Topcon ES-62 Instruction Manual
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Topcon ES-62 Instruction Manual

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INSTRUCTION MANUAL
EASY STATION
ES-62
ES-65
1016312-01-B

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Summary of Contents for Topcon ES-62

  • Page 1 INSTRUCTION MANUAL EASY STATION ES-62 ES-65 1016312-01-B...
  • Page 2 • Always keep this manual in a convenient location and read it when necessary. • This manual is protected by copyright and all rights are reserved by TOPCON CORPORATION. • Except as permitted by Copyright law, this manual may not be copied, and no part of this manual may be reproduced in any form or by any means.

  • Page 3: Precautions For Safe Operation

    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 by an exclamation point within a triangle used with WARNING and CAUTION statements in this instruction manual.
  • Page 4 Power Supply  Warning Do not place articles such as clothing on the battery charger while charging batteries. Sparks could  be induced, leading to fire. Do not use batteries other than those designated. An explosion could occur, or abnormal heat ...
  • Page 5 Bluetooth Wireless technology  Warning  Do not use within the vicinity of hospitals. Malfunction of medical equipment could result. Use the instrument at a distance of at least 22 cm from anyone with a cardiac pacemaker.  Otherwise, the pacemaker may be adversely affected by the electromagnetic waves produced and cease to operate as normal.

  • Page 6: Precautions

    PRECAUTIONS Before starting work or operation, be sure to check that the instrument is functioning correctly with normal performance. Charging Battery • Be sure to charge the battery within the charging temperature range. Charging temperature range: 0 to 40°C • Use only the specified battery or the battery charger. Failures caused by using other batteries or battery chargers are out of warranty including the main unit.
  • Page 7 Carrying case • When using the carrying strap, be sure to attach the both hooks to the attachment holes on the carrying case. Backing up data • Data should be backed up (transfered to an external device etc.) on a regular basis to prevent data loss. Other precautions •...
  • Page 8 Contact your local dealer in advance. “25. REGULATIONS” • TOPCON CORPORATION is not liable for the content of any transmission nor any content related thereto. When communicating important data, run tests beforehand to ascertain that communication is operating normally.
  • Page 9  • TOPCON CORPORATION cannot guarantee full compatibility with all Bluetooth products on the market. Exporting this product (Relating EAR) This product is equipped with the parts/units, and contains software/technology, which are subject to the EAR (Export Administration Regulations).

  • Page 10: Laser Safety Information

    LASER SAFETY INFORMATION ES is classified as the following class of Laser Product according to IEC Standard Publication 60825-1 Ed.3.0: 2014 and United States Government Code of Federal Regulation FDA CDRH 21CFR Part 1040.10 and 1040.11 (Complies with FDA performance standards for laser products except for deviations pursuant to Laser Notice No.50, dated June 24, 2007.) Device Laser class...
  • Page 11  Caution • Perform checks at start of work and periodic checks and adjustments with the laser beam emitted under normal conditions. • When the instrument is not being used, turn off the power. • When disposing of the instrument, destroy the battery connector so that the laser beam cannot be emitted. •...

  • Page 12: Table Of Contents

    Contents HOW TO READ THIS MANUAL ........i PRECAUTIONS FOR SAFE OPERATION .
  • Page 13 6.1.5 Point to Line Measurement ........6-14 6.2 Setting the GRID FACTOR.
  • Page 14 9.3.3 Deleting a File ........... 9-9 9.4 Coordinate Data Direct Key Input .
  • Page 15 21 SPECIAL ACCESSORIES ....... . . 21-1 22 BATTERY SYSTEM ........22-1 23 PRISM SYSTEM .

  • Page 16: Nomenclature And Functions

    1 NOMENCLATURE AND FUNCTIONS NOMENCLATURE AND FUNCTIONS 1.1 Nomenclature 1 Handle 2 Bluetooth antenna 3 External interface hatch (USB port) 4 Instrument height mark 5 Battery cover 6 Operation panel 7 Serial connector 8 Circular level 9 Circular level adjusting screws 10 Base plate 11 Levelling foot screw 12 Optical plummet focussing ring...

  • Page 17: Display

    1 NOMENCLATURE AND FUNCTIONS  Laser-pointer Function A target can be sighted with a red laser beam in dark locations without the use of the telescope.  Handle The handle can be removed from the instrument. To remove it, loosen the handle locking screw. Handle Handle locking screw...

  • Page 18: Operating Key

    1 NOMENCLATURE AND FUNCTIONS  Display marks Display Contents Display Contents ∗ V-angle EDM working H-angle right Meter unit H-angle left Feet unit / Feet and inch unit Horizontal distance non-prism mode Relative elevation Sheet mode Slope distance Laser emitting mark N coordinate Bluetooth is under communication.

  • Page 19: Function Key (Soft Key)

    1 NOMENCLATURE AND FUNCTIONS Keys Name of Key Function Switches to menu mode {MENU} Menu key Starts measurement applications and performs various settings Lights up the display unit and key Illumination key Switches the screen/key backlight and Reticle illumination ON/OFF {SHIFT Shift / Target key Switches between target types (prism mode/sheet mode/non-prism mode)
  • Page 20 1 NOMENCLATURE AND FUNCTIONS Angle measurement Soft Display Page Function mark {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} The function of soft keys is shown on next page (P2). ↓...

  • Page 21: Star Key Mode

    1 NOMENCLATURE AND FUNCTIONS 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 15 steps) { } or { 2.
  • Page 22 1 NOMENCLATURE AND FUNCTIONS  Adjustment the contrast (0 to 15) of the display This enable you to adjust the contrast of the display. Press the up or down arrow keys to adjust the contrast.  Adjustment the reticle illumination (1 to 5) This enable you to adjust the reticle illumination.

  • Page 23: Serial Signal Rs-232C Connector

    1.6 Serial signal RS-232C connector The serial signal connector is used for connecting the ES with a computer or TOPCON Data Collector, which enables the computer to receive measured data from the ES or to send preset data of horizontal angle, etc.

  • Page 24: Preparation For Measurement

    2 PREPARATION FOR MEASUREMENT PREPARATION FOR MEASUREMENT 2.1 Power Switch Key ON Confirm the instrument is leveled. Press the power key. Press the power key X -3'20" 3'40" EXIT Press the {F1} (EXIT) key Bluetooth is under communication. (This symbol mark of the Bluetooth will 90°10'20"...

  • Page 25: Battery Power Remaining Display

    2 PREPARATION FOR MEASUREMENT 2.2 Battery Power Remaining Display Battery power remaining display indicates the power condition. 90°10'20" Measurement is possible. 0°00'00" ↓ 0SET HOLD HSET The power is poor. The battery Battery power remaining display should be recharged or replaced. Blinking Measurement is impossible.

  • Page 26: Vertical And Horizontal Angle Tilt Correction

    2 PREPARATION FOR MEASUREMENT 2.3 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.
  • Page 27 2 PREPARATION FOR MEASUREMENT  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,Y Tilt OFF Operating procedure Option Display Press {F4} key to get the function page 2. {F4} 90°10'20"...

  • Page 28: How To Enter Alphanumeric Characters

    2 PREPARATION FOR MEASUREMENT 2.4 How to Enter Alphanumeric Characters This enables you to enter alphanumeric characters such as the instrument height, prism height, occupied point, backsight point etc. MENU Alphanumeric characters key Keys Name of Key Function During numeric input, input number of the key. {0} –...
  • Page 29 INS.HT: 0.000 m INPUT SRCH REC OCNEZ :ST-01 INS.HT→ 0.000 m INPUT SRCH REC OCNEZ  How to enter characters [Example setting] TOPCON-1 Move the arrow to enter a item using the { → or { } key. INS.HT: 0.000 m INPUT SRCH REC OCNEZ Press the {F1} (INPUT) key.
  • Page 30 2 PREPARATION FOR MEASUREMENT Press the {F1} (NUM) key, again. =TOPCON The instrument switches back to numerical input mode. INS.HT: 0.000 m [ALP][SPC][CLR][ENT] Enter numbers by pressing the alphanumeric characters key. =TOPCON-1 Example: { - }, {1} key is pressed.

