memory " PT# DOES NOT EXIST" is displayed. 7-6 7 DATA COLLECTION 7.2 Operational Procedure of “DATA COLLECT” Operating procedure Operation Display DATA COLLECT 1/2 F1:OCC.PT# INPUT F2:BACKSIGHT F3:FS/SS P↓ 1 Press the [F3](FS/SS) key from the data collect [F3] menu 1/2. The previous data is shown. 2 Press the [F1](INPUT) key and enter PT#. [F1] Enter PT# [F4] Press the [F4](ENT) key. *1) PT# PCODE R.HT INPUT PT# =PT-01 PCODE : R.HT : 0.000 m [ALP][SPC][CLR][ENT] PT# PCODE R.HT INPUT 3 Enter PCODE, R.HT in the same way. *2), 3) [F1] Enter PCODE [F4] [F1] EnterR.HT [F4] [F3] 4 Press the [F3](MEAS) key. 5 Collimate the target point. → : : 0.000 m SRCH MEAS ALL :PT-01 → : 0.000 m SRCH MEAS ALL PT# → PT-01 PCODE :SOKKIA R.HT : 1.200 m INPUT SRCH MEAS ALL VH *SD NEZ OFSET Collimate 6 Press one of the [F1] to [F3] key. *4) [F2] Example: [F2](SD) key. Measuring starts. The measuring data is memorized and the display changes to the next point. *5) PT# is automatically incremented. 7 Enter the next point data and collimate the next V : 90°10'20" HR: 120°30'40" SD*[n] < m > Measuring... < complete > PT# PCODE R.HT INPUT → PT-02 :SOKKIA : 1.200 m SRCH MEAS ALL Collimate point. 8 Press [F4](ALL) key. Measuring starts in the same measuring mode of the previous point. Data is recorded. [F4] V : 90°10'20" HR: 120°30'40" SD*[n] < m > Measuring... < complete > PT# PCODE R.HT INPUT Continue the measuring in the same way. To finish the mode , press [ESC] key. 7-7 → PT-03 :SOKKIA : 1.200 m SRCH MEAS ALL 7 DATA COLLECTION *1) Refer to Section 2.5 “How to Enter Alphanumeric characters”. *2) PCODE can be input by inputting a register number linked with PCODE Library. To show the list of PCODE library, press the [F2](SRCH) key. *3) Data collect sequence can be set to [MEAS→ EDIT]. See to Section 7.7 “Setting Parameter of Data Collect [CONFIG.]”. *4) The mark "*" indicates the previous measuring mode. *5) You can confirm the measured data as follows. Refer to Section 7.7 “Setting Parameter of Data Collect [CONFIG.]”. V : 90°10'20" HR: 120°30'40" SD: 98.765 m > OK ? [YES][NO] z Searching the recorded data While executing the DATA COLLECT mode, you can search the recorded data. Operating procedure Operation Display PT# PCODE R.HT INPUT 1 While executing the DATA COLLECT mode, [F2] press [F2](SRCH) key. *1) The using file name will appear on the top of the right side of the display. 2 Select one of three search methods by pressing [F1] to [F3] key. *2) → PT-02 : : 1.200 m SRCH MEAS ALL SEARCH [SOKKIA] F1:FIRST DATA F2:LAST DATA F3:PT# DATA [F1] to [F3] *1) It is possible to see the PCODE list when the arrow is located beside PCODE or ID. *2) The operation is same as the "SEARCH" in the MEMORY MANAGER mode. For more information, refer to Section 9.2 “Searching Data”. 7-8 7 DATA COLLECTION z Entering PCODE/ID using PCODE Library While executing the DATA COLLECT mode, you can enter PCODE/ID from PCODE Library. Operating procedure Operation Display PT# PCODE R.HT INPUT 1 Move the arrow to the PCODE or ID in the DATA 2 PT# :PT-02 PCODE =32 R.HT : 1.200 m [ALP][SPC][CLR][ENT] [F1] COLLECT mode, press the [F1](INPUT) key. Enter a register number linked with PCODE library and press the [F4](ENT) key. (Example) Register number, 32 = SOKKIA :PT-02 → : 1.200 m SRCH MEAS ALL Enter No [F4] PT# PCODE R.HT INPUT :PT-02 :SOKKIA → 1.200 m SRCH MEAS ALL z Entering PCODE/ID from the list of PCODE You can also enter PCODE/ID from the list of PCODE. Operating procedure Operation Display PT# PCODE R.HT INPUT 1 Move the arrow to the PCODE or ID in the DATA [F2] COLLECT mode, press the [F2](SRCH) key. → 001:PCODE01 002:PCODE02 EDIT ––– CLR ENTER 2 By pressing the following keys, the register number will increase or decrease. [ ] or [ ]: Increasing or Decreasing one by one [ ] or [ :PT-02 → : 1.200 m SRCH MEAS ALL [ ] or [ ] [ ] or [ ] ]: By ten Increasing or Decreasing. *1) 3 Press the [F4](ENTER) key. [F4] 031:PCODE31 → 032:SOKKIA 033:HILTOP EDIT ––– CLR ENTER PT# PCODE R.HT INPUT :PT-02 :SOKKIA → 1.200 m SRCH MEAS ALL *1) To edit the PCODE library, press the [F1](EDIT) key. To delete the PCODE registered with shown an arrow, press the [F3](CLR) key. PCODE can be edited in DATA COLLECT menu 2/2 or MEMORY MANAGER menu 2/3. 7-9 7 DATA COLLECTION 7.3 Data Collect Offset Measurement mode This mode is useful when it is difficult to set up the prism directly, for example at the center of a tree. Data Collect. Offset Measurement has four measuring methods. z Angle offset measurement z Distance offset measurement z Plane offset measurement z Column offset measurement 7.3.1 Angle Offset Measurement Place the prism at the same horizontal distance from the instrument as that of point A0 to measure. When measuring coordinates of ground point A1: Set the instrument height/prism height. When measuring coordinates of point A0: Set the instrument height only. (Set the prism height to 0). Prism P When sighting to A0, you can select one of two ways. One is to fix vertical angle to the prism position even up down the telescope position, and the other is to gear vertical angle to the up down of telescope movement. In case following the vertical angle to the movement of telescope, SD (Slope Distance) and VD (Vertical Distance) will be changed according to the movement of telescope. To set this option, refer to Chapter 16 “SELECTING MODE”. Prism height Instrument height Occ.Point Operating procedure Operation Display 1 Press the [F3](MEAS) key. [F3] PT# → PT-11 PCODE :SOKKIA R.HT : 1.200 m INPUT SRCH MEAS ALL VH *SD NEZ P1↓ OFSET PTL P2↓ 2 Press the [F4](P1↓ ) key, [F1](OFSET) key. [F4] [F1] OFFSET 1/2 F1:ANG. OFFSET F2:DIST. OFFSET F3:PLANE OFFSET P↓ 3 Press the [F1] key. [F1] OFFSET-MEASUREMENT HR: 120°30'40" HD: m >Sight ? [YES][NO] 4 Collimate the prism. Collimate P 5 Press the [F3](YES) key. [F3] Continuous measuring starts. 7-10 OFFSET-MEASUREMENT HR: 120°30'40" HD*[n] < m >measuring ... 7 DATA COLLECTION OFFSET-MEASUREMENT HR: 120°30'40" SD* 12.345 m >OK? [YES][NO] 6 Collimate point A0 using the horizontal motion Collimate A0 clamp and horizontal tangent screw. 7 Show the horizontal distance of point A0. 8 Show the relative elevation of point A0. z Each time pressing [ ] key, horizontal distance , relative elevation and slope distance are shown in sequence. 9 Show N coordinate of point A0 or A1. z Each time pressing [ ] key, N,E and Z coordinate are shown in sequence. 10 Press the [F3](YES) key. [ ] OFFSET-MEASUREMENT HR: 123°30'40" HD: 6.543 m >OK? [YES][NO] [ ] OFFSET-MEASUREMENT HR: 123°30'40" VD: 0.843 m >OK? [YES][NO] [ ] OFFSET-MEASUREMENT HR: 123°30'40" N : –12.345 m >OK? [YES][NO] [F3] The data is recorded and the next measuring point is displayed. 7-11 OFFSET-MEASUREMENT HR: 123°30'40" SD: 12.345 m >OK? [YES][NO] PT# PCODE R.HT INPUT → PT-12 :SOKKIA : 1.200 m SRCH MEAS ALL 7 DATA COLLECTION 7.3.2 Distance Offset Measurement The measurement of a place apart from a prism is possible by inputting offset horizontal distance of front and back/right and left. Forward HD oHD sign RorL HD Prism height Prism P Instrument height Occ.Point When measuring coordinates of ground point A1: Set the instrument height/prism height. When measuring coordinates of point A0: Set the instrument height only. (Set the prism height to 0). Operating procedure Operation Display PT# → PT-11 PCODE :SOKKIA R.HT : 1.200 m INPUT SRCH MEAS ALL VH *SD NEZ P1↓ OFSET PTL P2↓ 1 Press the [F3](MEAS) key. [F3] 2 Press the [F4](P1↓ ) key, [F1](OFSET) key. [F4] [F1] OFFSET 1/2 F1:ANG. OFFSET F2:DIST. OFFSET F3:PLANE OFFSET P↓ 3 Press the [F2] key. [F2] DISTANCE OFFSET INPUT RorL HD oHD: 0.000 m --- --- [CLR][ENT] 4 Enter Right and Left direction offset value.*1) Enter HD [F4] DISTANCE OFFSET INPUT FORWARD HD oHD: 0.000 m --- --- [CLR][ENT] 5 Enter Forward direction offset value. *1) Enter HD [F4] PT# :PT-11 PCODE : SOKKIA R.HT : 1.200 m --- *SD NEZ --- 7-12 7 DATA COLLECTION 6 Collimate the prism. Collimate P 7 Press the [F2] or [F3] key. [F3] Example: [F3](NEZ) key Measuring starts. The data is recorded and the next measuring point is displayed. *1) To skip entering, press the [F3](SKP) key. 7-13 N*[n] <<< m E : m Z : m >measuring ... >Calculating... PT# PCODE R.HT INPUT → PT-12 :SOKKIA : 1.200 m SRCH MEAS ALL 7 DATA COLLECTION 7.3.3 Plane Offset Measurement Measuring will be taken for the place where direct measuring can not be done, for example distance or coordinate measuring for a edge of a plane. Three random points (P1, P2, P3) on a plane will be measured at first in the plane offset measurement to determine the measured plane. Collimate the measuring point (P0) then the instrument calculates and displays coordinate and distance value of cross point between collimation axis and of the plane.. (Prism) (Point without prism) (Prism) (Prism) Prism heights of P1 to P3 is set to zero automatically. Operating procedure Operation Display → PT-11 PT# PCODE :SOKKIA R.HT : 1.200 m INPUT SRCH MEAS ALL VH *SD NEZ P1↓ OFSET PTL P2↓ 1 Press the [F3](MEAS) key. [F3] 2 Press the [F4](P1↓ ) key, [F1](OFSET) key. [F4] [F1] OFFSET 1/2 F1:ANG.OFFSET F2:DIST.OFFSET F3:PLANE OFFSET P↓ 3 Press the [F3](PLANE OFFSET) key. [F3] PLANE N001#: SD: MEAS --- 4 Collimate prism P1, and press the [F1](MEAS) key. Measuring will start. After measuring, the display will show the second point measurement. 5 Measure the second and third points in the same way. 7-14 m --- --- Collimate P1 [F1] PLANE N001#: SD* [n] << m >Measuring... Collimate P2 [F1] PLANE N002#: SD: MEAS --- m --- --- 7 DATA COLLECTION Collimate P3 [F1] The display changes to PT# input in the plane offset measurement. *1) Input point number if necessary. PLANE N003#: SD: MEAS --- m --- --- PLANE PT# → PT-11 PCODE :SOKKIA INPUT SRCH --- MEAS 6 Press the [F4](MEAS) key. The instrument calculates and displays coordinate and distance value of cross point between collimation axis and of the plane. *2) 7 Collimate the edge (P0) of the plane. *3), 4) [F4] HR: HD: VD: >OK? 80°30'40" 54.321 m 10.000 m [YES][NO] Collimate P0 HR: HD: VD: >OK? 75°30'40" 54.600 m -0.487 m [YES][NO] V : HR: SD: >OK? 90°30'40" 75°30'40" 54.602 m [YES][NO] 8 To show the slope distance (SD), press the [ ] key. z Each time pressing the [ ] key, horizontal distance, relative elevation and slope distance are shown in sequence. z To show coordinate value of point P0, press the [ ] key. 9 Press the [F3](YES) key. The measured data will be recorded and the next offset point number will be displayed. 10 To escape the measuring, press the [ESC] key. [F3] [ESC] The display returns to the next point number in data collect mode. PLANE → PT-12 PT# PCODE :SOKKIA INPUT SRCH --- MEAS PT# PCODE R.HT INPUT → PT-12 :SOKKIA : 1.200 m SRCH MEAS ALL *1) In case the calculation of plane was not successful by the measured three points, errordisplays. Start measuring over again from the first point. *2) Data display is the mode beforehand of offset measurement mode. *3) Error will be displayed when collimated to the direction which does not cross with the determined plane. *4) The refrector height of the target point P0 is set to zero automatically 7-15 7 DATA COLLECTION 7.3.4 Column Offset Measurement If it is possible to measure circumscription point (P1) of column directly, the distance to the center of the column (P0), coordinate and direction angle can be calculated by measured circumscription points (P2) and (P3). The direction angle of the center of the column is 1/2 of total direction angle of circumscription points (P2) and (P3). Prism Operating procedure Operation Display PT# → PT-11 PCODE :SOKKIA R.HT : 1.200 m INPUT SRCH MEAS ALL VH *SD NEZ P1↓ OFSET PTL P2↓ 1 Press the [F3](MEAS) key. [F3] 2 Press the [F4](P1↓ ) key, [F1](OFSET) key. [F4] [F1] OFFSET 1/2 F1:ANG.OFFSET F2:DIST.OFFSET F3:PLANE OFFSET P↓ 3 Press the [F4](P1↓) key. [F4] OFFSET 2/2 F1:COLUMN OFFSET P↓ 4 Press the [F1](COLUMN OFFSET) key. [F1] 5 Collimate the center of the column (P1) and press the [F1](MEAS) key. Measuring will start. After the measurement, angle measuring display of the left side (P2) will be shown. 7-16 Collimate P1 [F1] COLUMN OFFSET Center HD: m MEAS --- --- --COLUMN OFFSET Center HD* [n] << m >Measuring... COLUMN OFFSET Left HR: 120°30'40" --- --- --- SET 7 DATA COLLECTION 6 Collimate the left side of the column (P2) and press the [F4](SET) key. After the measurement, angle measuring display of the right side (P3) will be shown. 7 Collimate the right side of the column (P3) and press the [F4](SET) key. The distance between the instrument and center of the column (P0) will be calculated. To show the relative elevation (VD), press the [ ] key. Each time pressing the [ ] key, horizontal distance, relative elevation and slope distance are shown in sequence. To show coordinate of point P0, press the [ ] key. 8 Press the [F3](YES) key. The display returns to the next point number in data collect mode. Collimate P2 [F4] COLUMN OFFSET Right HR: 180°30'40" --- --- --- SET Collimate P3 [F4] COLUMN OFFSET HR: 150°30'40" HD: 43.321 m >OK? [YES][NO] [ ] [F3] COLUMN OFFSET HR: 150°30'40" VD: 2.321 m >OK? [YES][NO] PT# PCODE R.HT INPUT → PT-12 :SOKKIA : 1.200 m SRCH MEAS ALL 7.4 NEZ Auto Calculation As measured data is collected, coordinates are calculated and stored for traverse or topo collection. Automatic making out function of coordinate data sets up in CONFIG of data collect. Refer to Section 7.7 “Setting Parameter of Data Collect [CONFIG.]”. As a default, coordinate data calculated will be saved in a file of the same name as the measurement data file. When the coordinate data file of the same name as the measurement data file does not exist, it will be generated automatically. It is possible to change a file for saving coordinate data in the DATA COLLECT Menu 2/2 (F1: SELECT A FILE). To calculate a coordinate data, it is necessary to add a point number in Data Collect execution. When a coordinate data of the same point number exist already, it can be replaced with the new data by confirming display. z Coordinates will be calculated using the grid factor. To set the grid factor, see Section 6.2 “Setting the GRID FACTOR”. 