Date post: | 16-Apr-2015 |
Category: |
Documents |
Upload: | bob-eubanks |
View: | 523 times |
Download: | 0 times |
/ S f T O P C O I \ INSTRUCTION MANUAL
ELECTRONIC TOTAL STATION
GTS-210 SERIESl §4(=(c3 —3»"GTS-211D
gecavi/rf) 7/z/f& GTS-212GTS-213
ForewordThank you for purchasing the TOPCON Electronic Total Station, GTS-210
For the best perform ance o f the instrum ents, please care fu lly read
instructions and keep them in a convenient location for future reference.
series
these
GENERAL HANDLING PRECAUTIONS
Do not submerge the instrum ent into water.The instrument ca r not be sub-merged underwater.The instrument is designed based on the International Standard (IP Code) IPX 6, therefore it is protected ; rom the normal shower or rainfall.
Setting the instrum ent on a tripodWhen mounting the instrument on a tripod, use a wooden tripod when possible.The vibrations that may occur when using a metallic tri pod can effect the measuring precision.
Installing the tribrachIf the tr brac.h 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 instrum ent against shocksWhen transporting the instrument, provide some protection to m inim ize risk of shocks. Heavy shocks may cause the measurement to be faulty.
Carrying the instrum entAlw ays carry the instrument by ts handgrip.
Exposing the instrum ent to extrem e heat.Do not leave the instrument in extreme heat for longer than necessary. It cou d adversely affect its performance.
Sudden changes of temperatureAny sudden change of temperature to the instrum ent or prism may result in a red jction of measuring distance range, i.e when taking the instrument out from a heated vehicle. Let instrument acclimate itself to ambient temperature.
Battery level checkConfirm battery leve remaining before operating
DISPLAY FOR SAFE USEIn order to enco jrage the safe use of products and prevent any danger to the operator and others or damage to properties, important warnings are put on tne products and inser.ed in the instruction manuals.We suggest that everyone understand the meaning of the following displays and icons before reading the "Safety Cautions” and text.____________________________________________________________________
Disp ay Meaning
A w a r n in gIgnoring or disregard of this display may lead to the danger of death or seriousinjury.
A c a u t io nIgnori ng or disregard of this display may lead to personal injury or physical damage.
• Injury refers to hurt, burn, electric shock, etc.• Physical damage refers to extensive damage to buildings or equipments and
furniture.
SAFETY CAUTIONS
A WARNING• Aiming the instrument directly into the sun can result in serious damage to your eye
Do not aim the instrument directly into the sun.
• GTS-210 series is not explosion proof.Avoid usi ng in an area tnat produces explosive gases.
A CAUTION• There is a ris< o f leakage and electr c shock if you take out or insert the power plug or cable
w ith w et hands.Avoid when hands are wet.
• There is a risk o f hurt if the unit come down by less tighten condition of tripod screw Tight firm ly when you are going to set up the unit to the tripod
• There is a risk o f hurt by overturn the carrying case.Do not ride on the carrying case
The user o f this product is expected to follow all operating instructions and make periodic checks of the procuct's performance The manufacturer or its representatives assumes no responsibility for results of misuse including any direct, indirect, consequential damage, and loss o f profits
CONTENTS
1 N O M E N C L A T U R E A N D F U N C T IO N S .................................................................... 1-11.1 Nomenclature .................................................................................................................... 1-11.2 Display .................................................................................................................................. 1-31.3 Operating Key ................................................................................................................... 1-41.4 Function Key (Soft Key) ............................................................................................... i-415 Serial Signal RS-232C Connector ........................................................................... 1-6
2 P R E P A R A T IO N FO R M E A S U R E M E N T .................................................................... 2-12.1 Setting Instrument up for Measurement ...................................................... 2-12.2 POWER Switch Key ON ............................................................................................... 2-22.3 Battery Power Remaining Display ...................................................................... 2-32.4 Vertical and Horizontal Angle Tilt Correction ............................................ 2-42.5 H ow to Enter Alphanumeric characters ........................................................ 2-6
3 A N G L E M E A S U R E M E N T ..................................................................................................... 3-13.1 Measuring Horizontal Angle Right and Vertical Angle ..................... 3-13.2 Switching Horizontal Angle Right/Left ........................................................... 3-2
3.3 Measuring from the Required Horizontal Angle ....................... ..3-23.3.1 Setting by Holding the Angle ................................................................ 3-23.3.2 Setting a Horizontal Angle from the Keys .................................... 3-3
3.4 Vertical Angle Percent Grade(%) Mode ....................................... , , ............. 3-33.5 Repetition Angle Measurement .......................................................................... 3-43.6 Buzzer Sounding for Hor zontal Angle 9(T Increments ....................... 3-53.7 Compasses ( Vertical Angle) ......................................... ....................................... 3-6
4 D IS T A N C E M E A S U R E M E N T ............................................................................................ 4-14.1 Setting of the Atmospheric Correction ........................................................... 4-14.2 Setting of the Correction for Prism Constant .............................................. 4-14.3 Distance Measurement (Continuous Measurement) ............................ 4-14.4 Distance Measurement