  • Page 31: 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 5/8 in. diameter and 11 threads per inch, such as the Type E TOPCON wide- frame wooden tripod. ...
  • Page 32 2 PREPARATION FOR MEASUREMENT  PROCEDURE: Centering with the laser plummet (Option) Set up the tripod and affix the instrument on the tripod head.  “PROCEDURE: Centering with the optical plummet eyepiece” steps 1 and 2 Press {ON} to power on ...

  • Page 33: Levelling

    2 PREPARATION FOR MEASUREMENT evelling 2.5.2 L  PROCEDURE Perform the centering procedure.  See Section 2.5.1 “Centering”. Center the bubble in the circular level by either shortening the tripod leg closest to the offcenter Tripod legs direction of the bubble or by lengthening the tripod leg adjustment farthest from the offcenter direction of the bubble.
  • Page 34 2 PREPARATION FOR MEASUREMENT Loosen the centering screw slightly. Looking through the optical plummet eyepiece, slide the instrument over the tripod head until the survey point is exactly centered in the reticle. Retighten the centering screw securely. • When the instrument was centered using the laser plummet, emit the plummet beam again to check position over the survey point.

  • Page 35: Focussing And Target Sighting

    2 PREPARATION FOR MEASUREMENT 2.6 FOCUSSING AND TARGET SIGHTING  • When sighting the target, strong light shining directly into the objective lens may cause the instrument to malfunction. Protect the objective lens from direct light by attaching the lens hood. Observe to the same point of the reticle when the telescope face is changed.

  • Page 36: Angle Measurement

    3 ANGLE MEASUREMENT ANGLE MEASUREMENT 3.1 Measuring Horizontal Angle Right and Vertical Angle Make sure the mode is in Angle measurement. Operating procedure Operation Display Collimate the 1st target (A). Collimate A 90°10'20" HR: 120°30'40" ↓ 0SET HOLD HSET Set horizontal angle of target A at 0° 00' 00". {F1} H ANGLE 0 SET Press the {F1} (0 set) key and press the {F3}...

  • Page 37: Switching Horizontal Angle Right/Left

    3 ANGLE MEASUREMENT 3.2 Switching Horizontal Angle Right/Left Make sure the mode is Angle measurement. Operating procedure Operation Display Press the {F4} ( ) key twice to get the function ↓ {F4} 90°10'20" on page 3. twice HR: 120°30'40" ↓ 0SET HOLD HSET ↓...

  • Page 38: Setting A Horizontal Angle From The Keys

    3 ANGLE MEASUREMENT 3.3.2 Setting a Horizontal Angle from the Keys Make sure the mode is Angle measurement. Operating procedure Operation Display Collimate the target. Collimate 90°10'20" 170°30'20" ↓ 0SET HOLD HSET Press the {F3} (HSET) key. {F3} H ANGLE SET --- --- [CLR] [ENT] Input the required horizontal angle by 90°10'20"...

  • Page 39: Repetition Angle Measurement

    3 ANGLE MEASUREMENT 3.5 Repetition Angle Measurement  • Repetition angle measurement can be done by horizontal angle right measurement mode. Make sure the mode is Horizontal Angle Right measurement. Operating procedure Operation Display Press the {F4} ( ) key to get the function on page ↓...

  • Page 40: Buzzer Sounding For Horizontal Angle 90° Increments

    3 ANGLE MEASUREMENT To return to the normal angle mode, press the {F2} {ESC} REPETITION ANGLE (V/H) key or {ESC} key. Exit {F2} >OK? [YES][NO] Press the {F3} (YES) key. {F3} 90°10'20" 170°30'20" ↓ 0SET HOLD HSET P1  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".

  • Page 41: Compasses (Vertical Angle)

    3 ANGLE MEASUREMENT 3.7 Compasses (vertical angle) Vertical angle is displayed as shown below. +90° 0° 0° -90° Operating procedure Operation Display Press the {F4} ( ) key twice to get the function ↓ {F4} 98°10'20" on page 3. twice 170°30'20"...

  • Page 42: Distance Measurement

    4 DISTANCE MEASUREMENT DISTANCE MEASUREMENT CAUTION  • When using the Laser-pointer function, be sure to turn OFF the output laser after distance measurement is completed. Even if distance measurement is canceled, the Laser-pointer function is still operating and the laser beam continues to be emitted. ...

  • Page 43: Setting Of The Atmospheric Correction

    Refer to Section 12.2 “Setting of Atmospheric Correction Value”. 4.2 Setting of the Correction for Prism Constant Topcon’s prism constant value is 0. Set correction for prism at 0. If the prism is of another manufacture,  the appropriate constant shall be set beforehand.

  • Page 44: Distance Measurement (N-Time Measurement/Single Measurement)

    4 DISTANCE MEASUREMENT 4.4 Distance Measurement (N-time Measurement/Single Measurement) When the number of times measurement is preset, the ES 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.

  • Page 45: Fine Mode/Tracking Mode/Coarse Mode

    4 DISTANCE MEASUREMENT 4.5 Fine Mode/Tracking Mode/Coarse Mode This setting is not memorized after power is off.  Refer to Chapter 17 “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 can be changed.

  • Page 46: Stake Out (S.o)

    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 In stake out operation, you can select either horizontal distance (HD), relative elevation (VD) and slope distance (SD) Operating procedure Operation...

  • Page 47: Offset Measurement

    4 DISTANCE MEASUREMENT 4.7 Offset Measurement There are four offset measurement modes in the Offset Measurement.  Angle offset  Distance offset  Plane offset  Column offset To show the offset measurement menu, press the [OFSET] soft key from distance or coordinate measurement mode.

  • Page 48: Angle Offset

    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.
  • Page 49 4 DISTANCE MEASUREMENT The horizontal distance from the instrument to the OFFSET-MEASUREMENT prism will be measured. 110°20'30" 56.789 m NEXT Collimate point A using the horizontal motion Collimate OFFSET-MEASUREMENT clamp and horizontal tangent screw. 113°30'50" 56.789 m NEXT Show the relative elevation of point A OFFSET-MEASUREMENT 113°20'30"...

  • Page 50: Distance Offset Measurement

    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 RorLHD Prism height Prism P Instrument height Occ.Point When measuring coordinates of ground point A...
  • Page 51 4 DISTANCE MEASUREMENT After measuring, the result added offset value will DISTANCE OFFSET be shown. 80°30'40" 10.000 m NEXT Show the relative elevation of point P0. DISTANCE OFFSET  Each time pressing the { } key, horizontal 80°30'40" distance, relative elevation and slope distance are 11.789 m shown in sequence.

  • Page 52: Plane Offset Measurement

    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.
  • Page 53 4 DISTANCE MEASUREMENT Measure the second and third points in the same Collimate PLANE way. N002#: {F1} MEAS NP/P --- Collimate PLANE N003#: {F1} MEAS NP/P --- The instrument calculates and displays coordinate 80°30'40" and distance value of cross point between 54.321 m collimation axis and of the plane.

  • Page 54: Column Offset Measurement

    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).
  • Page 55 4 DISTANCE MEASUREMENT Collimate the center of the column (P1) and press Collimate COLUMN OFFSET the {F1} (MEAS) key. Center N-time measuring will start. {F1} HD* [n] << m After the measurement, angle measuring display >Measuring... of the left side (P2) will be shown. Collimate the left side of the column (P2) and Collimate COLUMN OFFSET...

  • Page 56: Coordinate Measurement

    5 COORDINATE MEASUREMENT 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.

  • Page 57: Setting Height Of The Instrument

    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 17 “SELECTING MODE”. Operating procedure Operation Display Press the {F4} ( ) key from the coordinate ↓...

  • Page 58: Execution Of Coordinate Measuring

    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.  When setting coordinate values of occupied point, see Section 5.1 “Setting Coordinate Values of Occupied Point”...

  • Page 59: Special Mode (Menu Mode)

    6 SPECIAL MODE (Menu Mode) 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 {ESC} {MENU} {ESC} {F1} MENU "TOP FIELD MODE" F1:TOP FIELD {ESC} ...