7-17 7 DATA COLLECTION 7.5 Point to Line Measurement In this mode, a offsetting point from a certain determined line can be measured. N Ref.P2 Line ΔO Ref.P1 PT# (PT#PTL) ΔL OCC.PT Offset E 7.5.1 To change to the point to line measurement Operating procedure Operation Display PT# PCODE R.HT INPUT → PT-01 :SOKKIA : 1.500 m SRCH MEAS ALL [F3] [F4] PT# PCODE R.HT VH OFSET → PT-01 :SOKKIA : 1.500 m *SD NEZ P1↓ PTL P2↓ 2 Press the [F2](PTL) key. [F2] POINT TO LINE MODE [F1:ON ] F2:OFF ENTER 3 Press the [F1](ON) key and press the [F4] REF. POINT 1 PT#: 1 Press the [F3](MEAS) key and press the [F4]key to get to the next soft key page. [F4](ENTER) key. The input screen of a reference point 1 will appear. INPUT LIST --- ENTER 4 Enter the point 1 data and press the [F4](Enter). The input screen of a reference point 2 will appear. Input data [F4] REF. POINT 2 PT#: INPUT LIST --- ENTER 5 Enter the point 2 data and press the [F4](Enter). The screen will return to data collect measurement. If the PTL measurement mode is available, ‘PTL’ will appear next to PT#. 7-18 Input data [F4] PT#PTL→ PT-01 PCODE :SOKKIA R.HT : 1.500 m INPUT SRCH MEAS ALL 7 DATA COLLECTION 7.5.2 Executing a point to line measurement Operating procedure Operation Conduct data measurement according to the same procedure as with ordinary FS/SS (ALL can also be selected). However, when you conduct observation in the angle mode, PTL data will not be displayed (only the raw data will be recorded, upon which the operation will end). Display PT#PTL→ PT-01 PCODE :SOKKIA R.HT : 1.500 m INPUT SRCH MEAS ALL 1 Press the [F3](MEAS) key. [F3] PT#PTL→ PT-01 PCODE :SOKKIA R.HT : 1.500 m VH *SD NEZ 2 Press the [F2](SD) key. [F2] V : 90°10'20" HR: 120°30'40" SD* < m > Measuring... [F3] L: O: E: >REC? If the PTL mode is on, then, after the coordinate data is calculated, the PTL data will be displayed regardless of the coordinate check setting, etc. 3 PTL measurement data will display. Confirm the data and press [F3](YES) key. The recorded data are measured data and coordinate data generated at the same time as a PTL data. 44.789 m 33.456 m 2.321 m [YES][NO] PT#PTL→ PT-02 PCODE :SOKKIA R.HT : 1.500 m INPUT SRCH MEAS ALL z In the PTL measurement mode, NEZ Auto Calculation wil be turned on compulsorily and the coordinate data will be stored into a coordinate file. 7-19 7 DATA COLLECTION 7.6 Editing PCODE Library [PCODE INPUT] PCODE data can be entered into PCODE Library in this mode. A PCODE is liked with a number of 1 to 50. PCODE can be also edited in MEMORY MANAGER menu 2/3 in the same way. Operating procedure Operation Display DATA COLLECT 2/2 F1:SELECT A FILE F2:PCODE INPUT F3:CONFIG. P↓ 1 Press the [F2](PCODE INPUT) key from Data [F2] Collect menu 2/2. 2 By pressing the following keys, the list will increase or decrease. [ ] or [ ]: Increasing or Decreasing one by one [ ] or [ [ ] or [ ] [ ] or [ ] ]: By ten Increasing or Decreasing. 3 Press the [F1](EDIT) key. [F1] 4 Enter PCODE and press the [F4](ENT) key. *1) Enter PCODE [F4] *1) Refer to Section 2.5 “How to Enter Alphanumeric characters”. 7-20 → 001:SOKKIA 002:TOKYO EDIT ––– CLR ––– 011:URAH → 012:AMIDAT 013:HILLTO EDIT ––– CLR ––– 011:URAH → 012=AMIDAT 013:HILLTO [ALP][SPC][CLR][ENT] 011:URAH → 012:AMISUN 013:HILLTO EDIT ––– CLR ––– 7 DATA COLLECTION 7.7 Setting Parameter of Data Collect [CONFIG.] In this mode, the following settings of data collect mode are possible. z Setting Items Menu Selecting Item FINE/CRS(1)/ CRS(10) F1: DIST MODE F2: HD/SD HD/SD N-TIMES/ SINGLE/REPEAT F3: MEAS. SEQ. F1: DATA CONFIRM F2: COLLECT SEQ. YES/NO [EDIT→MEAS]/ [MEAS→EDIT] F3: NEZ AUTO. CALC ON/OFF Contents Select Fine/Coarse (1)/Coarse (10) mode in distance measurement mode. The unit to be displayed is as follows. Fine mode: 1mm (0.2mm) Coarse (1) mode: 1mm Coarse (10) mode: 10mm Select the distance measurement mode Horizontal distance or Slope distance. Select to set measurement mode for distance measurement. It is possible to confirm the result of measuring data before the data is recorded. Select the procedure of data collection. [EDIT→MEAS]: Measurement is carried out after entering other data. [MEAS→EDIT]: Measurement is carried out before entering other data. It is possible to calculate coordinate value of data collected and store it into coordinate data file in every data collection. z How to Set Items Example Setting: DATA CONFIRM: YES Operating procedure Operation Display DATA COLLECT 2/2 F1:SELECT A FILE F2:PCODE INPUT F3:CONFIG. P↓ 1 Press the [F3] (CONFIG.) key from the data collect menu 2/2. The CONFIG menu 1/2 is shown. 2 Press the [F4](P↓) key to display the CONFIG menu 2/2. 3 Press the [F1] (DATA CONFIRM) key. [ ] indicates the current setting. [F3] CONFIG. F1:DIST MODE F2:HD/SD F3:MEAS. SEQ. 1/2 P↓ [F4] CONFIG. 2/2 F1:DATA CONFIRM F2:COLLECT SEQ. F3:NEZ AUTO. CALC P↓ [F1] DATA CONFIRM F1:YES [F2:NO ] ENTER 4 Press the [F1] (YES) key. [F1] DATA CONFIRM [F1:YES] F2:NO ENTER 5 Press the [F4] (ENTER) key. [F4] 7-21 8 LAYOUT 8 LAYOUT LAYOUT mode has two functions which are setting of layout points and setting new points using coordinate data in the internal memory. Also, if the coordinate data is not stored in the internal memory, this can be input from key board. The coordinate data is loaded from PC to the internal memory via RS-232C. z The coordinate data The coordinate data is memorized into a file. For the internal memory, refer to Chapter 9 “MEMORY MANAGER MODE”. The SET is able to store the coordinate data into the internal memory. The internal memory is shared by the measured data and the coordinate data for layout. Maximum 30 files can be generated. z The number of coordinate data (In case not using the internal memory in the data collect mode) MAX. 24,000 points Because the internal memory covers both data collection mode and layout mode, the number of coordinate data will be decreased when the data collection mode is used. 1) When turning off the power, ensure that you are in the main menu screen or main angle measurement mode. This ensures completion of the memory access process and avoids possible damage to the stored data. 2) It is recommended for safety to charge the battery (BT-G1S) beforehand and prepare fully charged spare batteries. 3) When recording new point data, remember to consider the amount of internal memory available. 8-1 8 LAYOUT z Layout menu operation By pressing the [MENU] key, the instrument will be in MENU 1/3 mode. Press the [F2](LAYOUT) key, the menu of layout 1/2 will be shown. Normal measurement mode [ESC] [MENU] MENU 1/3 F1:DATA COLLECT F2:LAYOUT F3:MEMORY MGR. P↓ [F2] SELECT A FILE FN:_________ INPUT LIST SKP ENTER Selecting a file for LAYOUT [F1](INPUT) : Input a new file name. [F2](LIST) : Seek for a file. [F3](SKP) : If you do not want to create or reselect a file. [F4](ENTER) : To select display file. [F3]/[F4] LAYOUT 1/2 F1:OCC.PT INPUT F2:BACKSIGHT F3:LAYOUT P↓ OCC.PT INPUT [ESC] [F1] OCC.PT PT#:__________ INPUT LIST NEZ ENTER BACKSIGHT LAYOUT MENU 1/2 [F2] BACKSIGHT PT#:__________ INPUT LIST NE/AZ ENT LAYOUT [F4] [F3] LAYOUT PT#:__________ INPUT LIST NEZ ENTER SELECT A FILE LAYOUT 2/2 F1:SELECT A FILE F2:NEW POINT F3:GRID FACTOR P↓ [ESC] [F1] SELECT A FILE FN:__________ INPUT LIST ––– ENTER NEW POINT LAYOUT MENU 2/2 [F2] NEW POINT F1:SIDE SHOT F2:RESECTION GRID FACTOR [F3] GRID FACTOR =1.000000 >MODIFY? 8-2 [YES][NO] 8 LAYOUT 8.1 Preparation 8.1.1 Setting the GRID FACTOR z Calculation Formula 1) Elevation Factor Elevation Factor = R R+ELEV. R : The average radius of the earth ELEV. : The elevation above mean sea level 2) Scale Factor Scale Factor: Scale Factor at the surveying station 3) Grid Factor Grid Factor = Elevation Factor × Scale Factor Distance Calculation 1) Grid Distance HDg = HD × Grid Factor HDg : Grid distance HD : Ground distance 2) Ground Distance HD = HDg Grid Factor z How to Set Grid Factor Operating procedure Operation Display LAYOUT 2/2 F1:SELECT A FILE F2:NEW POINT F3:GRID FACTOR P↓ 1 Press the [F3](GRID FACTOR) key from the [F3] Layout menu 2/2. GRID FACTOR =0.998843 >MODIFY? 2 Press the [F3](YES) key. 3 Enter Elevation. *1) Press the [F4](ENT) key. 4 Enter Scale Factor in the same way. Grid Factor is displayed for 1 to 2 second and display returns to Layout menu 2/2. *1) Refer to Section 2.5 “How to Enter Alphanumeric characters”. z Input Range: Elevation : –9,999 to +9,999 meter (–32,805 to +3,2805 ft, ft+in) Scale Factor: 0.990000 to 1.010000 8-3 [YES][NO] [F3] GRID FACTOR ELEV.=1000 m SCALE:0.999000 --- --- [CLR][ENT] Enter ELEV. [F4] GRID FACTOR ELEV.:2000 m SCALE=1.001000 --- --- [CLR][ENT] Enter Scale [F4] GRID FACTOR =1.000686 8 LAYOUT 8.1.2 Selecting Coordinate Data File You can execute a Layout from selected coordinate data file, also you can record New point measured data into the selected coordinate data file. z The only coordinate data file existing can be selected and you can not make a new file in this mode. For more information about File, refer to Chapter 9 “MEMORY MANAGER MODE”. z When LAYOUT MODE is begun, a file can be selected in the same way. Operating procedure Operation Display LAYOUT 2/2 F1:SELECT A FILE F2:NEW POINT F3:GRID FACTOR P↓ 1 Press the [F1](SELECT A FILE) key from the SELECT A FILE FN: [F1] Layout menu 2/2. INPUT LIST ––– ENTER 2 Press the [F2](LIST) key to display the list of 3 Scroll file list by pressing the [ ] or [ COORDDATA /C0123 →*TOKBDATA /C0345 TOPCDATA /C0789 ––– SRCH ––– ENTER [F2] coordinate data file.*1) ] key and select a file to use. *2), 3) 4 Press the [F4](ENTER) key. [ ] or [ [F4] The file will be set. ] *TOKBDATA → TOPCDATA SATIDATA ––– SRCH LAYOUT 2/2 F1:SELECT A FILE F2:NEW POINT F3:GRID FACTOR P↓ *1) If you want to input file name directly, press the [F1](INPUT) key and enter a file name. *2) When a file has been selected already, ‘*’ mark is indicated on left of current file name. For the file discrimination mark (*, @, &), refer to Section 9.3 “FILE MAINTENANCE”. *3) Data in a file shown with arrow can be searched by pressing the [F2](SRCH) key. 8-4 /C0345 /C0789 /C0456 ––– ENTER 8 LAYOUT 8.1.3 Setting Occupied Point Occupied point can be set by two setting methods as follows. 1) Setting from the coordinate data stored in the internal memory. 2) Direct key input of coordinate data. z Example setting: Setting the occupied point from the internal coordinate data file Operating procedure Operation 1 Press the [F1](OCC.PT INPUT) key from the [F1] Layout menu 1/2. Display OCC.PT PT#: INPUT LIST NEZ ENTER 2 Press the [F1] (INPUT) key, enter PT# and press the [F4](ENT) key. *1) 3 Enter INS.HT in the same way. [F1] Enter PT# [F4] Enter INS.HT [F4] The display returns to layout menu 1/2. INSTRUMENT HEIGHT INPUT INS.HT= 0.000 m ––– ––– [CLR][ENT] LAYOUT 1/2 F1:OCC.PT INPUT F2:BACKSIGHT F3:LAYOUT P↓ *1) Refer to Section 2.5 “How to Enter Alphanumeric characters”. z Example setting: Setting Instrument point coordinates directly Operating procedure Operation 1 Press the [F1](OCC.PT INPUT) key from the [F1] Layout menu 1/2. Display OCC.PT PT#: INPUT LIST NEZ ENTER 2 Press the [F3] (NEZ) key. [F3] 3 Press the [F1](INPUT) key and enter [F1] Enter coord. [F4] coordinate value. press the [F4](ENT) key. *1), 2) N→ 0.000 m E: 0.000 m Z: 0.000 m INPUT ––– PT# ENTER COORD.DATA INPUT PT#: INPUT ––– 4 Press the [F1](INPUT) key and enter PT#. [F1] Enter PT# [F4] Press the [F4](ENT) key. *2) 5 Enter Instrument Height in the same way. Enter INS.HT [F4] The display returns to layout menu 1/2. INSTRUMENT HEIGHT INPUT INS.HT= 0.000 m ––– ––– [CLR][ENT] LAYOUT 1/2 F1:OCC.PT INPUT F2:BACKSIGHT F3:LAYOUT P↓ *1) Refer to Section 2.5 “How to Enter Alphanumeric characters”. *2) It is possible to record the coordinate value. Refer to Chapter 16 “SELECTING MODE”. 8-5 ––– ENTER 8 LAYOUT 8.1.4 Setting Backsight Point The following three setting methods for Backsight point can be selected. 1) Setting from the coordinate data file stored in the internal memory. 2) Direct key input of coordinate data. 3) Direct key input of setting angle. z Example setting: Setting the backsight point from the internal coordinate data file Operating procedure Operation 1 Press the [F2](BACKSIGHT) key from the Layout [F2] menu 1/2. Display BACKSIGHT PT#: INPUT LIST NE/AZ ENT 2 Press the [F1] (INPUT) key. [F1] BACKSIGHT PT#=BK-01 [ALP][SPC][CLR][ENT] 3 Enter PT#, press the [F4](ENT) key. *1) Enter PT# [F4] BACKSIGHT H(B)= 0°00'00" >Sight ? 4 Sight the backsight point and press the [F3](YES) key. The display returns to the layout menu 1/2. [YES][NO] Sight BK [F3] *1) Refer to Section 2.6 "How to enter alphanumeric characters". z With each pressing of [F3] key, method of inputting backsight is changed. BACKSIGHT PT#: INPUT LIST NE/AZ ENT [F3](NE/AZ) N → E : 0.000 m 0.000 m INPUT ––– AZ ENTER [F3](AZ) BACKSIGHT HR: INPUT ––– PT# ENTER [F3](PT#) 8-6 8 LAYOUT z Example setting: Setting the backsight point coordinates directly Operating procedure Operation 1 Press the [F2](BACKSIGHT) key from the Layout [F2] menu 1/2. Display BACKSIGHT PT#: INPUT LIST NE/AZ ENT 2 Press the [F3] (NE/AZ) key. [F3] N→ E: 0.000 m 0.000 m INPUT ––– 3 Press the [F1](INPUT) key and enter coordinate value. Press the [F4](ENT) key. *1), 2) [F1] Enter coord. [F4] Sight BK 5 Press the [F3](YES) key. [F3] The display returns to the layout menu 1/2. [YES][NO] LAYOUT 1/2 F1:OCC.PT INPUT F2:BACKSIGHT F3:LAYOUT P↓ *1) Refer to Section 2.5 “How to Enter Alphanumeric characters”. *2) It is possible to record the coordinate value. Refer to Chapter 16 “SELECTING MODE”. 8-7 ENTER BACKSIGHT H(B)= 0°00'00" >Sight ? 4 Sight the backsight point. AZ 8 LAYOUT 8.2 Executing a Layout The following methods can be selected for executing a Layout: 1) Recalling points from internal memory by point number. 2) Direct key input of coordinate values. Example setting: Recalling point from internal memory. Operating procedure Operation Display LAYOUT 1/2 F1:OCC.PT INPUT F2:BACKSIGHT F3:LAYOUT P↓ 1 Press the [F3](LAYOUT) key from the layout menu 1/2. [F3] LAYOUT PT#: INPUT LIST NEZ ENTER 2 Press the [F1](INPUT) key, and enter PT#. *1) Press the [F4](ENT) key. *2) 3 Enter reflector height in the same way. When the layout point is set, the instrument will start layout calculation. HR: Calculated horizontal angle of the layout point HD: Calculated horizontal distance from the instrument to the layout point 4 Collimate the prism, and press the [F1](ANGLE) key. PT#: Layout point HR: Measured (Actual) horizontal angle. dHR: Horizontal angle to be turned to the layout point = Actual horizontal angle - Calculated horizontal angle. Correct direction when dHR = 0°00'00" 5 Press the [F1](DIST) key. HD: Measuring (Actual) horizontal distance dHD: Horizontal distance to be turned to the layout point = Actual horizontal distance – Calculated horizontal distance. dZ: Vertical distance to be turned to the layout point = Actual vertical distance – Calculated vertical distance. 