(N-time M easurem ent/Single P/leasurement) ............................................ 4-24.5 Fine Mode/Tracking Mode/Coarse Mode ...................................................... 4-34.6 Stake Out (S O) ................................................................................................................. 4-44.7 Offset Measurement Mode ..................................................................................... 4-5
5 C O O R D IN A T E M E A S U R E M E N T ................................................................................ 5-15.1 Setting Coordinate Values of Occupied Point ............................................ 5-15.2 Setting Height of the Instrument ................................................................ 5-25.3 Setting Height o f Target (Prism Height) ................ ..................................... 5-25.4 Execution of Coordinate Measuring ................................................................. 5-3
6 S P E C IA L M O D E (M e n u M o d e ) ................................................................................... 6-16.1 Applicat on Measurement ....................................................................................... 6-2
6 1.1 Remote Elevation measurement (REM) ...................................... 6-26 .1 2 Missing Line Measurement (MLVI) ...................................................... 6-5
• Howto use coord nate data ................................................................ 6 76.1.3 Setting Z Coordinate of Occupied Point .......................................... 6 8
1) Setting occupied coordinate ........................................................... 6-82) Z Coordinate Calculation from Known Point
Measuring Data .............................................. .............. ......................... 6*96.1.4 Area Calculation ............................................................................................ 6-11
1) Area Calculation from Coordinate Data File ....................... 6-112) Area Calculation from Measured Data .................................... 6-12* To change tne display unit .............................................................. 6-13
6.1.5 Point to Line Measurement ................................................................... 6-146.2 Setting the GRID FACTOR ..................................................................................... 6-166.3 Settmg Illumination of Display a"id Cross Hairs .................................... 6-176.4 Setting Mode 1 .............................................................................................................. 6-18
6 .4 .' Setting Minimum Reading .......... ....................................................... g ig6.4.2 Auto Power Off ............................................................................................... 6-196.4.3 Vertical and Horizontal Angle Tilt correction (T ilt ON/OFF) 6-19
6.5 Setting Contrast o f Display ........................................................................ .... &-207 D A T A C O L L E C T IO N (Only for GTS-211D/212) ........................................................ 7-1
7.1 Preparation ............................................................................... ........................................ 7.37.1 1 Se ecting a File for Data Collect on ....................................................... 7-37.1.2 Selecting a Coordinate File for Data Collection .......................... 7-47.1.3 Occupied Point and Backs ght Point ................................................. 7-4
7.2 Operational Procedure of “ DATA COLLECT" ............................................... 7-7• Searching the recorded data ............................................................................. 7-8• Entering PCODE/ID using PCODE Lib'ary ................................................. 7-9• Entering PCODE/ID from the list of PCODE ............................................... 7-9
7.3 Data Collect • Offset Measurement mode ............................ .................... 7-107.3.1 Angle Offset Measurement ................................................................... 7-107 .3.2 Distance Offset Measurement ............................................................ 7-12
7.4 Conversion Meas. Data File into Coord. Data File [CONV.TONEZJ 7-147.5 N EZAutoCalculation ............................................................................................... 7-147.6 Editing PCODE Jfcrary [PCODE INPUT) ......................................................... 7-157.7 Setting Parameter of Data Collect [CONFIG.] ......................................... 7-16
8 L A Y O U T ....................................................................................................................................... 8-18.1 Preparation ........................................................................................................................ 8-3
8.1.1 Setting the GRID FACTOR ........................................................................ 8-38.1.2 Selecting Coordinate Data File .............................................................. 8-48.1.3 Setting Occupied Point ................................................................................ 8-58.1.4 Setting Backsight Point ................................................................................ 8-7
8.2 Executing a Layout ......................................................................................................... 8-9• Point Guide Function (Only for Point Guide type) .......................... 8-11
8.3 Setting a New Point .................................................................................................... 8-128.3.1 Side Shot Method .......................................................................................... 8-128.3.2 Resection Method ....................................................................................... 8-14• V iew ing PT# LIST .................................................................................................... 8-18
9 M E M O R Y M A N A G E R M O D E ......................................................................................... 9-19.1 Display Internal Memory Status .......................................................................... 9-29.2 Searching Data ................................................................................................................. 9-3