  • Page 60: Application Measurement (Programs)

    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...
  • Page 61 6 SPECIAL MODE (Menu Mode) Horizontal distance (HD) between the instrument REM-1 and prism will be shown. <STEP-2> HD* 123.456 m >Measuring... REM-1 1.500 m ––– R.HT HD ––– Collimate target K. Collimate K REM-1 Vertical distance (VD) will be shown. *2),3) VD: 10.456 m –––...
  • Page 62 6 SPECIAL MODE (Menu Mode) The prism position will be decided. REM-2 <STEP-2> V : 60°45'50" ––– ––– ––– Collimate ground point G. Collimate G REM-2 <STEP-2> V : 123°45'50" ––– ––– ––– Press the {F4} (SET) key. {F4} REM-2 The position of point G will be decided.

  • Page 63: Missing Line Measurement (Mlm)

    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.
  • Page 64 6 SPECIAL MODE (Menu Mode) Press the {F1} or {F2} key to select using {F2} GRID FACTOR. F1:MLM-1(A-B, A-C) [Example:F2 : DON’T USE] F2:MLM-2(A-B, B-C) Press the {F1} key. {F1} MLM-1(A-B, A-C) <STEP-1> MEAS R.HT NEZ NP/P Collimate prism A, and press the {F1} (MEAS) key. Collimate A MLM-1(A-B, A-C) Horizontal distance (HD) between the instrument...
  • Page 65 6 SPECIAL MODE (Menu Mode) The horizontal distance (dHD) and relative MLM-1(A-B, A-C) elevation (dVD) between prism A and C. dHD : 234.567 m dVD : 23.456 m ––– ––– ––– To measure the distance between points A and D, repeat procedure 12 to14.

  • Page 66: Setting Z Coordinate Of Occupied Point

    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.
  • Page 67 6 SPECIAL MODE (Menu Mode) 2) Z Coordinate Calculation from Known Point Measuring Data [Example setting] Using coordinate data file Operating procedure Operation Display After pressing {MENU} key, press {F4} (P ) key to ↓ {MENU} MENU get the menu on page 2. {F4} F1:MEMORY MGR.
  • Page 68 6 SPECIAL MODE (Menu Mode) HR: 120°30'40" 12.345 m 23.456 m NEXT ––– ––– CALC Press the {F4} (CALC) key.*2) {F4} Z COORD. SETTING Z : Z coordinate 1.234 m dZ: Standard deviation dZ : 0.002 m ––– ––– Press the {F4} (SET) key. *3) {F4} BACKSIGHT Z coordinate of the occupied point will be set.

  • Page 69: Area Calculation

    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  • Area is not calculated correctly if enclosed lines cross each other.
  • Page 70 6 SPECIAL MODE (Menu Mode) When 3 or more points are set, the area AREA 0021 surrounded by the points is calculated and the 123.456 m.sq result will be shown. NEXT# :DATA-22 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.
  • Page 71 6 SPECIAL MODE (Menu Mode) When 3 or more points are measured, the area AREA 0003 surrounded by the points is calculated and the 234.567 m.sq result will be shown. MEAS ––– UNIT NP/P *1) Measurement is Fine N-times measurement mode. ...

  • Page 72: Point To Line Measurement

    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.
  • Page 73 6 SPECIAL MODE (Menu Mode) Collimate prism P1 (Origin) and press {F1} Collimate POINT TO LINE (MEAS) key. MEAS.P1 Measuring starts. *1) {F1} HD*[n] << m >Measuring... Input display of reflector B(P2) height will be REFLECTOR HEIGHT shown. INPUT R.HT= 0.000 m --- --- [CLR] [ENT] Enter reflector B(P2) height.

  • Page 74: Setting The Grid Factor

    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"...

  • Page 75: Setting Illumination Of Display And Cross Hairs

    6 SPECIAL MODE (Menu Mode) Press the {F3} (YES) key. {F3} GRID FACTOR ELEV.=1000 m SCALE:0.999000 --- --- [CLR] [ENT] Enter Elevation. *1) Press the {F4} (ENT) key. Enter ELEV. {F4} Enter Scale Factor in the same way. Enter Scale GRID FACTOR {F4} ELEV.:2000 m...

  • Page 76: Setting Mode 1

    1. Setting Minimum Reading 2. Auto Power off 3. Vertical and Horizontal Angle Tilt Correction (Tilt ON/OFF) 4. Systematic Error of Instrument Correction (ES-62/65) 5. Setting for RS-232C communication 6. Selecting Communication Port (Only for built-in Bluetooth model) 7. Confirming the Bluetooth Device Address and Setting the PIN code (Only for built-in Bluetooth model) ...

  • Page 77: Auto Power Off

    6 SPECIAL MODE (Menu Mode) Press the {F1} key and press the {F4} (ENTER) {F1} MINIMUM READING key. {F4} F1:ANGLE F2:COARSE  To return to previous mode, press the {ESC} key. 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”...

  • Page 78: Vertical And Horizontal Angle Tilt Correction (Tilt On/Off)

    6 SPECIAL MODE (Menu Mode) 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.
  • Page 79 6 SPECIAL MODE (Menu Mode) Press the {F1} key. {F1} ERROR CORR. [OFF] The data previously set is shown. F1:ON F2:OFF ENTER Press the {F1} (ON) key or {F2} (OFF) key, and {F1} press the {F4} (ENTER) key. {F2} {F4} 6-21...

  • Page 80: Setting Rs-232C Communication With External Device

    6 SPECIAL MODE (Menu Mode) 6.4.5 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 Selecting items Baud rate 1200, 2400, 4800, 9600, 19200, 38400 Character bit/Parity 7/Even, 7/Odd, 8/None Stop bit...

  • Page 81: Selecting Communication Port

    6 SPECIAL MODE (Menu Mode) 6.4.6 Selecting Communication Port You can change the communication port to BLUETOOTH port (option). Sample setting Bluetooth Operating procedure Operation Display After pressing the {MENU} key, press the {F4} {MENU} MENU ) key twice to get the menu on page 3. ↓...

  • Page 82: Confirming The Bluetooth Device Address And Setting The Pin Code

    6 SPECIAL MODE (Menu Mode) 6.4.7 Confirming the Bluetooth Device Address and Setting the PIN code (Only for built-in Bluetooth model) You can confirm the Bluetooth address and set the PIN code Operating procedure Operation Display After pressing the {MENU} key, press the {F4} {MENU} MENU ) key twice to get the menu on page 3.

  • Page 83: Setting Contrast Of Display

    6 SPECIAL MODE (Menu Mode) 6.5 Setting Contrast of Display Setting level for contrast of display (LCD) Operating procedure Operation Display After pressing the {MENU} key, press the {F4} {MENU} MENU ) key three times to get the menu on page 3. ↓...

  • Page 84: Road

    6 SPECIAL MODE (Menu Mode) 6.6 ROAD  Road menu operation PROGRAMS 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 F1:START POINT N > 0.000 F2:H ALIGNMENT 0.000 INPUT ---...

  • Page 85: Input Start Point

    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 Display After pressing the {MENU} key, press the {F4} {MENU} PROGRAMS ), {F2}, {F4} key to get the programs menu on ↓...

  • Page 86: Input Road Data

    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 Display After pressing the {MENU} key, press the {F4} (P ↓...
  • Page 87 6 SPECIAL MODE (Menu Mode)  Input CURVE data Operating procedure Operation Display F1:LINE F2:CURVE F3:SPIRAL F4:POINT To input CURVE data, press the {F2} key. *1) {F2} CURVE 0.000 0.000 --- --- [CLR] [ENT] Input RADIUS. Input CURVE Press the {ENT} key. RADIUS 100.000 m {ENT}...
  • Page 88 6 SPECIAL MODE (Menu Mode)  Input SPIRAL data Operating procedure Operation Display F1:LINE F2:CURVE F3:SPIRAL F4:POINT To input SPIRAL data, press the {F3} key. *1) {F3} SPIRAL 0.000 m 0.000 m --- --- [CLR] [ENT] Input RADIUS. Input SPIRAL Press the {ENT} key.
  • Page 89 6 SPECIAL MODE (Menu Mode)  Input POINT data Operating procedure Operation Display F1:LINE F2:CURVE F3:SPIRAL F4:POINT To input POINT data, press the {F4} key. {F4} POINT 0.000 m 0.000 m --- --- [CLR] [ENT] Input N coord. Input POINT Press the {ENT} key.