6 Press the [F1](MODE) key. [F1] Enter PT# [F4] REFLECTOR HEIGHT INPUT R.HT = 0.000 m ––– ––– [CLR][ENT] Enter R.HT [F4] CALCULATED HR= 90°10'20" HD= 123.456 m ANGLE DIST ––– ––– Collimate P [F1] PT#: LP-100 HR: 6°20'40" dHR: 23°40'20" DIST ––– NEZ ––– [F1] HD* 143.84 m dHD: –13.34 m dZ: –0.05 m MODE ANGLE NEZ NEXT [F1] The fine mode measuring starts. HD*[t] < m dHD: m dZ: m MODE ANGLE NEZ NEXT HD*[r] < m dHD: m dZ: m MODE ANGLE NEZ NEXT HD* 156.835 m dHD: –3.327 m dZ: –0.046 m MODE ANGLE NEZ NEXT 8-8 8 LAYOUT 7 When the display value dHR, dHD and dZ are equal to 0, the layout point is established.*3) 8 Press the [F3](NEZ) key. The coordinate data is shown. 9 Press the [F4](NEXT) key to set next layout point . PT# is automatically incremented. [F3] N * 100.000 m E : 100.000 m Z : 1.015 m MODE ANGLE ––– NEXT [F4] LAYOUT PT#: LP-101 INPUT LIST NEZ ENTER *1) Refer to Section 2.5 “How to Enter Alphanumeric characters”. *2) Point number could not be entered when data to comply with the coordinate value does not exist in the file. *3) Cut & Fill displaying function is available. Refer to Chapter 16 “SELECTING MODE”. 8-9 8 LAYOUT 8.2.1 Layout of Coordinates of Point to Line The coordinate data of point to line can be used during execution of layout. When a point name including PTL coordinates (including ‘From’ and ‘To’ data) is specified, the mode will change to PTL mode automatically. There are two ways to enter the PTL coordinate data, Direct key input and Data transfer. Refer to 9.4.2 “PTL (Point to Line) data input” and 9.7 “Data Communications”. N Line To Collimation point ΔO From Layout point ΔL OCC.PT Offset Operating procedure E Operation Display LAYOUT PT#: PT-21 INPUT LIST NEZ ENTER 1 Press the [F1](INPUT) key, and enter PT#. Press the [F4](ENT) key. 2 Enter reflector height in the same way. When the layout point is set, the instrument will start layout calculation. The [F3](PTL) key will be assigned. 3 Collimate the prism, and press the [F1](ANGLE) key. 4 Press the [F1](DIST) key. HD: Measuring (Actual) horizontal distance dHD: Horizontal distance to be turned to the layout point = Actual horizontal distance – Calculated horizontal distance. dZ: Vertical distance to be turned to the layout point = Actual vertical distance – Calculated vertical distance. 5 Press the [F2](PTL) key. The difference between Collimation point and Layout point distance on the coordinate system of the line determined will be displayed. 8-10 [F1] Enter PT# [F4] REFLECTOR HEIGHT INPUT R.HT : 1.500 m ––– ––– [CLR][ENT] Enter R.HT [F4] CALCULATED HR= 45°10'20" HD= 1.500 m ANGLE DIST PTL ––– Collimate P [F1] PT#: LP-100 HR: 45°00'00" dHR: 0°00'00" DIST ––– PTL ––– [F1] HD* 143.84 m dHD: –13.34 m dZ: –0.05 m MODE PTL NEXT [F2] dL: 0.005 m dO: 0.327 m dE: 0.046 m MODE ANGLE NEXT 8 LAYOUT 8.3 Setting a New Point New point is required for example when a layout point cannot be sighted from existing control points. 8.3.1 Side Shot Method Set up the instrument at a known point, and measure the coordinate of the new points by the side shot method Known Point B New Point Known Point A (Instrument) Operating procedure Operation Display LAYOUT 1/2 F1:OCC.PT INPUT F2:BACKSIGHT F3:LAYOUT P↓ 1 Press the [F4](↓) key from the layout menu 1/2 to [F4] LAYOUT 2/2 F1:SELECT A FILE F2:NEW POINT F3:GRID FACTOR P↓ 2 Press the [F2](NEW POINT). [F2] NEW POINT F1:SIDE SHOT F2:RESECTION 3 Press the [F1](SIDE SHOT) key. [F1] SELECT A FILE FN:_________ get the layout menu 2/2. INPUT LIST ––––ENTER 4 Press the [F2](LIST) key to display the list of 5 Scroll file list by pressing [ ] or [ COORDDATA /C0123 →*TOKBDATA /C0345 TOPCDATA /C0789 ––– SRCH ––– ENTER [F2] coordinate data file. *1) ] key and [ select a file to use. *2), 3) 8-11 ] or [ ] *TOKBDATA → TOPCDATA SATIDATA ––– SRCH /C0345 /C0789 /C0456 ––– ENTER 8 LAYOUT 6 Press the [F4](ENTER) key. [F4] The file will be set . SIDE SHOT PT#: INPUT SRCH ––– ENTER 7 Press the [F1](INPUT) key, and enter the new point name. *4) Press the [F4](ENT) key. 8 Enter reflector height in the same way. 9 Collimate the new point, and press the [F3](YES) key. Distance measuring starts. [F1] Enter PT# [F4] REFLECTOR HEIGHT INPUT R.HT = 0.000 m ––– ––– [CLR][ENT] Enter R.HT [F4] REFLECTOR HEIGHT INPUT R.HT : 1.235 m >Sight ? [YES][NO] Collimate [F3] HR: 123°40'20" HD*[n] < m VD: m > Measuring... < complete > N : 1234.567 m E : 123.456 m Z : 1.234 m >REC ? [YES][NO] 10 Press the [F3](YES) key.*5) The name and coordinate value are stored into COORD.DATA. The input menu for next new point is displayed. PT# is automatically incremented. [F3] SIDE SHOT PT#:NP-101 INPUT SRCH ––– ENTER *1) If you want to input file name directly, press the [F1](INPUT) key and enter a file name. *2) When a file has been selected already, ‘*’ mark is indicated on left of current file name. For the file discrimination mark (*, @, &), refer to Chapter 9.3 “FILE MAINTENANCE”. *3) Data in a file shown with arrow can be searched by pressing [F2](SRCH) key. *4) Refer to Section 2.5 “How to Enter Alphanumeric characters”. *5) An error will be displayed when the internal memory is full. 8-12 8 LAYOUT 8.3.2 Resection Method Set up the instrument at a new point, and calculate the coordinate of the new point using the coordinate data of maximum seven known points and the measurements made to these points. By following observation, resection is possible. •Resection by distance measurement: 2 or more points must be measured •Resection by angle measurement only: 3 or more points must be measured An occupied point coordinate value will be calculated by the method of least squares. (In case that 3 known points are measured by angle measurement only, the value would not be calculated by the method of least squares.) Known Point A New Point (Instrument) Max. 7 points Known Point B Known Point C Operating procedure Operation Display LAYOUT 1/2 F1:OCC.PT INPUT F2:BACKSIGHT F3:LAYOUT P↓ 1 Press the [F4](↓) key from the layout menu 1/2 to [F4] LAYOUT 2/2 F1:SELECT A FILE F2:NEW POINT F3:GRID FACTOR P↓ 2 Press the [F2](NEW POINT). [F2] NEW POINT F1:SIDE SHOT F2:RESECTION 3 Press the [F2](RESECTION) key. [F2] NEW POINT PT#: get the layout menu 2/2. INPUT SRCH SKP ENTER 4 Press the [F1](INPUT) key, and enter the new [F1] Enter PT# [F4] point name. *1), 2) Press the [F4](ENT) key. INSTRUMENT HEIGHT INPUT INS.HT = 0.000 m ––– ––– [CLR][ENT] 8-13 8 LAYOUT 5 Enter instrument height in the same way. Enter INS.HT [F4] NO01# PT#: INPUT LIST NEZ ENTER 6 Enter the known point A number. *3) [F1] Enter PT# [F4] REFLECTOR HEIGHT INPUT R.HT = 0.000 m ––– ––– [CLR][ENT] 7 Enter reflector height. Enter R.HT [F4] REFLECTOR HEIGHT INPUT R.HT : 1.235 m >Sight ? ANG DIST 8 Collimate the known point A, and press the Collimate A [F4] HR: 123°40'20" HD* < m VD: m > Measuring... < complete > [F3](ANG) or [F4](DIST) key. Example: [F4](DIST) Distance measuring starts. Known point B entering display will be shown. NO02# PT#: INPUT LIST NEZ ENTER 9 Same as procedure 6 to 8 proceed to the known SELECT GRID FACTOR F1:USE LAST DATA F2:CALC MEAS.DATA point B. When two points have been measured by the [F4](DIST) key, the RESIDUAL ERROR will be calculated. *4) 10 Select GRID FACTOR for calculation of RESIDUAL ERROR by pressing [F1] or [F2] key. *5) Example: [F1] 11 Press the [F1](NEXT) key to measure other points. Maximum seven points can be measured. [F1] RESIDUAL ERROR dHD= 0.015 m dZ = 0.005 m NEXT ––– G.F CALC [F1] NO03# PT#: INPUT LIST NEZ ENTER 12 Same as procedure 6 to 8 proceed to the known point C. HR: 123°40'20" HD* < m VD: m > Measuring... < complete > HR: 123°40'20" HD: 123.456 m VD: 1.234 m NEXT ––– ––– CALC 8-14 8 LAYOUT 13 Press the [F4](CALC) key. *6) [F4] Standard Deviation will be shown. Unit: (sec.) or (mGON) or (mMIL) Standard Deviation = 1.23 sec. ––– 14 Press the [F2](↓) key. Standard Deviations of each coordinate will be shown. Unit: (mm) or (inch) The display will be changed alternately by pressing [F2](↓) or (↑) key. 15 Press the [F4](NEZ) key. Coordinate data of the new point will be shown. 16 Press the [F3](YES) key. *7) The new point data will be stored into the coordinate data file and the value of occupied coordinate data will change to that of the calculated NEW POINT. ↓ ––– NEZ 1.23 1.23 1.23 ––– mm mm mm NEZ [F2] SD(n) : SD(e) : SD(z) : ––– ↑ [F4] N : E : Z : >REC ? [F3] NEW POINT F1:SIDE SHOT F2:RESECTION 65.432 m 876.543 m 1.234 m [YES][NO] The display returns to new point menu. *1) *2) *3) *4) Refer to Section 2.5 “How to Enter Alphanumeric characters”. When there is no need to memorize the new point data, press the [F3](SKP) key. To enter the known point coordinate data by direct key inputting, press the [F3](NEZ) key. RESIDUAL ERROR; dHD (Horizontal distance between two known points) =Measured value – Calculated value dZ=(Z coordinate of the new point calculated from known point A) – (Z coordinate of the new point calculated from known point B) *5) [F1:USE LAST DATA]; RESIDUAL ERROR is calculated with GRID FACTOR already set. [F2:CALC MEAS.DATA]; RESIDUAL ERROR is calculated without GRID FACTOR already set. In this case, new GRID FACTOR is calculated from measured data and reset." •To see the GRID FACTOR value, press the [F3](G.F.) key. *6) In case that the all points are measured by angle measurement only, the following display will be shown. You can select Z coordinate calculation. CALC. Z COORD. F1:YES F2:NO F1(YES) : N, E, Z coordinates will be calculated with measured angle data. F2(NO) : N and E coordinates will be calculated with measured horizontal angle data. Z coordinate would not be calculated. (Z coordinate value =0.000m) When the distance measurement is done even one point, Z coordinate will be calculated as a mean value of relative distance (vertical distance data). *7) The display shows ">SET ?" when [F3](SKP) key pressed in step 4. In this case, the new point data is not stored into the coordinate data file, only the value of occupied coordinate data changes to that of the calculated NEW POINT. 8-15 8 LAYOUT z Viewing PT# LIST You can see the PT# List and enter the data from the List, also you can see coordinate data of a point. [Example: Executing Layout Mode] Operating procedure Operation Display LAYOUT PT#: INPUT LIST NEZ ENTER 1 While executing the LAYOUT mode, press the 2 By pressing the following keys, the list will increase or decrease. [ ] or [ ]: Increasing or Decreasing one by one. [ ] or [ [SOKKIA ] → DATA-01 DATA-02 VIEW SRCH ––– ENTER [F2] [F2](LIST) key. The arrow (→) indicates selected data. [ ] or [ ] [ ] or [ ] ]: By ten Increasing or Decreasing. 3 To show the coordinate of the selected data, press the [F1](VIEW) key. [F1] It is still possible to scroll the PT# data by pressing [ ] or [ ] key. 4 Press the [ESC] key. [ESC] The display returns to the List. 5 Press the [F4] (ENTER) key. [F4] The selected point number is set as PT#. DATA-49 → DATA-50 DATA-51 VIEW SRCH ––– PT#⎦DATA-50 N⎦ 100.234 m E⎦ 12.345 m 1.678 m Z⎦ DATA-49 → DATA-50 DATA-51 VIEW SRCH ––– ENTER REFLECTOR HEIGHT INPUT R.HT = 0.000 m ––– ––– [CLR][ENT] z The operation of [F2](SRCH) is same as the "SEARCH" in the MEMORY MANAGER MODE. For more information, refer to Chapter 9 “MEMORY MANAGER MODE”. 8-16 ENTER 9 MEMORY MANAGER MODE 9 MEMORY MANAGER MODE The following items for internal memory are available in this mode. 1) FILE STATUS : Checking the number of stored data/Remaining internal memory capacity. 2) SEARCH : Searching the recorded data. 3) FILE MAINTAN. : Deleting files/Editing file name 4) COORD. INPUT : Inputting coordinate data into Coord. data file. 5) DELETE COORD. : Deleting coordinate data from Coord. data file. 6) PCODE INPUT : Inputting PCODE DATA into PCODE Library 7) DATA TRANSFER : Sending measured data or coordinate data or PCODE Library data/ Uploading coordinate data or PCODE Library data/Setting communication parameters 8) INITIALIZE : Initializing internal memory. z Memory manager menu operation By pressing the [MENU] key, the instrument will be in MENU 1/3 mode. Press the [F3](MEMORY MGR.) key, the menu of MEMORY MGR. 1/3 will be shown. Normal measurement mode [ESC] [MENU] MENU 1/3 F1:DATA COLLECT F2:LAYOUT F3:MEMORY MGR. P↓ [ESC] [F3] MEMORY MGR. 1/3 F1:FILE STATUS F2:SEARCH F3:FILE MAINTAN.P↓ MEMORY MGR. MENU 1/3 [F4] MEMORY MGR. 2/3 MEMORY MGR. MENU 2/3 F1:COORD. INPUT F2:DELETE COORD F3:PCODE INPUT P↓ [F4] MEMORY MGR. 3/3 MEMORY MGR. MENU 3/3 F1:DATA TRANSFER F2:INITIALIZE P↓ [F4] 9-1 9 MEMORY MANAGER MODE 9.1 Display Internal Memory Status This mode is used to check the internal memory status. Operating procedure 1 Press the [F3](MEMORY MGR.) key from the menu 1/3. 2 Press the [F1](FILE STATUS) key. Operation Display [F3] MEMORY MGR. 1/3 F1:FILE STATUS F2:SEARCH F3:FILE MAINTAN P↓ [F1] FILE STATUS 1/2 MEAS. FILE : 3 COORD. FILE: 6 [...........] P↓ The total number of stored measured data files and coordinate files are shown. Remaining memory capacity 3 Press the [F4](P↓) key. [F4] The total number of stored measured data and coordinate data in all files are shown.*1) DATA STATUS 2/2 MEAS. DATA :0100 COORD. DATA:0050 [...........] P↓ *1) Each coordinate file has one extra data for working area. z The FILE/DATA STATUS display will change alternately by pressing [F4]( P↓) key. z To return to MEMORY MGR. menu press the [ESC] key. 9-2 9 MEMORY MANAGER MODE 9.2 Searching Data This mode is used to search the recorded file data in the DATA COLLECT or LAYOUT mode. The following 3 search methods in each type of files can be selected. 1: First data search 2: Last data search 3: Point number search(MEAS.DATA, COORD.DATA) Number search (PCODE LIB.) MEAS. DATA : Measured data in the data collect mode. COORD. DATA : Coordinate data for layout, control points and new point data measured in the layout mode. PCODE LIB. : The data which was registered with a number from 1 to 50 in Point code library. Point name (PT#, BS#), ID, PCODE and Height data (INS.HT, R.HT) can be corrected in the searching mode. Measured value can not be corrected. 