9.2.1 Measured Data Searching ........................................................................ 9-3• To edit the measured data in seaching mode ....................................... 9-49.2.2 Coordinate Data Searching ...................................................................... 9-59.2 .3 PCODE LIBRARY Searching ......................................................................... 9-6
9.3 FILE MAINTENANCE ....................................................................................................... 9-79.3.1 Rename a File .................................................................................................... 9-89.3.2 Searching Data in a Fiie ............................................ ............................. .. 9-89.3.3 Deleting a File .................................................................................................... 9-9
9.4 Coordinate Data Direct Key Input ................................................................... 9-109.5 Delete a Coordinate Data from a F ie ........................................................... 9-119.6 Editing PCODE Library ............................................................................................... 9 129.7 Data Communications ............................................................................................... 9-13
9.7.1 Sending Data ............................................................. ......................... ............ 9-139.7.2 Loading Data .................................................................................................... 9-149.7.3 Setting Parameter of Data Communications ............................. 9-15
9.8 In itialization .................................................................................................................. 9-161 0 S E T A U D IO M O D E ................................................................................................................. 10-111 S E T T IN G T H E P R IS M C O N S T A N T V A L U E ........................................................ 11-112 S E T T IN G A T M O S P H E R IC C O R R E C T IO N ........................................................... 12-1
12.1 Calculation of Atmospheric Correction ......................................................... 12-112.2 Setting o f Atmospheric Correction Value .................................................... 12-2
1 3 C O R R E C T IO N FO R R E F R A C T IO N A N D E A R T H C U R V A T U R E . . 13-113.1 Distance Ca cu laton Formula ............................................................................. 13-1
1 4 P O W E R S O U R C E A N D C H A R G IN G ....................................................................... 14-115 D E T A C H /A T T A C H O F T R IB R A C H .......................................................................... 15-116 S E L E C T IN G M O D E ................................................................................................................. 16-1
1 o. 1 Items of the Selecting Mode ................................................................................ 16-1
6-207-17-37-37-47-47-77-87-97-9
7-107*107-127-147-147-157-168-18 3 8-3 8-4 8-5 8-78-9
3-11 3-12 3-1*' 33-189-19-29-39-39-49-59-69-79-89-89-9
MOM l M 2 M 3 M 3 )-14 M 5 1-160-11-12-12-12-23-13-1i
5-16-16-1
16.2 How to Set Selecting Mode ................................................................................ 16-217 CHECK AND A D JU STM EN T .......................................................................... 17-1
17.1 Cnecking and Adjusting of Instrument Constant .................................. 17-117.2 Checking the Optical Axis ....................................................................................... 17-217.3 Cnecking/Adjusting the Theodolite Functions ....................................... 17-3
17.3.1 Checking/Adjusting the Plate Level ................................................. 17-417.3.2 Checking/Adjusting the Circular Level ......................................... 17-417.3 3 Adjustment of the Vertical Cross-hair ............................................ 17-517.3.4 Collim ationof the Instrument .............................................................. i 7-617.3.5 Checking/Adjusting the Optical Plummet Telescope . . . . 17-717.3.6 Adjustment of Vertical Angle 0 Datum ......................................... 17-8
17.4 How to Set the Instrument Constant Value ............................................... 17-918 PRECAUTIONS ..................................................................................................... 18-119 SPECIAL A C C ESSO R IES .................................................................................... 19-120 PRISM SYSTEM ................................................................................................... 20-121 ERROR D IS P LA Y S ................................................................................................ 21-122 SPECIFICATIONS ................................................................................................ 22-1APPENDIX1 Dual A xis Compensation ............................................................................... ap p en d ix -12 Precaution when Charging or Storing Batteries ................ APPENDIX-3
STANDARD SET COMPOSITION1. GTS-210 series (w ith lens cap) ............................................................. le a ch2. Battery BT-32Q .............................................................................................. le a c h3. Battery charyer BC-19B or BC-19C ...................................................... le a ch4. Tool kit w ith case [ rod pins, screwdriver, cleaning brush] . . 1 set5. Plastic carrying case .................................................................................... le a ch6 . Silicon cloth ..................................................................................................... 1 each7. Plastic rain cover .......................................................................................... le a ch8 . Instruction manual ...................................................................................... le a ch
(Wake s jre that all of the above items are w ith the instrument when purchased.)