  • Page 90: Search Data

    6 SPECIAL MODE (Menu Mode) 6.6.3 Search Data To search for input data, carry out the following operating procedure. Operating procedure Operation Display After pressing the {MENU} key, press the {F4} (P ↓ {MENU} PROGRAMS {F2}, {F4}key to get the programs menu on page 2/ {F4} F1:AREA {F2}...

  • Page 91: Set Occ And Bs

    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 Display After pressing the {MENU} key, press the {F4} (P ↓ {MENU} PROGRAMS {F2}, {F4}key to get the programs menu on page 2/ {F4} F1:AREA...
  • Page 92 6 SPECIAL MODE (Menu Mode) Collimate the backsight. Collimate BACKSIGHT Backsight H(B)= 45°00’00” >Sight? [YES][NO] Press the {F3} (YES) key. {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).

  • Page 93: Setout Road

    6 SPECIAL MODE (Menu Mode) 6.6.6 Setout Road To setout the road, carry out the following operating procedure. Operating procedure Operation Display After pressing the {MENU} key, press the {F4} (P ↓ {MENU} PROGRAMS {F2}, {F4}key to get the programs menu on page 2/ {F4} F1:AREA {F2}...

  • Page 94: Select A File

    6 SPECIAL MODE (Menu Mode) Press the {F3} (NEZ) key. {F3} 70.000 m The coordinate data is shown. 50.000 m MODE NP/P NEXT Press the {F4} (NEXT) key to set next layout point. {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.

  • Page 95: Data Collection

    7 DATA COLLECTION DATA COLLECTION The ES is 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.  Measured data The collected data is memorized into a files. ...
  • Page 96 7 DATA COLLECTION  Data collect menu operation By pressing the {MENU} key, the instrument will be in MENU 1/3 mode. Press the {F2} (DATA COLLECT) key, the menu of data collect 1/2 will be shown. Normal measurement mode {ESC} {MENU} MENU F1:TOP FIELD...

  • Page 97: Preparation

    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.

  • Page 98: Selecting A Coordinate File For Data Collection

    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...

  • Page 99: Occupied Point And Backsight Point

    7 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.
  • Page 100 7 DATA COLLECTION  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 Display Press the {F2} (BACKSIGHT) key from the data →...

  • Page 101: Operational Procedure Of Data Collect

    :PT-01 PCODE → R.HT 0.000 m INPUT SRCH MEAS ALL Enter PCODE, R.HT in the same way. *2),3) → PT-01 {F1} Enter PCODE :TOPCON PCODE R.HT 1.200 m {F4} INPUT SRCH MEAS ALL {F1} ↓ Press the {F3} (MEAS) key.

  • Page 102: Searching The Recorded Data

    PCODE =32 R.HT 1.200 m [ALP][SPC][CLR][ENT] Enter a register number linked with PCODE library Enter No :PT-02 and press the {F4} (ENT) key. {F4} PCODE :TOPCON (Example) → R.HT 1.200 m Register number, 32 = TOPCON INPUT SRCH MEAS ALL...

  • Page 103: Entering Pcode / Id From The List Of Pcode

    EDIT ––– CLR ENTER By pressing the following keys, the register 031:PCODE31 } or { number will increase or decrease. → 032:TOPCON } or { } or { }: Increasing or Decreasing one by one 033:HILTOP } or { }: By ten Increasing or Decreasing. *1) EDIT –––...

  • Page 104: Data Collect Offset Measurement Mode

    To set this option, refer to Chapter 17 “SELECTING MODE”. Instrument height Occ.Point Operating procedure Operation Display →PT-11 PCODE :TOPCON R.HT 1.200 m INPUT SRCH MEAS ALL Press the {F3} (MEAS) key and press the {F4}key →PT-11 {F3} to get to the next soft key page.
  • Page 105 } key, N,E and Z –12.345 m coordinate are shown in sequence. >OK? [YES][NO] Press the {F3} (YES) key. → PT-12 {F3} PCODE :TOPCON R.HT 1.200 m The data is recorded and the next measuring point INPUT SRCH MEAS ALL is displayed. 7-11...

  • Page 106: Distance Offset Measurement

    When measuring coordinates of point A Set the instrument height only. (Set the prism height to 0). Operating procedure Operation Display →PT-11 PCODE :TOPCON R.HT 1.200 m INPUT SRCH MEAS ALL Press the {F3} (MEAS) key and press the {F4}key →PT-11 {F3} to get to the next soft key page.
  • Page 107 7 DATA COLLECTION Enter Forward direction offset value. *1) Enter HD :PT-11 {F4} PCODE : TOPCON R.HT 1.200 m ––– *SD NP/P Collimate the prism. Collimate P Press the {F2} or {F3} key. {F3} N*[n] <<< m Example:{F3} (NEZ) key Measuring starts.

  • Page 108: Plane Offset Measurement

    Edge Target heights of P1 to P3 is set to zero automatically. Operating procedure Operation Display →PT-11 PCODE :TOPCON R.HT 1.200 m INPUT SRCH MEAS ALL Press the {F3} (MEAS) key and press the {F4}key →PT-11 {F3} to get to the next soft key page.
  • Page 109 NP/P --- The display changes to PT# input in the plane PLANE offset measurement. → PT-11 Input point number if necessary. PCODE :TOPCON INPUT SRCH --- MEAS Press the {F4} (MEAS) key. {F4} 80°30'40" The instrument calculates and displays coordinate 54.321 m...

  • Page 110: Column Offset Measurement

    The direction angle of the center of the column is 1/2 of total direction angle of circumscription points (P2) and (P3). Example: Non-prism measurement Operating procedure Operation Display →PT-11 PCODE :TOPCON R.HT 1.200 m INPUT SRCH MEAS ALL Press the {F3} (MEAS) key and press the {F4}key →PT-11 {F3} to get to the next soft key page.

  • Page 111: Nez Auto Calculation

    Press the {F3} (YES) key. The display returns to → PT-12 {F3} the next point number in data collect mode. PCODE :TOPCON R.HT 1.200 m INPUT SRCH MEAS ALL 7.4 NEZ Auto Calculation As measured data is collected, coordinates are calculated and stored for traverse or topo collection.

  • Page 112: Point To Line Measurement

    OCC.PT Offset 7.5.1 To change to the point to line measurement Operating procedure Operation Display →PT-01 PCODE :TOPCON R.HT 1.500 m INPUT SRCH MEAS ALL Press the {F3} (MEAS) key and press the {F4}key →PT-01 {F3} to get to the next soft key page.

  • Page 113: Executing A Point To Line Measurement

    Display PT#PTL→PT-01 Conduct data measurement according to the same procedure as with ordinary FS/SS (ALL can also be PCODE :TOPCON selected). However, when you conduct observation in R.HT 1.500 m the angle mode, PTL data will not be displayed (only...

  • Page 114: Editing Pcode Library [Pcode Input]

    F1:SELECT A FILE F2:PCODE INPUT ↓ F3:CONFIG. Press the {F2} (PCODE INPUT) key from Data {F2} Collect menu 2/2. → 001:TOPCON 002:TOKYO EDIT ––– ––– By pressing the following keys, the list will 011:URAH } or { increase or decrease.

  • Page 115: Setting Parameter Of Data Collect [Config.]

    7 DATA COLLECTION 7.7 Setting Parameter of Data Collect [CONFIG.] In this mode, the following settings of data collect mode are possible.  Setting Items Menu Selecting Item Contents Select Fine /Coarse(1) /Coarse(10) mode in distance measurement mode. The unit to be displayed is as follows. FINE / CRS(1) / F1:DIST MODE CRS(10)

  • Page 116: Layout

    8 LAYOUT 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 keyboard. The coordinate data is loaded from PC to the internal memory via RS-232C.
  • Page 117 8 LAYOUT  Layout menu operation By pressing the {MENU} key, the instrument will be in MENU 1/4 mode. Press the {F3} (LAYOUT) key, the menu of layout 1/2 will be shown. Normal measurement mode {ESC} {MENU} MENU F1:TOP FIELD F2:DATA COLLECT ↓...