9.2.1 Measured Data Searching Example: Point number searching Operating procedure Operation 1 Press the [F3](MEMORY MGR.) key from the Display [F3] MEMORY MGR. 1/3 F1:FILE STATUS F2:SEARCH F3:FILE MAINTAN P↓ 2 Press the [F2](SEARCH) key. [F2] SEARCH F1:MEAS. DATA F2:COORD. DATA F3:PCODE LIB. 3 Press the [F1](MEAS. DATA) key. [F1] SELECT A FILE FN:_________ menu 1/3. INPUT LIST ––– ENTER 4 Press the [F1](INPUT) key and enter File Name. Press the [F4](ENT) key. *1),2) 5 Press the [F3](PT# DATA) key. [F1] Enter FN [F4] [F3] MEAS. DATA SEARCH F1:FIRST DATA F2:LAST DATA F3:PT# DATA PT# DATA SEARCH PT#:_________ INPUT ––– 6 Press the [F1](INPUT) key and enter PT#. [F1] Enter PT# [F4] Press the [F4](ENT) key. *1) 7 Press the [F4](↓) key to scroll data for selected [F4] point. *1) *2) z z z Refer to Section 2.6 "How to enter alphanumeric characters". To show the file list, press the [F2](LIST) key. "⎦ " represents data shown on the display is the stored data. Press the [ ] or [ ] key to scroll to next or previous point. To search MEAS. DATA of the same point number, press [ ] or [ 9-3 ––– ENTER PT#⎦TOP-104 2/2 V ⎦ 98°36'20" HR⎦ 160°40'20" TILT⎦ 0°00'00" ↓ PT#⎦TOP-104 PCODE⎦ R.HT⎦ 1.200 m EDIT ] key. 1/2 ↓ 9 MEMORY MANAGER MODE z To edit the data in searching mode Point name (PT#, BS#), ID, PCODE and Height data (INS.HT, R.HT) can be corrected in the searching mode. Measured value can not be corrected. Operating procedure Operation Display PT#⎦TOP-104 2/2 PCODE⎦ R.HT⎦ 1.000 m EDIT ↓ 1 Press the [F1](EDIT) key from last page of [F1] displayed data. 2 Select the item to correct by pressing [ ] or [ ] key. 3 Press the [F1](INPUT) key and enter data. *1) [ ] or [ ] [F1] Enter Data [F4] [F4] Press the [F4](ENT) key. 4 Press the [F4](ENTER) key. 5 Press the [F3](YES) key. [F3] PT# PCODE R.HT INPUT →TOP-104 : : 1.000 m ––– ––– ENTER PT# PCODE R.HT INPUT :TOP-104 : → 1.000 m ––– ––– ENTER PT# →TOP-104 PCODE : R.HT : 1.200 m >SAVE? [YES][NO] PT#⎦TOP-104 2/2 PCODE⎦ R.HT⎦ 1.200 m ↓ EDIT *1) Refer to Section 2.5 “How to Enter Alphanumeric characters”. z When editing, ID and PCODE are not linked with PCODE LIBRARY. z Even though the height data (INS.HT, R.HT) are corrected, the measured value can not be corrected. 9-4 9 MEMORY MANAGER MODE 9.2.2 Coordinate Data Searching Example searching: Point number searching Operating procedure Operation Display [F3] MEMORY MGR. 1/3 F1:FILE STATUS F2:SEARCH F3:FILE MAINTAN P↓ 2 Press the [F2](SEARCH) key. [F2] SEARCH F1:MEAS. DATA F2:COORD. DATA F3:PCODE LIB. 3 Press the [F2](COORD. DATA) key. [F2] SELECT A FILE FN:_________ 1 Press the [F3](MEMORY MGR.) key from the menu 1/3. INPUT LIST ––– ENTER 4 Press the [F1](INPUT) key and enter File Name. COORD. DATA SEARCH F1:FIRST DATA F2:LAST DATA F3:PT# DATA [F1] Enter FN [F4] Press the [F4](ENT) key. *1) 5 Press the [F3](PT# DATA) key. PT# DATA SEARCH PT#:_________ [F3] INPUT ––– 6 Press the [F1](INPUT) key and enter PT#. PT#⎦TOP-104 1/2 N ⎦ 100.234 m E ⎦ 12.345 m Z ⎦ 1.678 m ↓ [F1] Enter PT# [F4] Press the [F4](ENT) key. *1) 7 Press the [F4]( ↓ ) key to get the next page. ––– ENTER PCODE ⎦ TOPS STR. ⎦ [F4] 2/2 ↓ *1) z z z z Refer to Section 2.5 “How to Enter Alphanumeric characters”. "⎦ " represents data shown on the display is the stored data. Press the [ ] or [ ] key to scroll to next or previous point. To search COORD. DATA of the same point number, press the [ PTL data will be shown below. ] or [ PT#⎦TOP-105 1/2 10.000 m L ⎦ O ⎦ 20.000 m E ⎦ 0.000 m ↓ [F4] PCODE STR. FROM TO ⎦ ⎦ ⎦ ⎦ TOPS TOP-101 TOP-102 9-5 2/2 ↓ ] key. 9 MEMORY MANAGER MODE 9.2.3 PCODE LIBRARY Searching Example searching: Number searching Operating procedure Operation Display [F3] MEMORY MGR. 1/3 F1:FILE STATUS F2:SEARCH F3:FILE MAINTAN P↓ 2 Press the [F2](SEARCH) key. [F2] SEARCH F1:MEAS. DATA F2:COORD. DATA F3:PCODE LIB. 3 Press the [F3](PCODE LIB.) key. [F3] PCODE DATA SEARCH F1:FIRST DATA F2:LAST DATA F3:No. SEARCH 4 Press the [F3](No. SEARCH) key. [F3] PCODE No. SEARCH No.= 1 Press the [F3](MEMORY MGR.) key from the menu 1/3. ––– 5 Enter number.Press the [F4](ENT) key. *1) Enter PT# [F4] The number and linked data will be shown. *2) *1) Refer to Section 2.5 “How to Enter Alphanumeric characters”. z Press the [ ] or [ ] key to scroll to next or previous PCODE data. *2) To correct the PCODE data, press the [F1](EDIT) key. To delete the PCODE data, press the [F3](CLR) key. 9-6 ––– [CLR][ENT] 011:NAKADAI →012:HILLTOP 013:ITABASH EDIT ––– CLR ––– 9 MEMORY MANAGER MODE 9.3 FILE MAINTENANCE In this mode, the following items are available. Renaming file name/Searching data in a file/Deleting files z FILE MAINTAN. menu MEMORY MGR. 1/3 F1:FILE STATUS F2:SEARCH F3:FILE MAINTAN. P↓ [ESC] [F3] @AMIDAT → ∗MEASD1 &COORD1 REN SRCH /C0123 /M0123 /C0056 DEL ––– Deleting file Searching data in a file Renaming file name Pressing [F3](FILE MAINTAN.) key from MEMORY MANAGER menu 1/3, file list will be shown. • File discrimination mark (*, @, &) File discrimination mark (*, @, &) placed before file name indicates the file status. For measured data file “ * ” :selected file for DATA COLLECT mode. For coordinate data file “ * ” :selected coordinate file for LAYOUT mode. “ @ ” :selected coordinate file for DATA COLLECT mode. “ & ” :selected coordinate file for both LAYOUT and DATA COLLECT mode. • Data discrimination character (M, C) Data discrimination character (M, C) placed before four figures indicates the type of data. “ M ” :Measured data “ C ” :Coordinate data. • Four figures means the total number of data in the file. (Coordinate data file has an extra data for working.) Press the [ ] or [ ] key to scroll to next file. 9-7 9 MEMORY MANAGER MODE 9.3.1 Rename a File An existing file in internal memory can be renamed. Operating procedure Operation 1 Press the [F3](FILE MAINTAN.) key from the [F3] Memory manager menu 1/3. 2 Select a file by pressing [ ] or [ Display ] key. [ 3 Press the [F1](REN) key. ] or [ ] MEASD1 →COORD1 COORD2 REN SRCH /M0123 /C0056 /C0098 DEL ––– MEASD1 →COORD5 COORD1 REN SRCH Enter FN [F4] Press the [F4](ENT) key. *1) /M0123 /C0056 DEL ––– MEASD1 /M0123 =COORD1 /C0056 COORD1 /C0098 [ALP][SPC][CLR][ENT] [F1] 4 Enter new file name. →MEASD1 COORD1 REN SRCH /M0123 /C0056 /C0098 DEL ––– *1) Refer to Section 2.5 “How to Enter Alphanumeric characters”. Existing file name can not be available. To return to the FILE MAINTAN. Menu, press the [ESC] key. 9.3.2 Searching Data in a File An existing file in internal memory can be searched. Operating procedure Operation 1 Press the [F3](FILE MAINTAN.) key from the [F3] Memory manager menu 1/3. 2 Select a file to search by pressing [ ] or [ Display ] key. 3 Press the [F2](SRCH) key. [ ] or [ ] [F2] 4 Select searching method by pressing the [F1] to [F3] key. *1) →MEASD1 COORD1 REN SRCH /M0123 /C0056 DEL ––– MEASD1 →COORD1 COORD2 REN SRCH /M0123 /C0056 /C0098 DEL ––– SEARCH [COORD1 ] F1:FIRST DATA F2:LAST DATA F3:PT# DATA [F1] to [F3] *1) Because procedures from next are same as procedures of Section 9.2 "Searching Data", refer to Section 9.2 “Searching Data” To return to the FILE MAINTAN. Menu, press the [ESC] key. 9-8 9 MEMORY MANAGER MODE 9.3.3 Deleting a File This mode erases a file from internal memory. Only one file can be erased at a time. Operating procedure Operation 1 Press the [F3](FILE MAINTAN.) key from the [F3] Memory manager menu 1/3. 2 Select a file to delete by pressing [ ] or [ Display ] key. [ ] or [ ] →MEASD1 COORD1 REN SRCH /M0123 /C0056 DEL ––– MEASD1 →COORD1 COORD2 REN SRCH /M0123 /C0056 /C0098 DEL ––– 3 Press the [F3](DEL) key. [F3] MEASD1 →COORD1 COORD2 >DELETE? /M0123 /C0056 /C0098 [NO][YES] 4 Confirm the deleting, and press the [F4](YES) key. [F4] MEASD1 →COORD2 COORD3 REN SRCH /M0123 /C0098 /C0321 DEL ––– z To return to the FILE MAINTAN. Menu, press the [ESC] key. 9-9 9 MEMORY MANAGER MODE 9.4 Coordinate Data Direct Key Input 9.4.1 Coordinate data input Coordinate data for the layout point or control point can be input directly from the keyboard. This data can be stored into a file in the internal memory. Operating procedure Operation Display [F3] MEMORY MGR. 1/3 F1:FILE STATUS F2:SEARCH F3:FILE MAINTAN P↓ 2 Press the [F4](P↓) key. [F4] MEMORY MGR. 2/3 F1:COORD. INPUT F2:DELETE COORD. F3:PCODE INPUT P↓ 3 Press the [F1](COORD. INPUT) key. [F1] SELECT A FILE FN:_________ 1 Press the [F3](MEMORY MGR.) key from the menu 1/3. INPUT LIST ––– ENTER 4 Press the [F1](INPUT) key and enter File Name you want to input. Press the [F4](ENT) key. *1) [F1] Enter FN [F4] COORD. DATA INPUT F1:NEZ F2:PTL 5 Select the kind of coordinates. [F1] COORD. DATA INPUT PT#:_________ NEZ: Coordinate data PTL: The coordinate data for point to line INPUT ––– 6 Press the [F1](INPUT) key and enter PT#. [F1] Enter PT# [F4] Press the [F4](ENT) key. *1) 7 Enter Coordinate data. Enter data [F4] Press the [F4](ENT) key. *1) ––– ENTER N→ 100.234 E: 12.345 Z: 1.678 INPUT ––– ––– m m m ENTER COORD. DATA INPUT PCODE:_________ INPUT LIST ––– ENTER 8 Enter PCODE and press the [F4](ENTER). Next input display is shown, point number (PT#) is automatically incremented. [F1] Enter PCODE [F4] *1) Refer to Section 2.5 “How to Enter Alphanumeric characters”. 9-10 COORD. DATA INPUT PT#:SOKKIA-102 INPUT ––– ––– ENTER 9 MEMORY MANAGER MODE 9.4.2 PTL (Point to Line) data input PTL Coordinate data for the layout point or control point can be input directly from the keyboard. This data can be stored into a file in the internal memory. Operating procedure Operation Display [F3] MEMORY MGR. 1/3 F1:FILE STATUS F2:SEARCH F3:FILE MAINTAN P↓ 2 Press the [F4](P↓) key. [F4] MEMORY MGR. 2/3 F1:COORD. INPUT F2:DELETE COORD. F3:PCODE INPUT P↓ 3 Press the [F1](COORD. INPUT) key. [F1] SELECT A FILE FN:_________ 1 Press the [F3](MEMORY MGR.) key from the menu 1/3. INPUT LIST ––– ENTER 4 Press the [F1](INPUT) key and enter File Name you want to input. Press the [F4](ENT) key. *1) [F1] Enter FN [F4] COORD. DATA INPUT F1:NEZ F2:PTL 5 Select the kind of coordinates. [F2] COORD. DATA INPUT PT#:_________ NEZ: Coordinate data PTL: The coordinate data for point to line 6 Press the [F1](INPUT) key and enter PT#. Press the [F4](ENT) key. *1) 7 Enter PTL data. Press the [F4](ENT) key. *1) L: Line O: Offset E: Elevation Enter PCODE, FROM and TO data and press the [F4](ENTER).*2) Next input display is shown, point number (PT#) is automatically incremented. INPUT ––– ––– ENTER [F1] Enter PT# [F4] L→ O: E: INPUT ––– m m m ––– ENTER Enter data [F4] PCODE→_________ FROM: TO : INPUT LIST ––– ENTER [F1] Enter PCODE [F4] COORD. DATA INPUT PT#:SOKKIA-102 INPUT ––– ––– ENTER *1) Refer to Section 2.5 “How to Enter Alphanumeric characters”. *2) When the inputted point name data as FROM or TO, does not exist in the same file, an error will be displayed. 9-11 9 MEMORY MANAGER MODE 9.5 Delete a Coordinate Data from a File Coordinate data in a file can be erased. Operating procedure Operation Display [F3] MEMORY MGR. 1/3 F1:FILE STATUS F2:SEARCH F3:FILE MAINTAN P↓ 2 Press the [F4](P↓) key. [F4] MEMORY MGR. 2/3 F1:COORD. INPUT F2:DELETE COORD. F3:PCODE INPUT P↓ 3 Press the [F2](DELETE COORD.) key. [F2] SELECT A FILE FN:_________ 1 Press the [F3](MEMORY MGR.) key from the menu 1/3. INPUT LIST ––– ENTER 4 Press the [F1](INPUT) key and enter File Name. Press the [F4](ENT) key. *1) [F1] Enter FN [F4] DELETE COORD. PT#:_________ INPUT LIST ––– ENTER 5 Press the [F1](INPUT) key and enter PT#. [F1] Enter PT# [F4] Press the [F4](ENT) key. *1) 6 Confirm the data and press the [F3](YES) key. [F3] Deleting starts. The display will return to the previous display. *1) Refer to Section 2.5 “How to Enter Alphanumeric characters”. 9-12 N: 100.234 m E: 12.345 m Z: 1.678 m >DELETE? [YES][NO] 9 MEMORY MANAGER MODE 9.6 Editing PCODE Library PCODE data can be entered into PCODE Library in this mode. A PCODE is linked with a number of 1 to 50 PCODE can be also edited in DATA COLLECT menu 2/3 in the same way. Operating procedure Operation Display [F3] MEMORY MGR. 1/3 F1:FILE STATUS F2:SEARCH F3:FILE MAINTAN. P↓ 2 Press the [F4](P↓) key. [F4] MEMORY MGR. 2/3 F1:COORD. INPUT F2:DELETE COORD. F3:PCODE INPUT P↓ 3 Press the [F3](PCODE INPUT) key. [F3] 1 Press the [F3](MEMORY MGR.) key from the menu 1/3. 4 By pressing the following keys, the list will increase or decrease. [ ] or [ ]: Increasing or Decreasing one by one [ ] or [ [ ] or [ ] [ ] or [ ] ]: By ten Increasing or Decreasing. 5 Press the [F1](EDIT) key. [F1] 6 Enter PCODE and press the [F4](ENT) key. *1) Enter PCODE [F4] *1) Refer to Section 2.5 “How to Enter Alphanumeric characters”. 9-13 →001:SOKKIA 002:TOKYO EDIT ––– CLR ––– 011:URAH → 012:AMIDAT 013:HILLTO EDIT ––– CLR ––– 011:URAH → 012=AMIDAT 013:HILLTO [ALP][SPC][CLR][ENT] 011:URAH → 012:AMISUN 013:HILLTO EDIT ––– CLR ––– 9 MEMORY MANAGER MODE 9.7 Data Communications You can send a data file stored in the internal memory to a computer directly. Also, you can directly load a coordinate data file and PCODE Library data to the internal memory from the computer. 9.7.1 Sending Data Example: Sending a Measured data file Operating procedure Operation Display [F3] MEMORY MGR. 1/3 F1:FILE STATUS F2:SEARCH F3:FILE MAINTAN P↓ 2 Press the [F4](P↓) key twice. [F4] [F4] MEMORY MGR. 3/3 F1:DATA TRANSFER F2:INITIALIZE P↓ 3 Press the [F1](DATA TRANSFER) key. [F1] DATA TRANSFER F1:GTS FORMAT F2:SSS FORMAT 4 Select data format. [F1] DATA TRANSFER F1:SEND DATA F2:LOAD DATA F3:COMM. PARAMETERS 5 Press the [F1] key. [F1] SEND DATA F1:MEAS. DATA F2:COORD. DATA F3:PCODE DATA 6 Select the type of data to send by pressing [F1]- [F1] SELECT A FILE FN:_________ 1 Press the [F3](MEMORY MGR.) key from the menu 1/3. GTS format: The conventional data SSS format: Including PCODE data, ‘From’ and ‘To’ data for Point to Line. [F3] key. Example: [F1](MEAS. DATA) INPUT LIST ––– ENTER 7 Press the [F1](INPUT) key and enter File Name you want to send. Press the [F4](ENT) key. *1), 2) 8 Press the [F3](YES) key.*3) [F3] The sending starts. The display will return to menu. *1) *2) z *3) [F1] Enter FN [F4] SEND MEAS. DATA >OK ? ––– ––– [YES][NO] SEND MEAS. DATA < Sending Data!> STOP Refer to Section 2.5 “How to Enter Alphanumeric characters”. To scroll the data, press the [ ] or [ ] key. To show the file list, press the [F2](LIST) key. To cancel the sending, press the [F4](STOP) key. 9-14 9 MEMORY MANAGER MODE 9.7.2 Loading Data Coordinate data files and PCODE Library data can be loaded from PC. Example: Loading a coordinate data file Operating procedure Operation Display [F3] MEMORY MGR. 1/3 F1:FILE STATUS F2:SEARCH F3:FILE MAINTAN P↓ 2 Press the [F4](P↓) key twice. [F4] [F4] MEMORY MGR. 3/3 F1:DATA TRANSFER F2:INITIALIZE P↓ 3 Press the [F1](DATA TRANSFER) key. [F1] DATA TRANSFER F1:GTS FORMAT F2:SSS FORMAT 4 Press the [F1](GTS FORMAT) key. [F1] DATA TRANSFER F1:SEND DATA F2:LOAD DATA F3:COMM. PARAMETERS 5 Press the [F2] key. [F2] LOAD DATA F1:COORD. DATA F2:PCODE DATA 6 Select the type of data to load by pressing [F1] COORD. FILE NAME FN:_________ 1 Press the [F3](MEMORY MGR.) key from the menu 1/3. [F1] or [F2] key. Example: [F1](COORD. DATA) INPUT ––– 7 Press the [F1](INPUT) key and enter New File Name you want to receive. Press the [F4](ENT) key. *1) 8 Press the [F3](YES) key.