  • Page 118: Preparation

    8 LAYOUT 8.1 Preparation 8.1.1 Setting the GRID FACTOR  Calculation Formula 1) Elevation Factor : The average radius of the earth Elevation Factor = R+ELEV. ELEV. : The elevation above mean sea level 2) Scale Factor Scale Factor : Scale Factor at the surveying station 3) Grid Factor ×...

  • Page 119: Selecting Coordinate Data File

    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.  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”.

  • Page 120: Setting Occupied Point

    8 LAYOUT 8.1.3 Setting Occupied Point 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 of coordinate data.  Example setting: Setting the occupied point from the internal coordinate data file Operating procedure Operation Display...
  • Page 121 8 LAYOUT  Example setting: Setting Instrument point coordinates directly Operating procedure Operation Display Press the {F1} (OCC.PT INPUT) key from the {F1} OCC.PT Layout menu 1/2. PT#: INPUT LIST NEZ ENTER Press the {F3} (NEZ) key. {F3} N→ 0.000 m 0.000 m 0.000 m INPUT --- PT# ENTER...

  • Page 122: Setting Backsight Point

    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. ...
  • Page 123 8 LAYOUT  Example setting: Setting the backsight point coordinates directly Operating procedure Operation Display Press the {F2} (BACKSIGHT) key from the Layout {F2} BACKSIGHT menu 1/2. PT#: The previous data is shown. INPUT LIST NE/AZ ENT Press the {F3} (NE/AZ) key. {F3} N→...

  • Page 124: Executing A Layout

    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...
  • Page 125 8 LAYOUT When the display value dHR, dHD and dZ are equal to 0, the layout point is established.*3) Press the {F2} (NEZ) key. {F2} 100.000 m The coordinate data is shown. 100.000 m 1.015 m MODE ANGLE NP/P NEXT Press the {F4} (NEXT) key to set next layout point.

  • Page 126: Layout Of Coordinates Of Point To Line

    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.

  • Page 127: Setting A New Point

    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...
  • Page 128 8 LAYOUT Press the {F4} (ENTER) key. {F4} SIDE SHOT The file will be set. PT#: INPUT SRCH ––– ENTER Press the {F1} (INPUT) key, and enter the new {F1} REFLECTOR HEIGHT point name. *4) Enter PT# INPUT Press the {F4} (ENT) key. {F4} R.HT 0.000 m...

  • Page 129: Resection Method

    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. •...
  • Page 130 8 LAYOUT Enter instrument height in the same way. Enter NO01# INS.HT PT#: {F4} INPUT LIST NEZ ENTER Enter the known point A number. *3) {F1} REFLECTOR HEIGHT Enter PT# INPUT {F4} R.HT 0.000 m --- --- [CLR] [ENT] Enter reflector height. Enter R.HT REFLECTOR HEIGHT {F4}...
  • Page 131 8 LAYOUT Press the {F4} (CALC) key. *6) {F4} Standard Deviation Standard Deviation will be shown. 1.23 sec. Unit: (sec.) or (mGON) or (mMIL) ↓ ––– ––– Press the {F2} ( ) key. ↓ {F2} SD(n) : 1.23 mm Standard Deviations of each coordinate will be SD(e) : 1.23 mm shown.
  • Page 132 [Example: Executing Layout Mode] Operating procedure Operation Display LAYOUT PT#: INPUT LIST NEZ ENTER While executing the LAYOUT mode, press the {F2} [TOPCON {F2} (LIST) key. → DATA-01 → The arrow( ) indicates selected data. DATA-02 VIEW SRCH ––– ENTER...

  • Page 133: Memory Manager Mode

    9 MEMORY MANAGER MODE 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.

  • Page 134: Display Internal Memory Status

    9 MEMORY MANAGER MODE 9.1 Display Internal Memory Status This mode is used to check the internal memory status. Operating procedure Operation Display Press the {F3} (MEMORY MGR.) key from the {F3} MEMORY MGR. menu 1/3. F1:FILE STATUS F2:SEARCH ↓ F3:FILE MAINTAN P Press the {F1} (FILE STATUS) key.

  • Page 135: Searching Data

    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. First data search Last data search Point number search (MEAS.DATA, COORD.DATA) Number search (PCODE LIB.)
  • Page 136 9 MEMORY MANAGER MODE Press the {F4} ( ) key to scroll data for selected ↓ {F4}  TOP-104 point.  PCODE  R.HT 1.200 m ↓ EDIT  Refer to Section 2.6 "How to enter alphanumeric characters". *2) To show the file list, press the {F2} (LIST) key. ...

  • Page 137: Coordinate Data Searching

    9 MEMORY MANAGER MODE 9.2.2 Coordinate Data Searching Example searching: Point number searching Operating procedure Operation Display Press the {F3} (MEMORY MGR.) key from the {F3} MEMORY MGR. menu 1/3. F1:FILE STATUS F2:SEARCH ↓ F3:FILE MAINTAN Press the {F2} (SEARCH) key. {F2} SEARCH F1:MEAS.

  • Page 138: Pcode Library Searching

    9 MEMORY MANAGER MODE 9.2.3 PCODE LIBRARY Searching Example searching: Number searching Operating procedure Operation Display Press the {F3} (MEMORY MGR.) key from the {F3} MEMORY MGR. menu 1/3. F1:FILE STATUS F2:SEARCH ↓ F3:FILE MAINTAN Press the {F2} (SEARCH) key. {F2} SEARCH F1:MEAS.

  • Page 139: File Maintenance

    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  FILE MAINTAN. menu MEMORY MGR. F1:FILE STATUS F2:SEARCH ↓ F3:FILE MAINTAN. P {ESC} {F3} @AMIDAT...

  • Page 140: Rename A File

    9 MEMORY MANAGER MODE 9.3.1 Rename a File An existing file in internal memory can be renamed. Operating procedure Operation Display Press the {F3} (FILE MAINTAN.) key from the {F3} Memory manager menu 1/3. →MEASD1 /M0123 COORD1 /C0056 SRCH ––– Select a file by pressing { } or { } key.

  • Page 141: Deleting A File

    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 Display Press the {F3} (FILE MAINTAN.) key from the {F3} Memory manager menu 1/3. →MEASD1 /M0123 COORD1...

  • Page 142: Coordinate Data Direct Key Input

    {F4} PCODE:_________ INPUT LIST ––– ENTER Enter PCODE and press the {F4} (ENTER). {F1} COORD. DATA INPUT Enter PCODE PT#:TOPCON-102 Next input display is shown, point number (PT#) is {F4} automatically incremented. INPUT ––– ––– ENTER  Refer to Section 2.4 “How to Enter Alphanumeric Characters”.

  • Page 143: Ptl (Point To Line) Data Input

    INPUT LIST ––– ENTER E: Elevation Enter PCODE, FROM and TO data and press the {F1} COORD. DATA INPUT {F4} (ENTER).*2) Enter PCODE PT#:TOPCON-102 {F4} Next input display is shown, point number (PT#) is INPUT ––– ––– ENTER automatically incremented. ...

  • Page 144: Delete A Coordinate Data From A File

    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 Press the {F3} (MEMORY MGR.) key from the {F3} MEMORY MGR. menu 1/3. F1:FILE STATUS F2:SEARCH ↓...

  • Page 145: Editing Pcode Library

    ↓ {F4} MEMORY MGR. F1:COORD. INPUT F2:DELETE COORD. ↓ F3:PCODE INPUT Press the {F3} (PCODE INPUT) key. {F3} →001:TOPCON 002:TOKYO EDIT ––– ––– By pressing the following keys, the list will 011:URAH } or { increase or decrease. → 012:AMIDAT...