*2) [F1] Enter FN [F4] [F3] The loading starts. The display will return to menu. ––– ENTER LOAD COORD. DATA >OK ? ––– ––– [YES][NO] LOAD COORD. DATA < Loading Data!> STOP *1) Refer to Section 2.5 “How to Enter Alphanumeric characters”. *2) To cancel the loading, press the [F4](STOP) key. 9-15 9 MEMORY MANAGER MODE 9.7.3 Setting Parameter of Data Communications z Items of the Parameter Item Selecting Item [ACK/NAK], [ONE WAY] F1: Protocol Contents Setting Protocol [ACK/NAK] or [ONE WAY] communication F2: Baud rate 1200, 2400, 4800, 9600, 19200, 38400 Setting transfer speed 1200/2400/4800/9600 /19200/ 38400 baud rate F3: Char./Parity [7/EVEN], [7/ODD], [8/NON] Setting data length and parity. [7bit, even], [7bit, odd], [8bit,none] F1: Stop Bits 1, 2 z Example Setting Setting Stop 1 bit or 2bits Baud rate: 19200 Operating procedure Operation Display [F3] MEMORY MGR. 1/3 F1:FILE STATUS F2:SEARCH F3:FILE MAINTAN P↓ 2 Press the [F4](P↓) key twice. [F4] [F4] MEMORY MGR. 3/3 F1:DATA TRANSFER F2:INITIALIZE P↓ 3 Press the [F1](DATA TRANSFER) key. [F1] DATA TRANSFER F1:GTS FORMAT F2:SSS FORMAT 4 Press the [F1](GTS FORMAT) key. [F1] DATA TRANSFER F1:SEND DATA F2:LOAD DATA F3:COMM. PARAMETERS 5 Press the [F3](COMM. PARAMETERS) key. [F3] COMM. PARAMETERS 1/2 F1:PROTOCOL F2:BAUD RATE F3:CHAR./PARITY P↓ 6 Press the [F2](BAUD RATE) key. [F2] BAUD RATE [1200] 2400 4800 9600 19200 38400 ENTER [ ] [ ] BAUD RATE 1200 2400 4800 9600 [19200]38400 ENTER 1 Press the [F3](MEMORY MGR.) key from the menu 1/3. [ ] indicates present setting. 7 Select the items by pressing [ and [ ] or [ ], [ ] ] keys. *1) 8 Press the [F4](ENTER) key. [F4] *1) To cancel setting, press the [ESC] key. 9-16 COMM. PARAMETERS 1/2 F1:PROTOCOL F2:BAUD RATE F3:CHAR./PARITY P↓ 9 MEMORY MANAGER MODE 9.8 Initialization This mode is used to initialize the internal memory. Following data can be initialized. FILE DATA: All files of measuring data and coordinate data PCODE DATA: PCODE LIST ALL DATA: FILE DATA and PCODE DATA Note that the following data are not initialized even if initialization is executed. : Coordinates of the instrument, Instrument height and Reflector height. Example Initialization: ALL DATA (FILE data and PCODE data) Operating procedure Operation Display [F3] MEMORY MGR. 1/3 F1:FILE STATUS F2:SEARCH F3:FILE MAINTAN. P↓ 2 Press the [F4](P↓) key twice. [F4] [F4] MEMORY MGR. 3/3 F1:DATA TRANSFER F2:INITIALIZE P↓ 3 Press the [F2](INITIALIZE) key. [F2] INITIALIZE F1:FILE AREA F2:PCODE LIST F3:ALL DATA 4 Select the data to initialize by pressing one of the [F3] INITIALIZE DATA ERASE ALL DATA ! 1 Press the [F3](MEMORY MGR.) key from the menu 1/3. [F1] to [F3] key. Example: [F3](ALL DATA) >OK ? 5 Confirm the erase data, press the [F4](YES) key. Initializing will start. [F4] [NO][YES] INITIALIZE DATA <Initializing!> The display returns to menu. MEMORY MGR. 3/3 F1:DATA TRANSFER F2:INITIALIZE P↓ 9-17 10 SET AUDIO MODE 10 SET AUDIO MODE The light acceptance quantity level for the EDM (SIGNAL), the atmospheric correction value (PPM) and correction value of prism constant (PSM) are displayed in this mode. When reflected light from the prism is received a buzzer sounds. This function is good for easy collimation when the target is difficult to find. Operating procedure Operation 1 Make sure the mode is in the distance Display HR: 120°30'40" HD* 123.456 m VD: 5.678 m MEAS MODE S/A P1↓ measurement mode on page 1. 2 Pressing the [F3](S/A) key, mode changes to set audio mode. The display indicates correction value of prism constant (PSM), atmospheric correction (PPM) and reflection light level (SIGNAL). [F3] SET AUDIO MODE PSM:0.0 PPM SIGNAL:[IIIII] PRISM PPM T-P z When receiving reflected light, buzzer sounds. It is possible to stop the sound, see Chapter 16 “SELECTING MODE”. z The [F1] to [F3] keys are used for setting atmospheric correction and prism constant. z To return to normal measuring mode, press the [ESC] key. 10-1 0.0 ––– 11 SETTING THE PRISM CONSTANT VALUE 11 SETTING THE PRISM CONSTANT VALUE Set the prism constant correction value of the prism used to the SET beforehand. Once you set the correction value for prism constant, it is retained after power is OFF. Operating procedure Operation 1 Press the [F3](S/A) key from distance measurement or coordinates measurement mode. 2 Press the [F1](PRISM) key. [F3] [F1] Display SET AUDIO MODE PSM:0.0 PPM SIGNAL:[IIIII] PRISM PPM T-P 4 Press the [F4](ENTER) key. Enter data [F4] The display returns to set audio mode. ––– [CLR][ENT] SET AUDIO MODE PSM:14.0 PPM SIGNAL:[IIIII] PRISM PPM T-P *1) Refer to Section 2.5 “How to Enter Alphanumeric characters”. *2) e.g. Prism name Prism constant value Prism constant correction value AP01AR 40 -40 AP01AR + AP01S 30 -30 OR1PA 30 -30 CP01 0 0 z Input range: –99.9mm to +99.9mm,0.1mm step 11-1 ––– PRISM CONST. SET PRISM =0.0 mm ––– 3 Input the Prism constant correction value. *1) *2) 0.0 0.0 ––– 12 SETTING ATMOSPHERIC CORRECTION 12 SETTING ATMOSPHERIC CORRECTION The velocity of light through air is not constant and depends on the atmospheric temperature and pressure. The atmospheric correction system of this instrument corrects automatically when the correction value is set. 15°C/59°F, and 1013.25hPa/760mmHg/29.9 inHg is as a standard value for 0ppm in this instrument. The values are kept in the memory even after power is OFF. 12.1 Calculation of Atmospheric Correction The followings are the correction formulas. Unit; meter ⎧ 79.535x P ⎫⎬x10 – 6 Ka = ⎨ 279.67 – ------------------------273.15 +t ⎭ ⎩ Ka: Atmospheric correction value P : Ambient atmospheric pressure (hPa) t : Ambient Atmospheric temperature (°C) The distance L (m) after atmospheric correction is obtained as follow. L = l (1+Ka) l: Measured distance when atmospheric correction is not set. Example: In case Temperature +20°C, Air pressure 847hPa, l =1000 m ⎧ ⎫ 79.535x847 ⎬x10 Ka = ⎨ 279.67 – ------------------------------⎩ 273.15 + 20 ⎭ –6 + 50×10-6 (50 ppm) L = 1000 (1+50×10-6) = 1000.050 m 12.2 Setting of Atmospheric Correction Value z How to Set Temperature and Pressure Value Directly Measure the temperature and air pressure surrounding the instrument beforehand. Example: Temperature: +26°C, Pressure: 1017 hPa Operating procedure Operation 1 Press the [F3](S/A) key to set Set Audio Mode from distance or coordinate measurement mode. 2 Press the [F3](T-P) key. 3 Input Temp.value and Pressure value.*1) Mode returns to Set Audio mode. [F3] Display SET AUDIO MODE PSM:0.0 PPM SIGNAL:[IIIII] PRISM PPM T-P 0.0 ––– [F3] TEMP. TEMP. PRES. ––– & PRES. SET = 15.0 °C : 1013.2 hPa ––– [CLR][ENT] Enter Temp. Enter Pres. TEMP. TEMP. PRES. ––– & PRES. SET : 26.0 °C = 1017.0 hPa ––– [CLR][ENT] *1) Refer to Section 2.5 “How to Enter Alphanumeric characters”. z Range: Temp. –30 to +60°C (0.1°C step) or –22 to +140°F (0.1°F step) Pres. 560 to 1066.0hPa (0.1hPa step) ,420 to 800mmHg (0.1mmHg step) or 16.5 to 31.5inHg (0.1inHg step) z When the atmospheric correction value which is calculated from the input temperature and pressure values exceeds the range ± 999.9ppm, the operating procedure returns to step 3 automatically. Input values again. 12-1 12 SETTING ATMOSPHERIC CORRECTION z How to Set the Atmospheric Correction Value Directly Measure the temperature and air pressure to find atmospheric correction value (PPM) from the chart or correction formula. Operating procedure Operation 1 Press the [F3](S/A) key to set Set Audio Mode from distance or coordinate measurement mode. 2 Press the [F2](PPM) key. Current setting value is displayed. Display [F3] SET AUDIO MODE PSM:0.0 PPM 0.0 SIGNAL:[IIIII] PRISM PPM T-P ––– [F2] PPM SET PPM = 0.0 ––– 3 Enter atmospheric correction value. *1) Enter Data [F4] Mode returns to Set Audio mode. *1) Refer to Section 2.5 “How to Enter Alphanumeric characters”. z Input range: –999.9ppm to +999.9ppm,0.1ppm step 12-2 ppm ––– [CLR][ENT] 12 SETTING ATMOSPHERIC CORRECTION Atmospheric Correction Chart (For your reference) The atmospheric correction value is obtained easily with the atmospheric correction chart. Find the measured temperature in horizontal, and pressure in vertical on the chart. Read the value from the diagonal line, which represents the required atmospheric correction value. Example: The measured temperature is +26°C The measured pressure is 1013 hPa There fore, The correction value is +10ppm 12-3 12 SETTING ATMOSPHERIC CORRECTION 12-4 12 SETTING ATMOSPHERIC CORRECTION 12-5 13 CORRECTION FOR REFRACTION AND EARTH CURVATURE 13 CORRECTION FOR REFRACTION AND EARTH CURVATURE The instrument measures distance, taking into account correction for refraction and earth curvature. 13.1 Distance Calculation Formula Distance Calculation Formula; with correction for refraction and earth curvature taken into account. Follow the Formula below for converting horizontal and vertical distances. Horizontal distance D = AC(α) or BE(β) Vertical distance Z =BC(α) or EA(β) D = L{cosα–(2θ – γ ) sinα} Z = L{sinα+(θ – γ ) cosα} θ = L.cosα/2R........... Earth curvature correcting item γ =K•Lcosα/2R....... Atmospheric refraction correcting item K =0.14 or 0.2.......... Coefficient of refraction R =6372km.............. Radius of earth α ( or β)................... Altitude angle L .............................. Slope distance z The conversion formula for horizontal and vertical distances is as follows when correction for refraction and earth curvature is not applied. D=L•cosα Z=L•sinα Note: The coefficient of the instrument has been set at 0.14 before shipment (K=0.14). if the "K" value is to be changed, refer to 16 “SELECTING MODE”. 13-1 14 POWER SOURCE AND CHARGING 14 POWER SOURCE AND CHARGING 14.1 On-board Battery BT-G1S z To remove 1 Confirm that the instrument is turned off before removing the battery. Push the battery locking lever and pull out the BT-G1S on-board battery as shown below. z To charge BT-G1S BC-G1B/BC-G1C/BC-27M Plug the charger into the outlet. Use an AC cable compatible with the power supply voltage in use. Connect the charger connector to the battery, then charging will start. Preparatory charging will start. (The red lamp of the charger will blink.) When the preparatory charging is completed, the charging status will be switched to quick charging automatically. (The red lamp of the charger will light.) 3 Charging will take approximately 1.8 hours. (The green lamp will illuminate.) 4 After charging, remove the battery from the charger. 5 Remove the charger from the outlet. z To refresh Press the refresh switch after starting charging above steps (1, 2), then discharging will start. Confirm the yellow lamp illuminates. After discharging is finished, charging will start automatically. Time discharging battery charged fully is approximately 10 hours. z For refreshing Rechargeable battery can be used repeatedly by charging. If charging is repeated by the state that capacity of the battery still left, operating time of the battery may shorten. In this case, the voltage of the battery will be recovered by refreshing and operating time can be improved. z About Preparatory charging Before quick charging, the battery is charged using small amount current to measure its temperature and voltage. When the temperature and voltage is within a range, the charging status will change to quick charging. The lamp of charger Red blinking : Preparatory charging /Waiting until internal temperature falls Red ON : Charging Red lamp will illuminate during charging. Green ON : Charging completed Green lamp will illuminate after completely charging. Yellow ON : Discharging Yellow lamp will illuminate and discharging will start by pressing the refresh (discharge) switch. Red quick flashing : Abnormal outbreaks Red lamp will flash when the battery life is over or the battery is broken down. Replace the battery to new one. 1 2 14-1 14 POWER SOURCE AND CHARGING z To install 1 Place the base of the on-board battery into the SET, push the on-board battery toward the instrument side till the battery clicks into position. z Do not charge or discharge continuously, otherwise the battery and the charger may be deteriorated. If charging or discharging is necessary, use the charger after stopping charge for approximately 30 minutes. z Do not charge the battery or discharge the battery in right after the battery is charged, it causes deterioration of the battery in rare cases. z The charger may develop heat while charging, there is no problem of it. Note: 1 2 3 4 5 6 Recharging should take place in a room with an ambient temperature range of 10°C to 40°C (50°F to 104°F). If charging is done at high temperature, charging time of the battery may take longer. Exceeding the specified charging time may shorten the life of the battery and should be avoided if possible. The battery source will discharge when stored and should be checked before using with instrument. Be sure to charge as stored battery source every 3 or 4 months and store in a place at 30°C and below when it will not used for a long period. If you allow the battery to be completely discharged, it will have an effect on the overall performance for proper charging in the future. Keep batteries charged at all times. For further information, see APPENDIX 2 “Precaution when Charging or Storing Batteries”. 14-2 15 DETACH/ATTACH OF TRIBRACH 15 DETACH/ATTACH OF TRIBRACH The instrument is easily detached or attached to the tribrach, with a tribrach locking lever loosened or tightened for this purpose. z Detachment 1) Loosen the tribrach locking lever, by revolving it 180° or 200g in the counterclockwise direction (which will point the triangle mark upwards). 2) Grip the carrying handle firmly with one hand while holding the tribrach with the other. Then lift the instrument straight upwards and off. z Attachment 1) Hold the instrument by the carrying handle, with one hand, and carefully lower it on top of the tribrach while, at the same time, coinciding the alignment piece with the tribrach alignment groove on the instrument and tribrach respectively. 2) When fully seated, revolve the tribrach locking lever 180° or 200g clockwise (which will point the triangle mark downwards again). Alignment piece Alignment groove Tribrach locking lever Securing screw z Locking the Tribrach Locking Lever The tribrach locking lever can be locked, to prevent it be accidentally removed, especially if the upper instrument section is not being detached very often. Simply tighten the securing screw on the locking lever with the accessory screwdriver, found in the case. 15-1 16 SELECTING MODE 16 SELECTING MODE 16.1 Items of the Selecting Mode The following modes are available. Menu 1: UNIT SET 2: MODE SET Items Selecting item Display TEMP. & PRES. °C/°F hPa/mmHg/inHg Select the unit of temperature for atmospheric correction. Select the unit of air pressure for atmospheric correction. ANGLE DEG (360°)/ GON (400G)/ MIL (6400M) Choose degree, gon or mil unit for measuring angle. DISTANCE METER/FEET/ FEET and inch Choose measuring unit for distance meter, feet or feet and inch FEET US SURVEY/ INTERNATIONAL Select the meter/feet conversion factor. US SURVEY feet 1m=3.280833333333333 ft. INTERNATIONAL feet 1m=3.280839895013123 ft. POWER ON MODE ANGLE MEAS./ DISTANCE MEAS. Select to set the measurement mode for angle or distance when the power is turned on. FINE/CRS/ TRK FINE/COARSE/ TRACK Select Fine/Coarse/Tracking mode in distance measurement mode, when the power is turned on. HD&VD/SD HD&VD/SD Specify which is displayed first, horizontal and vertical distance or slope distance, when the power is turned on. V ANGLE Z0/ H0 Zenith 0/ Horizontal 0 Choose the vertical angle reading from zenith or from level. N-TIMES/ REPEAT N-TIMES/ REPEAT Select the measurement mode for distance when the power is turned on. TIMES OF MEAS. 0~99 Set N (number of times) for times of distance measurement. When setting number of times as 1, it is single measurement. NEZ/ENZ NEZ/ENZ Select a coordinate displaying order either NEZ or ENZ. HA MEMORY ON/OFF Horizontal angle set can be retained after the power is turned off. ESC KEY MODE DATA COLLECT/ LAYOUT/REC/ OFF You can select a function of the [ESC] key. DATA COLLECT/LAYOUT: It is possible to enter data input mode (in DATA COLLECT) or Layout Menu from normal measuring mode directly. REC: While executing normal or offset measuring, the measuring data can be output. OFF: Returns to normal function. COORD. CHECK ON/OFF Select coordinate displaying ON or OFF when setting a point. 16-1 16 SELECTING MODE 3: OTHERS SET EDM OFF TIME 0-99 The time when EDM is cut off from distance measurement is completed can be changed. This function is effective for shortening the first time measuring time when distance measurement is started from distance measurement completing state. (Default: 3minutes) 0: After completing distance measurement, EDM is cut off immediately. 1-98: EDM is cut off after 1~98 minutes. 99: EDM is always switched ON. FINE READING 0.2/1mm Select 1mm or 0.2mm for the minimum reading unit in the distance mode (FINE mode). OFFSET V ANG FREE/HOLD Select Vertical angle setting in the Angle Offset measurement mode. FREE: Vertical angle varies by the angle of the telescope. HOLD: Vertical angle is fixed even if the angle of the telescope changes. H-ANGLE BUZZER ON/OFF Specify whether the buzzer sounds or not for every horizontal angle 90°. S/A BUZZER ON/OFF Specify whether the buzzer sounds or not in the set audio mode. WCORRECTION OFF/K=0.14/ K=0.20 Set correction for refraction and earth curvature, coefficient of refraction as; K=0.14, K=0.20 or no correction. NEZ MEMORY ON/OFF It is possible to retain the coordinate of instrument point, the instrument height and prism height after power off. REC TYPE REC-A/REC-B Select REC-A or REC-B for data output. REC-A: The measurement is made again and this new data is output. REC-B: The data being displayed is output. CR, LF ON/OFF It is possible to output the data with carriage return and line feed. NEZ REC FORM STANDARD/ STANDARD (12dig)/ with RAW with RAW (12dig) Select the format of the record coordinates data STANDARD: 11 digits standard data STASNDARD (12dig): 12 digits standard data with RAW: 11digits standard data with raw data with RAW (12dig): 12digits standard data with raw data MANUAL NEZ REC ON/OFF In the layout mode or data collect mode, it is possible to record coordinates entered directly from the keyboard. LANGUAGE * ENGLISH/ OTHER * Select the displaying language. ACK MODE STANDARD/ OMITTED Set the procedure of the communication with external device. STANDARD: Normal procedure OMITTED: Even though the [ACK] is omitted from the external device, the data is not sent again. GRID FACTOR USE G.F./ DON’T USE Select using GRID FACTOR in calculation of measurement data. 16-2 16 SELECTING MODE CUT & FILL STANDARD/ CUT&FILL In the layout mode, CUT & FILL can be displayed instead of dZ. ECHO BACK ON/OFF It is possible to output the data of echo back type. CONTRAST MENU ON/OFF When the instrument is turned ON, it is possible to display the screen which you can adjust contrast of the display and confirm the prism constant (PSM) and atmospheric correction value (PPM). PASSWORD *2) ON / OFF When the instrument is turned ON, the screen to request the password will appear. *3) *1) LANGUAGE selection is different in each country. *2) Applicable only to the instruments with security function *3) If you forget a password, the instrument needs repair to cancel the password. Please contact your local dealer. 16.2 How to Set Selecting Mode <Example>: Setting unit in hPa, °F, NEZ MEMORY: ON Operating procedure Operation 1 While pressing [F2] key, turn power ON. [F2] + Power ON Display PARAMETERS 2 F1:UNIT SET F2:MODE SET F3:OTHERS SET 2 Press [F1](UNIT SET) key. [F1] UNIT SET 1/2 F1:TEMP. & PRES. F2:ANGLE F3:DISTANCE P↓ 3 Press [F1](TEMP. & PRES.) key. [F1] TEMP. & PRES. UNIT TEMP. : °C PRES. : mmHg °C °F ––– ENTER 4 Press [F2](°F) key, and press [F2] [F4] TEMP. & PRES. UNIT TEMP. : °F PRES. : mmHg hPa mmHg inHg ENTER [F1] [F4] UNIT SET 1/2 F1:TEMP. & PRES. F2:ANGLE F3:DISTANCE [F4](ENTER) key. 5 Press [F1](hPa) key, and press [F4] (ENTER) key. Returns to unit set menu. 6 Press [ESC] key. [ESC] Returns to PARAMETERS 2 menu. PARAMETERS 2 F1:UNIT SET F2:MODE SET F3:OTHERS SET 7 Press [F3](OTHERS SET) key. [F3] OTHERS SET 1/5 F1:H-ANGLE BUZZER F2:S/A BUZZER F3:W-CORRECTION P↓ 8 Press [F4](P↓) key, to get the function in page 2. [F4] OTHERS SET F1:NEZ MEMORY F2:REC TYPE F3:CR,LF 16-3 2/5 P↓ 16 SELECTING MODE 9 Press [F1] key. [F1] NEZ MEMORY [OFF] [ON] [OFF] ––– ENTER 10 Press [F1](ON) key, and press [F4] (ENTER) key. Returns to OTHERS SET menu. 11 Power off [F1] [F4] Power OFF OTHERS SET F1:NEZ MEMORY F2:REC TYPE F3:CR,LF z Up or down arrow key can be used when there are four or more selection items. 16-4 2/5 P↓ 17 CHECK AND ADJUSTMENT 17 CHECK AND ADJUSTMENT 17.1 Checking and adjusting of instrument constant Normally, the instrument constant does not have discrepancy. It is recommended you measure and compare with an accurately measured distance at a location where the precision is specifically monitored on a consistent basis. If such a location is not available, establish your own base line over 20m (when purchasing the instrument) and compare the data measured with the newly purchased instrument. In both cases note that the setup displacement of the instrument position over the point, the prism, baseline precision, poor collimation, atmospheric correction, and correction for refraction and earth curvature determine the inspection precision. Please keep in mind these points. Also, when providing a base line in a building, please note that differences in temperature greatly affect the length measured. If a difference of 5mm or over is the result from the comparative measurement, the following procedure as shown below could be used to change the instrument constant. 1) Provide point C on a straight line, connecting straight line AB which is almost level and about 100m long. Measure straight lines AB, AC and BC. B A C 2) Obtain the instrument constant by repeating 1) above several times. Instrument constant = AC+BC–AB 3) When there is error between written instrument constant value and calculated value, review Section 17.4 “How to Set the Instrument Constant Value” 4) Once again, measure at a calibrated baseline and compare results. 5) If using above procedure and no difference is found from the instrument constant at the factory or a difference of over 5mm is found, contact your local dealer. Note: The seal with which the value is written is stuck on the lower part of the instrument, or the battery removal side of the instrument. 17-1 17 CHECK AND ADJUSTMENT 17.2 Checking the Optical Axis To check if the optical axis of EDM and theodolite are matched, follow the procedure below. It is especially important to check after adjustment of the eyepiece reticle is carried out. 1) Position the Instrument and prism with about 2m apart and face them at each other. (At this time, the power is ON.) Prism about 2m 2) Sight through the eyepiece and focus to the prism. Then center the prism on the cross hairs. Prism 3) Set to the measure mode to distance measurement or set audio. 4) Sight through the eyepiece and focus the (blinking) red light spot by turning the focusing knob in the direction of infinity (clockwise). If displacement of the reticle cross hairs is within one-fifth of the diameter of the round red light spot both vertically and horizontally, adjustment will not be required. Note: If displacement is more than one-fifth in the above case, and still remains so after rechecking the original line of sight, the instrument must be adjusted by competent technicians. Please contact your local dealer to adjust the instrument. Red light spot 17-2 17 CHECK AND ADJUSTMENT 17.3 Checking/Adjusting the Theodolite Functions z Pointers on the Adjustment 1) Adjust the eyepiece of the telescope properly prior to any checking operation which involves sighting through the telescope. Remember to focus properly, with parallax completely eliminated. 2) Carry out the adjustments in the order of item numbers, as the adjustments are dependent one upon another. Adjustments carried out in the wrong sequence may even nullify previous adjustment. 3) Always conclude adjustments by tightening the adjustment screws securely (but do not tighten them more than necessary, as you may strip the threads, twist off the screw or place undue stress on the parts). Furthermore, always tighten by revolving in the direction of tightening tension. 4) The attachment screws must also be tightened sufficiently, upon completion of adjustments. 5) Always repeat checking operations after adjustments are made, in order to confirm results. z Notes on the Tribrach Note that the angle measuring precision may be effected directly if the tribrach has not been installed firmly. 1) If any leveling screw becomes loose and slack or if collimation is unstable due to the looseness of leveling screws, adjust by tightening the adjusting screws (in 2 places) installed over each leveling screw with a screwdriver 2) If there is any slack between the leveling screws and the base, loosen the set screw of the holding ring and tighten the holding ring with adjusting pin, until it is properly adjusted. Re-tighten the set screw on completing the adjustment. Adjustment screw Leveling screw Adjustment screw Holding ring 17-3 Set screw 17 CHECK AND ADJUSTMENT 17.3.1Checking/Adjusting the Plate Level Adjustment is required if the axis of the plate level is not perpendicular to the vertical axis. z Check 1) Place the plate level parallel to a line running through the centers of two leveling screws, say, A and B. Use these two leveling screws only and place the bubble in the center of the plate level. 2) Rotate the instrument 180° or 200g around the vertical axis and check bubble movement of the plate level. If the bubble has been displaced, then proceed with the following adjustment. Plate level Leveling screw B Leveling screw A z Adjustment 1) Adjust the level adjustment capstan screw, with the accessory adjusting pin and return the bubble towards the center of the plate level. Correct only one-half of the displacement by this method. 2) Correct the remaining amount of the bubble displacement with the leveling screws. 3) Rotate the instrument 180° or 200g around the vertical axis once more and check bubble movement. If the bubble is still displaced, then repeat the adjustment. Level adjustment capstan screw Half amount of displacement 17.3.2Checking/Adjusting the Circular Level Adjustment is required if the axis of the circular level is also not perpendicular to the vertical axis. z Check 1) Carefully level the instrument with the plate level only. If the bubble of the circular level is centered properly, adjustment is not required. Otherwise, proceed with the following adjustment. z Adjustment 1) Shift the bubble to the center of the circular level, by adjusting three capstan adjustment screws on the bottom surface of the circular level, with the accessory adjusting pin. Capstan adjustment screws Bottom of the base 17-4 17 CHECK AND ADJUSTMENT 17.3.3Adjustment of the Vertical Cross-hair Adjustment is required if the vertical cross-hair is not in a place perpendicular to the horizontal axis of the telescope (since it must be possible to use any point on the hair for measuring horizontal angles or running lines). z Check 1) Set the instrument up the tripod and carefully level it. 2) Sight the cross-hairs on a well defined Point A at a distance of, at least, 50 meters (160ft.) and clamp horizontal motion. 3) Next swing the telescope vertically using the vertical tangent screw, and check whether the point travels along the length of the vertical cross-hair. 4) If the point appears to move continuously on the hair, the vertical cross-hair lies in a plane perpendicular to the horizontal axis (and adjustment is not required). 5) However, if the point appears to be displaced from the vertical cross-hair, as the telescope is swung vertically, then proceed with the following adjustment. z Adjustment 1) Unscrew the cross-hair adjustment section cover, by revolving it in the counterclockwise direction, and take it off. This will expose four eyepiece section attachment screws. Eyepiece section attachment screws Eyepiece section attachment screws Eyepiece 2) Loosen all four attachment screws slightly with the accessory screw-drive (while taking note of the number of revolutions). Then revolve the eyepiece section so that the vertical cross-hair coincides to Point A’. Finally, re-tighten the four screws by the amount that they were loosened. 