  • Page 146: Data Communications

    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...
  • Page 147 9 MEMORY MANAGER MODE Press the {F3} (YES) key.*5) {F3} SEND MEAS. DATA The sending starts. The display will return to menu. < Sending Data!> STOP *1) Only for built-in Bluetooth model  Refer to Section 2.4 “How to Enter Alphanumeric Characters”. *3) To scroll the data, press the { } or { } key.

  • Page 148: Loading Data

    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 (from PC) Operating procedure Operation Display Press the {F3} (MEMORY MGR.) key from the {F3} MEMORY MGR.

  • Page 149: Setting Parameter Of Data Communications

    9 MEMORY MANAGER MODE 9.7.3 Setting Parameter of Data Communications  Items of the Parameter Item Selecting Item Contents Setting Protocol [ACK/NAK], F1: Protocol [ONE WAY] [ACK/NAK] or [ONE WAY] communication Setting transfer speed 1200, 2400, 4800, F2: Baud rate 9600, 19200, 38400 1200/2400/4800/9600/19200/38400 baud Setting data length and parity.

  • Page 150: Confirming The Parameters For Bluetooth Communication

    9 MEMORY MANAGER MODE Press the {F4} (ENTER) key. {F4} COMM. PARAMETERS 1/2 F1:PROTOCOL F2:BAUD RATE ↓ F3:CHAR./PARITY *1) Only for built-in Bluetooth model *2) To cancel setting, press the {ESC} key. 9.7.4 Confirming the parameters for Bluetooth communication (Only for built-in Bluetooth model) The communication parameters for the Bluetooth are fixed as follows.

  • Page 151: Initialization

    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 ...

  • Page 152: Set Audio Mode

    10 SET AUDIO MODE SET AUDIO MODE The light acceptance quantity level for the EDM (SIGNAL), the atmospheric correction value (PPM), and prism constant correction value of each target 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.

  • Page 153: Setting The Prism Constant Value

    11 SETTING THE PRISM CONSTANT VALUE SETTING THE PRISM CONSTANT VALUE The prism constant value of Topcon is set to zero. When using prisms other than Topcon’s, it is necessary to set the prism constant correction value of that specific prism.

  • Page 154: Setting Atmospheric Correction

    12 SETTING ATMOSPHERIC CORRECTION SETTING ATMOSPHERIC CORRECTION The velocity of the light beam used for measurement varies according atmospheric conditions such as temperature and air pressure. Set the atmospheric correction factor when you wish to take this influence into account when measuring. The ES is designed so that the correction factor is 0 ppm at an air pressure of 1013 hPa, a temperature of 15°C, and a humidity of 50%.

  • Page 155: Setting Of Atmospheric Correction Value

    12 SETTING ATMOSPHERIC CORRECTION 12.2 Setting of Atmospheric Correction Value  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 Display HR: 120°30'40" 123.456 m Press the {F4} key to get the soft key page 2 in the 5.678 m...
  • Page 156 12 SETTING ATMOSPHERIC CORRECTION  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 Display HR: 120°30'40" HD* 123.456 m Press the {F4} key to get the soft key page 2 in the 5.678 m {F4}...

  • Page 157: Correction For Refraction And Earth Curvature

    13 CORRECTION FOR REFRACTION AND EARTH CURVATURE 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.

  • Page 158: Power Source And Charging

    14 POWER SOURCE AND CHARGING POWER SOURCE AND CHARGING 14.1 Battery Charging Be sure to charge the battery fully before using it for the first time or after not using it for long periods.  • The charger will become rather hot during use. This is normal. •...

  • Page 159: Installing/Removing The Battery

    14 POWER SOURCE AND CHARGING 14.2 Installing/Removing the Battery Mount the charged battery.  • Use the provided battery BDC46C/BDC70 (optional accessory) for this instrument. • The Battery BDC46C should be inserted to the battery adapter SB178 before mounting it to the instrument.
  • Page 160 14 POWER SOURCE AND CHARGING Insert the battery with the arrow shown on it downward while pressing toward the instrument.  • Inserting the battery aslant may damage the instrument or the battery terminal. Close the cover. Listen for the click to ensure that the cover is properly closed.

  • Page 161: Using Usb Flash Drive

    15 USING USB FLASH DRIVE USING USB FLASH DRIVE It is possible to read in/output data from/to a USB flash drive. • When using a USB flash drive, data is stored in the root directory. You cannot read/write data from/ to subdirectories.

  • Page 162: Detach/Attach Of Tribrach

    16 DETACH/ATTACH OF TRIBRACH 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.  Detachment Loosen the tribrach locking lever, by revolving it 180° or 200gon in the counterclockwise direction (which will point the triangle mark upwards).

  • Page 163: Selecting Mode

    17 SELECTING MODE SELECTING MODE 17.1 Items of the Selecting Mode The following modes are available. Menu Items Selecting item Display TEMP. & °C / °F Select the unit of temperature for atmospheric UNIT SET PRES. hPa / mmHg /inHg correction.
  • Page 164 When the instrument is turned ON, the screen to request the password will appear. *2 *1 Applicable only to the instruments with security function *2 If you forget a password, the instrument needs repair to cancel the password. Please contact Topcon or your local Topcon dealer. 17-2...

  • Page 165: How To Set Selecting Mode

    17 SELECTING MODE 17.2 How to Set Selecting Mode <Example>: Setting unit in hPa, °F, NEZ MEMORY:ON Operating procedure Operation Display After pressing the {MENU} key, press the {F4} {MENU} MENU ) key twice to get the menu on page 3. ↓...
  • Page 166 17 SELECTING MODE Press {F1} key. {F1} NEZ MEMORY [OFF] [ON] [OFF] ––– ENTER Press {F1} (ON) key, and press {F4} (ENTER) {F1} OTHERS SET key. {F4} F1:NEZ MEMORY Returns to OTHERS SET menu. F2:REC TYPE ↓ F3:CR,LF 17-4...

  • Page 167: Checks And Adjustments

    18 CHECKS AND ADJUSTMENTS CHECKS AND ADJUSTMENTS A ES is a precision instrument that requires fine adjustments. It must be inspected and adjusted before use so that it always performs accurate measurements. • Always perform checking and adjustment in the proper sequence beginning from Section 18.1 “Circular Level”...

  • Page 168: Adjustment Of Vertical Angle 0 Datum

    18 CHECKS AND ADJUSTMENTS 18.2 Adjustment 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°...

  • Page 169: Adjustment Of Compensation Systematic Error Of Instrument

    18 CHECKS AND ADJUSTMENTS 18.3 Adjustment of Compensation Systematic Error of Instrument 1 Vertical axis error 2 Collimation axis error 3 Vertical angle 0 datum error Correction constants for the above errors are calculated and stored in the instrument by the following procedure, and then measurement values are corrected using the stored constants.
  • Page 170 18 CHECKS AND ADJUSTMENTS  To show the constant list of systematic error of ADJUSTMENT MODE instrument F1:V ANGLE 0 POINT F2:V0 AXIS ↓ Press the {F3} key from Adjustment Mode menu {F3} V0 AXIS 1/2. F1:MEASUREMENT F2:CONSTANT LIST Press the {F2} key. {F2} VCo: 1°57'12"...

  • Page 171: Reticle

    18 CHECKS AND ADJUSTMENTS 18.4 Reticle  Check 1: Perpendicularity of the reticle to the horizontal axis 1) Carefully level the instrument. 2) Align a clearly visible target (the edge of a roof for example) on point A of the reticle line. 3) Use the telescope fine motion screw to align the target to point B on a vertical line.

  • Page 172: Optical Plummet

    18 CHECKS AND ADJUSTMENTS 5) Do the calculations: A2-A1 and B2+B1 If A2-A1 is within 180°±20″and B2(B1 is within 360°±40″, adjustment is unnecessary. Example: A2-A1 (Horizontal angle) =198° 34' 20"- 18° 34' 00" =180° 00' 20" B2-B1 (Vertical angle) =269° 30' 00" + 90° 30' 20" =360°...

  • Page 173: Additive Distance Constant

    18 CHECKS AND ADJUSTMENTS 5) When the survey point is on the lower (upper) part of the 1 (2) illustration: 1. Loosen the upper (lower) screw slightly. 2. Tighten the lower (upper) screw by the same amount. 2 (1) 6) If the survey point is on the solid line (dotted line): 3.

  • Page 174: Checking And Adjusting Of Laser Plummet

    18 CHECKS AND ADJUSTMENTS 3) Place the ES at point C directly between points A and B and set up the reflective prism at point A. 4) Precisely measure the horizontal distances CA and CB 10 times each and calculate the average value for each distance.
  • Page 175 18 CHECKS AND ADJUSTMENTS 4) Turn the upper part of the instrument horizontally through 180° and note the new position (y) of the laser beam. Adjustment will bring the laser beam to a point midway along a line drawn between these two positions. Desired final position 5) Check the position of the desired final position.
  • Page 176 18 CHECKS AND ADJUSTMENTS  • Tightening each of the fine adjustment screws moves the laser plummet beam in the directions shown below. Tighten "Up" screw Tighten "Right" Tighten "Left" screw Right Left screw Tighten "Down" screw Down Laser plummet adjustment cap Fine adjustment screws pointing towards user 18-10...

  • Page 177: Top Field Mode

    19 TOP FIELD MODE TOP FIELD MODE 19.1 MAIN MENU (Major Functions) MENU 1.JOB [ 1.JOB••• {F1} {F1} F1:TOP FIELD 2.SETTING Performs process F2:DATA COLLECT 3.GO TO WORK related to JOB ↓ ↓ F3:LAYOUT management 2.SETTING••• {F2} Configures setting for distance unit and mode {F4} 3.GO TO WORK•••...
  • Page 178 19 TOP FIELD MODE 19.2.2To Select Existing Job Operating procedure Operation Display Select {F1} (TOP FIELD) from the menu. {MENU} 1.JOB [ {F1} 2.SETTING 3.GO TO WORK ↓ Select {F1} (JOB). {F1} 1.OPEN JOB FILE 2.CREATE NEW JOB 3.NO JOB FILE ↓...

  • Page 179: To Select Existing Job

    19 TOP FIELD MODE Select an existing job name with {F1} or {F2} Enter/ SELECT JOB TO DEL (Arrow) key, or enter a job name. Select job [JOB1_ name ↑ ↓ Press {ENT} key. {ENT} SELECT JOB TO DEL [JOB1_ >OK ? [YES][NO] Pressing {F3} (YES) key will delete the job file.

  • Page 180: Go To Work

    19 TOP FIELD MODE Select {F1} to {F3} to set the unit of distance. Select 1.N,E,Z {F1} ~ {F3} 2.E,N,Z {F1} (US FEET-10THE): Display in feet 3.X,Y,Z {F2} (US FEET-INCHES): Display in feet and inches {F3} (METERS): Display in meters Select {F1} to {F3} to set the display sequence of Select 1.FINE...
  • Page 181 19 TOP FIELD MODE Select {F1} (SELECT INST PT). {F1} ENTER INST PT PT#: ↑ ↓ Select an existing coordinate point with {F1} or Enter/ ENTER INST PT {F2} (Arrow) key, or directly enter a coordinate Select PT# PT#: [OCC-PT point.
  • Page 182 19 TOP FIELD MODE Enter occupied point coordinates (N, E, Z). Enter occu- N [0.000 pied point E [0.000 coordinate Z [0.000 Set with {ENT} key. {ENT} ENTER INST HT INST HT =0.000_ Enter an instrument height. Enter ENTER INST HT instrument INST HT height...
  • Page 183 19 TOP FIELD MODE Enter a reflector height. Enter ENTER TARGET HT reflector HT OF ROD height =1.500_ Set with {ENT} key. {ENT} ENTER TARGET PT# 1/2 PT#: ↑ ↓ Select the coordinate point of a collimate point Enter/ ENTER TARGET PT# 1/2 with {F1} or {F2} (Arrow) key, or enter the Select PT# PT#:...
  • Page 184 19 TOP FIELD MODE Set with {ENT} key. {ENT} POINT X SET! ORIENTATION SET! When you press {F1} (OK), an occupied point and {F1} 1.INST SETUP backsight will be set and the procedure will be 2.LAYOUT completed. 3.TOPO  The backsight is set up based on the previously collimated prism position.
  • Page 185 19 TOP FIELD MODE  Setting from existing coordinate data Operating procedure Operation Display  When the occupied point setting is completed, 1.SELECT BS PT this menu screen will be displayed. 2.CREATE BS PT 3.BS DIRECTION Select {F1} (SELECT BS PT). {F1} ENTER BS POINT PT#:...
  • Page 186 19 TOP FIELD MODE  Setting by entering the coordinate data of a collimate point directly Operating procedure Operation Display  After the occupied point setting is completed, 1.SELECT BS PT this menu will be displayed. 2.CREATE BS PT 3.BS DIRECTION Select {F2} (CREATE BS PT).
  • Page 187 19 TOP FIELD MODE  Using an existing horizontal angle and saving the coordinate data of the collimate point Operating procedure Operation Display  After the occupied point setting is completed, 1.SELECT BS PT this menu will be displayed. 2.CREATE BS PT 3.BS DIRECTION Select {F2} (CREATE BS PT).
  • Page 188 19 TOP FIELD MODE Select {F3} (BS DIRECTION). {F3} ENTER BS ANGLE BS AN[_ DDD.MMSS 0SET Enter a backsight directly. Enter ENTER BS ANGLE Pressing {F1} (0SET) will enter 0. backsight BS AN[0.0000_ DDD.MMSS 0SET Set with {ENT} key. {ENT} SIGHT BS TARGET >OK ? [YES][NO]...

  • Page 189: To Layout

    19 TOP FIELD MODE 19.4.2To Layout Operating procedure Operation Display 1.INST SETUP 2.LAYOUT 3.TOPO Select {F2} (LAYOUT). {F2} ENTER TARGET HT HT OF ROD =0.000_ Enter a reflector height. Enter ENTER TARGET HT reflector HT OF ROD height =1.500_ Set with {ENT} key. {ENT} ENTER LAYOUT POINT# PT#:...

  • Page 190: To Conduct Ordinary Measurement And To Record Coordinates

    19 TOP FIELD MODE Pressing {F2} (NEZ) key will display coordinate {F2} 1.250 m data. 2.500 m Line 1: N coordinate (E coordinate) 0.010 m Line 2: E coordinate (N coordinate) NEXT Line 3: Z coordinate  Pressing {F2} (dHA) will return to the angle difference display.
  • Page 191 19 TOP FIELD MODE Pressing {F2} (SD) key will switch the distance {F2} 60°00'00" display to the SD display. 120°00'00" 11.547 m Pressing {F3} (NEZ) key will switch to the {F3} -5.000 m coordinate display. 8.660 m 5.774 m Pressing {F3} (A/D) key will switch to the {F3} 60°00'00"...

  • Page 192: Data Manager

    19 TOP FIELD MODE 19.5 DATA MANAGER The following operations can be performed with DATA MANAGER. ••••••ADD POINT 1) Adding coordinate data ••••••DELETE POINT 2) Deleting coordinate data ••••••VIEW POINT 3) Viewing coordinate data ••••••EDIT POINT 4) Editing coordinate data ••••••DATA TRANSFER 5) Transferring coordinate data 4.DATA MANAGER...
  • Page 193 19 TOP FIELD MODE Enter N/E/Z coordinates. Enter NEZ N [0.000 Coordinate E [0.000 Data Z [0.000_ Set with {ENT} key. {ENT} PT#: [P01 The coordinate point and the job name will be STORED! displayed and the procedure will be completed. [JOB1 1.COORDINATES 2.REFLINE...
  • Page 194 19 TOP FIELD MODE Acquire coordinate data for Reference "REF2" in Enter/ ENTER REF2 the same manner. Select PT# PT#: [P02_ DESC: ↑ ↓ {ENT} ENTER DISTANCE Enter the distance (DISTANCE) from reference Enter ENTER DISTANCE "REF1" to the direction of "REF2". DISTANCE = 10.000_ Set with {ENT} key.
  • Page 195 19 TOP FIELD MODE  The calculated value will be displayed for the {ENT} PT#: [P03 coordinate data. Set with {ENT} key. STORED! [JOB 1 1.COORDINATES 2.REFLINE 3.TAPE  TAPE END PT# OFFSET ADD POINT START PT# Operating procedure Operation Display 1.COORDINATES 2.REFLINE...