3) Check once more and if the point travels the entire length of the vertical cross-hair, further adjustment is not required. Note: Perform following adjustment after completing the above adjustment. Section 17.3.4 “Collimation of the Instrument”, Section 17.3.6 “Adjustment of Vertical Angle 0 Datum”. 17-5 17 CHECK AND ADJUSTMENT 17.3.4Collimation of the Instrument Collimation is required to make the line of sight of the telescope perpendicular to the horizontal axis of the instrument, otherwise, it will not be possible to extend a straight line by direct means. z Check Eyepiece 1) Set the instrument up with clear sights of about 50 to 60meters (160 to 200 ft.) on both sides of the instrument. 2) Level the instrument properly with the plate level. 3) Sight Point A at approximately 50 meters (160 ft.) distance. Telescope 4) Loosen the vertical motion clamp only, and rotate the telescope 180° or 200g around the horizontal axis, so that the telescope is pointed in the opposite direction. 5) Sight Point B, at equal distance as Point A and tighten the vertical motion clamp. 6) Loosen the horizontal motion clamp and rotate the instrument 180° or 200g around the vertical axis. Fix a sight on Point A once more and tighten the horizontal motion clamp. 7) Loosen the vertical motion clamp only and rotate the telescope 180° or 200g around the horizontal axis once more and fix a sight on Point C, which should coincide with previous Point B. 8) If Points B and C do not coincide, adjust in the following manner. z Adjustment 1) Unscrew the cross-hair adjustment section cover. 2) Find Point D at a point between Points C and B, which should be equal to 1/4th the distance between Points B and C and measured from Point C. This is because the apparent error between Points B and C is four times the actual error since the telescope has been reversed twice during the checking operation. 3) Shift the vertical cross-hair line and coincide it with Point D, by revolving the left and right capstan adjustment screws with the adjusting pin.Upon completing the adjustment, repeat the checking operation once more. If Points B and C coincide, further adjustment is not required. Otherwise, repeat the adjustment. Capstan adjustment screws Capstan adjustment screws 17-6 Eyepiece 17 CHECK AND ADJUSTMENT Note: 1 2 First, loosen the capstan adjustment screw on the side to which the vertical cross-hair line must be moved. Then tighten the adjustment screw on the opposite side by an equal amount which will leave the tension of the adjustment screws unchanged. Revolve in the counterclockwise direction to loosen and in the clockwise direction to tighten, but revolve as little as possible. Perform following adjustment after completing above adjustment. Section 17.3.6 “Adjustment of Vertical Angle 0 Datum”, Section 17.2 “Checking the Optical Axis”. 17.3.5Checking/Adjusting the Optical Plummet Telescope Adjustment is required to make the line of sight of the optical plummet telescope coincide with the vertical axis (otherwise the vertical axis will not be in the true vertical when the instrument is optically plumbed). z Check 1) Coincide the center mark and the point. (See Chapter 2 “PREPARATION FOR MEASUREMENT”.) 2) Rotate the instrument 180° or 200g around the vertical axis and check the center mark. If the point is properly centered in the center mark, adjustment is not required. Otherwise, adjust in the following manner. z Adjustment 1) Take off the adjustment section cover of the optical plummet telescope eyepiece. This will expose four capstan adjustment screws which should be adjusted with the accessory adjusting pin to shift the center mark to the point. However, correct only one-half of the displacement in this manner. Capstan adjustment screws 1/2 of displacement Capstan adjustment screws Eyepiece Plummet telescope 2) Use the leveling screws and coincide the point and center mark. 3) Rotate the instrument 180° or 200g around the vertical axis once more and check the center mark. If it is coincided to the point, then further adjustment is not required. Otherwise, repeat the adjustment. Note: First, loosen the capstan adjustment screw on the side to which the center mark must be moved. Then tighten the adjustment screw on the opposite side by an equal amount which will leave the tension of the adjustment screws unchanged. Revolve in the counterclockwise direction to loosen and in the clockwise direction to tighten, but revolve as little as possible. 17-7 17 CHECK AND ADJUSTMENT 17.3.6Adjustment of Vertical Angle 0 Datum If when measuring the vertical angle of target A at telescope position normal (direct) and reverse settings, the amount of normal and reverse measurements combined is other than 360° (ZENITH-0), half of the difference from 360° is the error amount from corrected 0 setting. Carry out adjustment. As adjustment for vertical angle 0 setting is the criteria for determining instrument coordinate origin, use special care for adjustment. Operating procedure Operation Display [F1] + Power ON ADJUSTMENT MODE 1/2 F1:V ANGLE 0 POINT F2:INST. CONSTANT F3:V0 AXIS P↓ 1 Level the instrument properly with the plate level. 2 While pressing the [F1]key, turn power switch ON. 3 Press the [F1] key. [F1] V0 ADJUSTMENT <STEP-1> FRONT V: 90°00'00" ENTER 4 Collimate target A from the telescope properly in normal setting. 5 Press the [F4](ENTER) key. Collimate A (Normal) [F4] 6 Collimate target A in reverse telescope setting. Collimate A (Reverse) 7 Press the [F4](ENTER) key. Measured value is set and carry out normal angle measurement. V0 ADJUSTMENT <STEP-2> REVERSE V: 270°00'00" ENTER [F4] <SET!> V : 270°00'00" HR: 120°30'40" 0SET 8 Check that the total amount of normal and reverse angular travel is 360° collimating the target A by normal and reverse positions. 17-8 HOLD HSET P1↓ 17 CHECK AND ADJUSTMENT 17.4 How to Set the Instrument Constant Value To set the Instrument constant which is obtained in Section 17.1 “Check and adjusting of instrument constant”, follow as below. Operating procedure 1 While pressing the [F1] key, turn power switch ON. 2 Press the [F2] key. Operation Display [F1] + POWER ON ADJUSTMENT MODE 1/2 F1:V ANGLE 0 POINT F2:INST. CONSTANT F3:V0 AXIS P↓ [F2] INST. CONSTANT SET INST. CONSTANT = - 0.6 mm ––– ––– [CLR][ENT] 3 Enter the constant value. *1), 2) Enter value [F4] INST. CONSTANT SET INST. CONSTANT : - 0.7 mm INPUT ––– ––– ENTER 4 Turn power switch OFF. Power OFF *1) Refer to Section 2.5 “How to Enter Alphanumeric characters”. *2) To cancel the setting, press the [ESC] key. 17-9 17 CHECK AND ADJUSTMENT 17.5 Adjustment of Compensation Systematic Error of Instrument Operating procedure 1 Level the instrument properly with the plate level. 2 While pressing the [F1] key, turn power switch ON. Operation Display [F1] + Power ON ADJUSTMENT MODE 1/2 F1:V ANGLE 0 POINT F2:INST. CONSTANT F3:V0 AXIS P↓ 3 Press the [F3] key. [F3] 4 Press the [F1] key. [F1] V0 AXIS F1:MEASUREMENT F2:CONSTANT LIST V0/AXIS ADJUSTMENTS ERROR CORRECTION (A)COLLIMATION (B)H AXIS 5 Collimate target A (around 0° in horizontal within ±3°) in normal telescope setting (FACE (1)). 6 Press the [F4](SET) key. *1) The sample display shows that the measurement is made 5 times in FACE 1. 7 Turn the telescope in reverse telescope setting (FACE (2). Collimate A (Normal) 9 Press the [F4](SET) key. Repeat the procedures in step 8 and 9 so that the count of measured times matches to the one in FACE (1). *2), 3), 4) /0 SET [F4] Turn telescope Collimate A (Reverse) 8 Collimate target A. FRONT FACE1 V: 89°55'50" LEVEL ±0 SKIP REVERSE FACE2 V: 270°04'20" LEVEL ±0 5/5 SET [F4] (B)HORIZONTAL AXIS The title display will be shown automatically. 10 Collimate target B (more than ±10° from the level) in reverse telescope setting (FACE (2). *5) 11 Press the [F4](SET) key. *5) Collimate B (Reverse) REVERSE FACE 2 V: 270°04'20" LEVEL ±10° SET [F4] 12 Turn the telescope in normal telescope setting Turn telescope (FACE (1). 13 Collimate target B. Collimate B (Normal) [F4] 17-10 /0 FRONT FACE 1 V: 89°55'50" LEVEL ±10° SKIP 5/5 SET 17 CHECK AND ADJUSTMENT 14 Press the [F4](SET) key. Repeat the procedures in step 13 and 14 so that the count of measured COMPLETE times matches to the one in FACE(2). Then the display returns to main menu. z To show the constant list of systematic error of instrument 1 Press the [F3] key from Adjustment Mode menu 1/ 2. 2 Press the [F2] key. Correction values are displayed. 3 Press the [F1] key. ADJUSTMENT MODE 1/2 F1:V ANGLE 0 POINT F2:INST. CONSTANT F3:V0 AXIS P↓ [F3] V0 AXIS F1:MEASUREMENT F2:CONSTANT LIST [F2] VCo: -1°57'12" HCo: -0°00'20" HAx: -0°00'20" EXIT [F1] The display returns to previous menu. *1) It is able to get the average value from 1 to 10 measurements. To get the average, repeat the procedures in steps 5, 6 or 10, 11. The measured times is counted in the second line of display. *2) The compensation values of 1) Error of vertical axis (X, Y tilt sensor offset), 2) Collimation error, and 3) Error of vertical angle 0datum will be set and memorized internally. *3) The operating procedure steps to set compensation value of 4) Error of horizontal axis. *4) Pressing the [F1](SKIP) key enables to set next step without changing the last compensated value. *5) Pressing the [F1](SKIP) key makes end of setting without changing compensation value. 17-11 17 CHECK AND ADJUSTMENT 17.6 Reference frequency check mode The beam modulated by the reference frequency of EDM is emitted continuously. This mode is used for frequency test mainly. Operating procedure 1 While pressing the [F1] key, turn power switch ON. 2 Press the [F4](P↓) key to get the function as in Operation Display [F1] + POWER ON ADJUSTMENT MODE 1/2 F1:V ANGLE 0 POINT F2:INST. CONSTANT F3:V0 AXIS P↓ [F4] ADJUSTMENT MODE 2/2 F1:FRQ CHECK MODE page 2. P↓ 3 Press the [F1](FRQ CHECK MODE) key. [F1] FRQ CHECK MODE EXIT 4 Press the [F1](EXIT) key. [F1] The display will return to Adjustment mode menu 2/2. 17-12 ADJUSTMENT MODE 1/2 F1:V ANGLE 0 POINT F2:INST. CONSTANT F3:V0 AXIS P↓ 18 PRECAUTIONS 18 PRECAUTIONS 1) For transportation, hold by the handle or yoke of the instrument. Never hold by the lens barrel as it can affect the fixing bracket inside and reduce the accuracy of the instrument. 2) Never expose the instrument without a filter to direct sunlight. It may damage the components inside the instrument. 3) Never leave the instrument unprotected in high temperature. The temperature inside instrument may easily reach up to 70°C or above and will reduce the service life. 4) The instrument should be stored in the room temperature range of minus 30°C to plus 60°C. 5) When a high degree of precision is required for measurement, provide shade against direct sunlight for the instrument and tripod. 6) Any sudden change of temperature to the instrument or prism may result in a reduction of measuring distance range, i.e. when taking the instrument out from a heated vehicle. 7) When opening the carrying case and taking out the instrument, place the case horizontally, then open the case. 8) When returning the instrument to its case, be sure to match the white positioning marks provided with the case and place the instrument with the eyepiece upward. 9) For transportation, provide dampening or a cushion appropriately to avoid sudden shock or vibration. 10) For cleaning the instrument after use, remove dust using a cleaning brush, then wipe off with a cloth. 11) For cleaning the lens surface, use a cleaning brush to remove the dust, then use a clean lintless cotton cloth. Moisten it with alcohol (or mixture with ether) to wipe gently in a rotational motion from the center out. 12) Even if any abnormality occurs, never attempt to disassemble or lubricate the instrument yourself. Always consult with your local dealer. 13) To remove the dust on the case, never use thinner or benzine. Use a clean cloth moistened with neutral detergent. 14) Check each part of the tripod after extended use. Parts (screws or clamps) may work themselves free. 18-1 19 OPTIONAL ACCESSORIES 19 OPTIONAL ACCESSORIES The following are optional accessories which are sold separately from the SET. Interface cable F-24 Cable for communicating an external instrument and SET by the serial signal connector. Trough compass, Model 6 Shock proof construction. No clamp is necessary when carrying the instrument. Solar reticle, Model 6 A reticle designed for collimation of the sun. Can be used together with Solar Filter. Diagonal eyepiece, Model 10 Observation in an easy posture will be provided up to the zenith position Solar filter, Model 6 A filter designed exclusively for direct collimation of the sun. Solar filter of flap-up type. Optical plummet tribrach This is detachable tribrach having built-in optical plummet telescope. (Compatible with Wild) 19-1 20 BATTERY SYSTEM 20 BATTERY SYSTEM In case of On-board battery BT-G1S SET62/SET65 Charging Charging time Quick BC-G1B for AC120V use BC-G1C for AC220V use BC-27M for AC220V use Approx. 1.8h BT-G1S BC-G1B/BC-G1C/BC-27M 20-1 21 TARGET SYSTEM 21 TARGET SYSTEM The following are all special accessories (sold separately). Arrangement according to your needs is possible. Target pole-2 (not used with 9 prisms) Prism-2 Tilting prism holder-2 with target plate-2 Tilting prism Single prism holder-3 holder-2 Triple prism holder-2 Tribrach adaptor-2 Tilting triple prism holder-1 9 prism holder-2 Tribrach adaptor-S2 Pole adaptor- A Pole adaptor- F2 Tribrach Optical plummet tribrach It is possible to change the combination according purpose. Tilt single prism unit Fixed 3 prisms unit Fixed 9 prisms unit Tripod Use the above prisms after setting them at the same height as the instruments. To adjust the height of prism set, change the position of 4 fixing screws. 