  • Page 196: To Delete Coordinate Data

    19 TOP FIELD MODE Enter the horizontal distance (OFFSET) from Enter ENTER FROM END PT# "END" point. OFFSET, To select directions, press {F1} (LEFT) to move to {F1} or = 5.000_ the left and {F2} (RIGHT) to the right. {F2} LEFT RIGHT Set with {ENT} key.

  • Page 197: To View Coordinate Data

    19 TOP FIELD MODE Select a coordinate point to delete with {F1} or Enter/ ENTER PT TO DEL {F2} (Arrow) key, or enter a coordinate point Select PT# PT#: [P01_ directly. DESC: ↑ ↓ Set with {ENT} key. {ENT} ENTER PT TO DEL PT#: [P01 DESC:...

  • Page 198: To Edit Coordinate Data

    19 TOP FIELD MODE 19.5.4To Edit Coordinate Data Operating procedure Operation Display  Only entered coordinate data (design data) can 4.EDIT POINT be edited. 5.DATA TRANSFER ↑ Select {F1} (EDIT POINT). {F1} DESIGN PT PT#: [P01 DESC: [POINT ↑ ↓ EDIT Select a coordinate point to edit with {F1} or {F2} {F1} or...

  • Page 199: To Transfer Coordinate Data

    19 TOP FIELD MODE 19.5.5To Transfer Coordinate Data Operating procedure Operation Display 4.EDIT POINT 5.DATA TRANSFER ↑ Select {F2} (DATA TRANSFER). {F2} DATA TRANSFER Data transfer corresponds to the following two F1:GTS FORMAT types of transmission formats: F2:SSS FORMAT F1: GTS FORMAT F2: SSS FORMAT ...
  • Page 200 19 TOP FIELD MODE  Receiving coordinate data Operating procedure Operation Display DATA TRANSFER F1:GTS FORMAT F2:SSS FORMAT Select the transmission format used for receiving {F1} DATA TRANSFER data. F1:SEND DATA {F2} F2:LOAD DATA F1: GTS FORMAT F3:COMM. PARAMETERS F2: SSS FORMAT Select {F2} (LOAD DATA).

  • Page 201: Precautions

    13) Even if any abnormality occurs, never attempt to disassemble or lubricate the instrument yourself. Always consult with TOPCON or your dealer. 14) To remove the dust on the case, never use thinner or benzine. Use a clean cloth moistened with neutral detergent.

  • Page 202: Special Accessories

    21 SPECIAL ACCESSORIES SPECIAL ACCESSORIES The following are optional accessories which are sold separately from the ES.  Target and power supply optional accessories: see Section 22 “BATTERY SYSTEM”. and 23 “PRISM SYSTEM”.  Plumb bob The plumb bob can be used to set up and center the instrument on days when there is little wind.
  • Page 203 21 SPECIAL ACCESSORIES  Carrying case (SC249T) & Carrying strap This is a carrying case and strap set. Attach the strap to the carrying case to shoulder the case.  Interface cable Connect between the ES and the host computer for data output. Cable Notes DOC210...

  • Page 204: Battery System

    22 BATTERY SYSTEM BATTERY SYSTEM Operate your ES with the following combinations of power equipment.  • Be sure to carefully read the operating manuals for the battery and charger before operating. • Never use any combination other than those indicated below. If you do, the ES could be damaged. •...

  • Page 205: Prism System

    23 PRISM SYSTEM PRISM SYSTEM Arrangement according to your needs is possible. Target pole-2 Prism-2 Tilting prism holder-2 Tilting prism Single prism with target plate-2 holder-3 holder-2 Plug-4 Tribrach Tribrach adaptor-S2 adaptor-2 Pole adaptor- A Pole adaptor- F2 Tribrach TR-102/103 Optical plummet tribrach TR-112 Tilt single prism unit Tripod...

  • Page 206: Error Displays

    24 ERROR DISPLAYS ERROR DISPLAYS The following is a list of the error messages displayed by the instrument and the meaning of each message.  • There is a possibility that an unexpected error occasionally occurs when using an old battery. In such a case, exchange it for a new battery, and please check the operation of the instrument.
  • Page 207 24 ERROR DISPLAYS FULL When making a file, 30 files already exist. If necessary, send or delete files. FILES Initializing can not be done successful. Confirm initializing data and try to initialize FAILED INITIALIZE again. LIMIT Limit of input data exceeded. Input again.

  • Page 208: Regulations

    25 REGULATIONS REGULATIONS Region/ Directives/ Labels/Declarations Country Regulations FCC Compliance U.S.A. FCC-Class A WARNING: Changes or modifications to this unit not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment. Note: This equipment has been tested and found to comply with the limits for a Class A digital device pursuant to Part 15 of the FCC Rules.
  • Page 209 25 REGULATIONS Region/ Directives/ Labels/Declarations Country Regulations California and Recycling NY, U.S.A. Batteries Canada ICES-Class A This Class A digital apparatus meets all requirements of Canadian Interference-Causing Equipment Regulations. Cet appareil numérique de la Class A respecte toutes les exigences du Réglement sur le matériel brouilleur du Canada.
  • Page 210 Name: TOPCON CORPORATION Address: 75-1, Hasunuma-cho, Itabashi-ku, Tokyo, 174-8580 JAPAN Europe Representative and Importer Name: Topcon Europe Positioning B.V. Address: Essebaan 11, 2908 LJ Capelle a/d IJssel, The Netherlands  WEEE Directive WEEE Directive This symbol is applicable to EU members states only.

  • Page 211: Specifications

    Minimum focus: 1.3m Focussing screw: 1 speed Reticle illumination: 5 brightness levels Angle measurement Horizontal and Vertical circles type: Rotary absolute encoder Detecting ES-62: 2 sides ES-65: 1 side Angle units: Degree/Gon/Mil (selectable) Minimum display: 1" (0.0002gon/0.01mil)/5" (0.0010gon/0.1mil) (selectable) Accuracy: ES-62: 2"...
  • Page 212 26 SPECIFICATIONS Reflectorless (White) 0.3 to 350m (1,140ft) 0.3 to 200m (650ft) Reflectorless (Gray) 0.3 to 220m (720ft) 0.3 to 100m (320ft) Minimum display: Fine/Rapid measurement: 0.001m (0.005ft / 1/8inch) Tracking measurement: 0.01m (0.02ft / 1inch) Maximum slope Prism/ reflective sheet: 7,680m (25,190ft) distance display: Reflectorless: 350m (1,140ft) Distance unit:...
  • Page 213 26 SPECIFICATIONS *4,*5: When performing reflectorless measurement, the possible measurement range and precision will change depending on the target reflection factor, weather conditions and location conditions. Face the prism toward the instrument during the measurement with the distance at 10 m or less. At the time of the tracking measurement.
  • Page 214 Weight: about 170g General Display unit: LCD graphic display, 192 dots X 80 dots ES-62: 1 LCD graphic display on each face with illuminator ES-65: 1 LCD graphic display with illuminator Operation panel (keyboard): 25 keys (soft function, operations, power on, light) with...

  • Page 215: Appendix

    APPENDIX Target for Laser plummet adjustment T arget for Laser plummet adjustment T arget for Laser plummet adjustment T arget for Laser plummet adjustment T arget for Laser plummet adjustment T arget for Laser plummet adjustment T arget for Laser plummet adjustment T arget for Laser plummet adjustment T arget for Laser plummet adjustment APPENDIX-1...
  • Page 216 Please see the attached address list or the following website for contact addresses. GLOBAL GATEWAY http://global.topcon.com/ ©2016 TOPCON CORPORATION ALL RIGHTS RESERVED...

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