21-1 22 ERROR DISPLAYS 22 ERROR DISPLAYS Error code Description Countermeasures 3 points required When area calculating, there are less than 3 points coordinate data in selected file. Confirm the file data and calculate again. CALC ERROR Calculation is impossible from the data input. Confirm the input data. DELETE ERROR When deleting coordinate data, it can not be done successful. Confirm the data and delete again. Displayed when REM measurement carried out to the range from zenith or nadir ±6°. Operate in the range out of ± 6° from the zenith or nadir. E60’s Any abnormality occurs with EDM (distance measuring system). Repair is required. E71 Displayed when vertical angle 0 position is set with incorrect procedure. Confirm the procedure and readjust. E72 Displayed when Vertical angle -position is adjusted in wrong position. Repair is required. E73 The instrument was not leveled when Vertical angle 0-position is adjusted. Level the instrument then carry the adjustment work. E80’s Mainly at the time data transmission between SET and external instrument. Confirm operation procedure is correct or the connection cables are correct. E90’s Abnormality in internal memory system. Repair is required. The same file name exists. Use another file name. When making a file, 30 files already exist. If necessary, send or delete files. Initializing can not be done successful. Confirm initializing data and try to initialize again. Limit of input data exceeded. Input again. MEMORY ERROR Any abnormality occurs with internal memory. Initialize the internal memory. MEMORY POOR Shortage of capacity of the internal memory. Download data from internal memory to PC. NO DATA The data is not found in the search mode Confirm the data and search again. NO FILE There is no file in internal memory. If necessary, make files. When using a file, no file is selected. Confirm the file and select a file. When in point to line measurement, the horizontal distance between first point and second point is within 1m. The horizontal distance between first point and second point must be more than 1m. E35 FILE EXISTS FULL FILES FAILED INITIALIZE LIMIT OVER FILE NOT SELECTED P1-P2 distance too short 22-1 22 ERROR DISPLAYS CIRCULAR ERROR Known points and occupied point are on the same circle at the resection mode. Take the different point. PT# EXIST Same new point name is already memorized in the memory. Confirm the new point name and input again. PT# DOES NOT EXIST When you enter incorrect name or PT# does not exist in the internal memory. Enter the correct name or enter point in the internal memory. RANGE ERROR When setting a new point, calculation is impossible from the measured data. Measure again. Tilt Over Instrument tilts over more than 3 minutes. Level the instrument properly. V ANGLE ERROR H ANGLE ERROR Abnormality in angle measuring system. If this error code continues to display, repair is required. VH ANGLE ERROR z If error still persist after attempting to clear them, contact your local dealer. 22-2 23 SPECIFICATIONS 23 SPECIFICATIONS Telescope Length Objective lens Magnification Image Field of view Resolving power Minimum focus Reticle illumination : : : : : : : : 150mm 45mm (EDM 50mm) 30× Erect 1°30' 3.0" 1.3m Provided Distance measurement Measurement range Atmospheric conditions Prism Condition 1 Mini prism Condition 2 900m (3,000ft) ---- 1 prism 2,000m (6,600ft) 2,300m (7,500ft) 3 prisms 2,700m (8,900ft) 3,100m (10,200ft) 9 prisms 3,400m (11,200ft) 4,000m (13,200ft) Condition 1: Slight haze with visibility about 20km (12.5miles) moderate sunlight with light heat shimmer. Condition 2: No haze with visibility about 40km (25 miles), overcast with no heat shimmer. Measurement accuracy Least Count in Measurement Fine measurement mode Coarse measurement mode Tracking measurement mode Measurement Display Measurement Time Fine measurement mode Coarse measurement mode Tracking measurement mode Atmospheric Correction Range Prism Constant Correction Range Coefficient Factor : ±(2mm +2ppm × D) m.s.e. D: Measuring distance (mm) : : : : 1mm (0.005ft.)/0.2mm (0.001ft.) 10mm (0.02ft.)/1mm (0.005ft.) 10mm (0.02ft.) 12 digits : max. display 99999999.9999 : 1mm : 1.2sec. (Initial 4 sec.) 0.2mm : 2.8sec. (Initial 5 sec.) : 0.7sec. (Initial 3 sec.) : 0.4sec. (Initial 3 sec.) (The initial time will be different by a condition and setting EDM off time.) : –999.9 ppm to +999.9 ppm, in 0.1 ppm increments : –99.9 mm to +99.9 mm, in 0.1 mm increments : Meter/Feet International feet 1meter = 3.28083989501 ft. US SURVEY feet 1meter = 3.28083333333 ft. 23-1 23 SPECIFICATIONS Electronic Angle Measurement Method : Absolute reading Detecting system: Horizontal angle : 2 sides Vertical angle : 1 side Minimum reading : 5" / 1" (1mgon/0.2mgon) reading Accuracy (Standard deviation based on ISO 17123-3 : 2001 ) SET62 : 2" (0.6mgon) SET65 : 5" (1.5mgon) Measuring time : Less than 0.3 sec. Diameter of circle : 71mm Tilt Correction (Automatic index) Tilt sensor Method Compensating Range Correction unit Others Instrument height : : : : Automatic vertical and horizontal compensator Liquid type ±3' 1" (0.1mgon) : 176mm (6.93in) Base unit detachable (Height from the tribrach dish to the center of telescope) Level sensitivity Circular level Plate level : 10'/2mm : 30"/2mm Optical Plummet Telescope Magnification Focusing range Image Field of view : : : : Dimension 3× 0.5m to infinity Erect 5°(ø114mm/1.3m) : 184(W)×172(D)×336(H) mm (7.2(W)×6.8(D)×13.2(H) in) Weight Instrument (with battery) (without battery) Plastic carrying case Durability Protection against water and dust Ambient Temperature Range : 4.9kg (10.8 lbs) : 4.6kg (10.1 lbs) : 3.4kg (7.5 lbs) (Weight of the carrying case may be slightly different due to specific market.) : IP54(with BT-G1S) (Based on the standard IEC60529) : –20°C to +50°C (–4°F to +122°F) Battery BT-G1S (This battery does not contain mercury.) Out put voltage : 7.2 V Capacity : 2300mAh(Ni-MH) Number of cells : 6 Maximum operating time (when fully recharged) at +20°C (+68°F) Including distance measurement : 9hours (10,000 points) Angle measurement only : 40hours Weight : 0.3kg (0.7lbs) 23-2 23 SPECIFICATIONS Battery Charger BC-G1B/BC-G1C/BC-27M Input voltage Frequency Recharging time (at +20°C/+68°F) Battery BT-G1S Discharging time (at +20°C/+68°F) Battery BT-G1S Operating temperature Charging signal Refreshing signal Finishing signal Weight : AC 120V (BC-G1B)/AC 220V (BC-G1C/BC-27M) : 60Hz/50Hz : 1.8 hours : : : : : : 10 hours (in case of full charge) +10°C to +40°C (+50°F to 104°F) Red lamp illumination Yellow lamp illumination Green lamp illumination 0.5kg (1.1 lbs) z Battery using time will vary depending on environmental conditions and operations done with SET. 23-3 24 REGULATIONS 24 REGULATIONS Region/ Country Directives/ Regulations Labels/Declarations NOTE: This equipment has been tested and found to comply with limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures: U.S.A. FCC-Class B - Reorient or relocate the receiving antenna. - Increase the separation between the equipment and receiver. - Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. - Consult the dealer or an experienced radio / TV technician for help. Declaration of Conformity Model Number: Trade Name: Manufacturer SET62/SET65 TOPCON CORPORATION Name: TOPCON CORPORATION Address: 75-1, Hasunuma-cho, Itabashi-ku, Tokyo, 174-8580 JAPAN Country: JAPAN U.S.A. Representative Responsible party: TOPCON POSITIONING SYSTEMS,INC. Address 7400 National Drive Livermore, CA94551, U.S.A Telephone number: 925-245-8300 California, U.S.A. Proposition 65 California, U.S.A. Perchlorate Material (CR Lithium Battery) 24-1 24 REGULATIONS Region/ Country California and NY, U.S.A. Canada Directives/ Regulations Labels/Declarations Recycling Batteries ICES-Class B This class B digital apparatus meets all requirements of the Canadian interference-Causing Equipment Regulations. Cet appareil numérique de la class B respecte toutes les exigences du Réglement sur le matérique brouilleur du Canada. This Class B digital apparatus complies with Canadian ICES-003 Cet appareil numerique de la Class B est conforme a la norme NMB-003 du Canada. Europe EMC-Class B EU WEEE Directive EU EU Battery Directive 24-2 24 REGULATIONS Region/ Country Australia Directives/ Regulations Labels/Declarations C-Tick 23316 Republic of Korea KC:Class B 24-3 APPENDIX APPENDIX 1 Dual Axis Compensation Inclination of the vertical axis with respect to true vertical will result in incorrectly measured horizontal angles. The extent of the error in horizontal angle measurement due to axis tilt depends on three factors : z the amount of the tilt of axis z the elevation of the target z the horizontal angle between the direction of till of the vertical axis and the target. These factors are related by the following formula: Hzerr = v•sinα • tanh where v = tilt of axis in arcseconds α = azimuth angle between vert. axis direction and target h = elevation of target Hzerr= error in horizontal angle Example: When the vertical axis is tilted by 30 arcseconds, the target is 10° above the horizon and rotated 90 in azimuth from the direction of the vertical axis error. Hzerr = 30" • sinα • tan10° Hzerr = 30" • 1 • 0 .176326=5.29" From the above example it can be seen that horizontal angle errors will increase with steeper vertical sights (tangent will increase as vertical angle increases) and will be at a maximum when the target is at right angles (sin 90°=1) to the direction of the vertical axis error. Errors will be at a minimum when the sights are nearly horizontal (h=0, tan0=0) and in the same direction as the vertical axis error (α =0, sin0=0). Please refer to the table below to see the relationship between axis tilt (v) and elevation (h) and the error in horizontal angles which results from these factors. h 0° 1° 5° 10° 30° 45° 0" 0" 0" 0" 0" 0" 0" 5" 0" 0.09" 0.44" 0.88" 2.89" 5" 10" 0" 0.17" 0.87" 1.76" 5.77" 10" 15” 0" 0.26" 1.31" 2.64" 8.66" 15" 30" 0" 0.52" 2.62" 5.29" 17.32" 30" 1' 0" 1.05" 5.25" 10.58" 34.64" 1' v APPENDIX-1 APPENDIX It is clear from the table that dual axis compensation has the most benefit when the elevation of the target is greater then 30° and the axis is tilted more than 10". The entries indicated in bold in the table show, in fact, that for many common surveying applications i.e. target elevation <30° and axis error <10", virtually no correction would be required. Dual axis compensation is especially suited then for applications where the sights are very steep. Even though the compensators can correct horizontal angles for vertical axis errors, it is still important to use care in setting up the instrument. Centering error, for instance, cannot be corrected by the compensators. If the vertical axis is tilted by 1’ with the instrument 1.4meters above the ground, a centering error of approx. 0.4mm will result. The maximum effect of this error at 10m is about 8" of horizontal angle error. In order to maintain the increased accuracy possible through dual axis compensation, it is necessary to keep the compensators in proper adjustment.The compensators must agree with the actual level condition of the instrument. Through various environmental stresses, the agreement between the level condition sensed by the compensators and the true level condition of the instrument may be disturbed. In order to reestablish the correct relationship between the compensator and the true level condition of the instrument, it is necessary to carry out the vertical indexing procedure listed on see Chapter 17.3.6 “Adjustment of Vertical Angle 0 Datum”. This adjustment will both reset the vertical index (cause a direct + indirect zenith reading to the same elevation to equal 360°) and zero the level reference for the horizontal compensator. While correct vertical angles can be obtained by averaging direct and indirect reading even when the index is improperly adjusted, the same is not true for horizontal angles. Since the vertical axis error is fixed for a given setup, its effect cannot be removed by averaging two readings. For this reason, it is extremely important to maintain the vertical indexing adjustment to insure proper correction of the horizontal angles. APPENDIX-2 APPENDIX 2 Precaution when Charging or Storing Batteries The capacity of battery will be affected and its service life shortened in any of the following cases while it is recharged, dischrged or stored. 1) Recharging Fig. 1 shows how ambient temperature at recharging is related to charging efficiency or as affecting discharge capacity. As seen from the figure, charging at normal temperature is best, and the efficiency decreases as the temperature rises. It is best, therefore, to always recharge the battery at normal temperature to obtain full use of battery capacity and enjoy maximum operation per charge. And the service life of your battery will be shortened if it is frequently overcharged or recharged at high temperature. Note: 0.1C charge means that the battery is recharged with 0.1 -time current as against its capacity. 2) Discharge Fig. 2 shows discharge temperature characteristics. Discharge characteristics at high temperature are the same as those at normal temperatures. The battery is likely to have reduced discharge capacity as well as lower discharged voltage when discharged at low temperature. And the service life of your battery will be shortened if it is greatly overcharged. Note: 1C discharge means one with 1 -time current over battery capacity. 3) Storage See Fig. 3 for how storing period at different temperature levels is related to the remaining capacity. The battery will lose its capacity as storage temperature rises and the storage period increases. This does not mean, however, that the battery performance is damaged when the battery is stored. The battery, reduced in capacity, will be restored once it is recharged. Always recharge your battery before use. And recharge and discharge the battery 3 or 4 times to restore its capacity if it has been stored for a long period or at high temperature. Storing at high temperature can adversely affect the service life of your battery. Your battery has been fully charged before leaving the factory, but its capacity may be affected considerably when it takes several months to reach you, if it is stored at high temperature area or passes through a high-temperature region. Then, the battery must be recharged and discharged 3~4 times to fully restore its capacity. And the battery should always be stored at normal temperature or lower if it will not be used for any long period. This helps your battery have a longer service life. APPENDIX-3 APPENDIX APPENDIX-4 2013 TOPCON CORPORATION ALL RIGHTS RESERVED http://www.topcon.co.jp Please see the attached address list or the following website for contact addresses. GLOBAL GATEWAY http://global.topcon.com/