Remarks: 1. Battery charger BC-19C is forAC 230V use and BC-19B is forAC 120V use.
2. Plumb bob set and plumb bobhook are supplied fo r certainmarkets.
3 2 B atte rie s are supplied forcertain markets.
NOMENCLATURE AND FUNCTIONS
1. NOMENCLATURE AND FUNCTIONS1.1 Nom enclature
Objective lens Instrument center mark
Horizontal
Display unit
( GTS-211D only)
Horizontal motion clampOptical plummet telescope
Circular level adjusting screw
Tribrach fixing lever
Carrying handle
Sighting collimator
Carrying handle
1-1
1. NOMENCLATURE AND FUNCTIONS
& 1) The position of ve 'lica l motion clamp and Vertical tangent screw w ill differ aepending on the market.
2) The position of connector(St?rial signal RS-232Q for GTS 212/213 w iII differ depend! ng on the market.
1-2
C iS 1. NOMENCLATURf AND FUNCTIONS
ig leve r
T-23Q
1.2 DisplayDisplayThe display uses a dot matrix LCD which has 4 lines and 20 characters per line. In general, the upper three lines d splay m easjred data,and the bottom line displays the so ftkey function which changes w ith the measuring mode.Contrast and IlluminationThe contrast and illum ination of display w indow are ad justec. Refer to Chapter 6 ."SPECIAL MODE (Menu IVlode)“ .Example
Angle measurement mode
V-angleH-angle
9D°10'20"120°30,40“
Distance measurement mode
Horizontal-angle Horizontal distance Relative elevation
120#30'40“ 65.432m 12 345m
"iter
?vel
Feet unit
HR: 12 0°30 '4 0" HD* 123 .45 f t VD: 12 .34 f t MEAS MODE S/A P I I
feet anc inch unit
HR: 120°30 , 40"HD* 123. 0 4 .6 f 1VD: 1 2 . 03 . 4 f iMEAS MODE S/A P I 4
Horizontal-angle : 120r'30'40' Horizontal distance : 123.45ft Relative elevation 12.34ft
Horizontal-angle Horizontal distance Relative e leva I ion
120*30*40' 123ft 4in 6/8in 12ft 3in 4/Sin
• Display marks
•S-211P)•32C)
Display Contents Display Contents
V V-angle * EDM working
H R H-angle right m Meter unit
H L H-angle left ft. Feet unit
HD Horizontal distance fi Feet and inch unit
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
( £ ) @ >
C ^ T ) ( esc )1 1 1 1 T PO W ER
C E D C E D C e D ( E D (akg)
Keys Name of key Function
k . Coordinatemeas.key
Coordinate measurement, mode
A\ Distance meas.key Distance measurement mode.
ANG Angle meas.key Angle measurement mode
MENU Menu key Switches menu mode and normal mode. To$et cpplktftion measurementsand adjust in the menu mode.
ESC Escape key • Returning to the measurement mode or previous layer mode from the mode set.• To be DATA COLLECTION mode or LAYOUT mode directly "rom the normal measurement mode.
POWER 3o w e ' source key ON/OFF of power source
F1-F4 Soft key( Function key)
Responds to the message displayed.
1.4 Function Key (Soft Key)
The Soft Key message is displayed at the bottom line of display. Tne functions are according to the displayed message.
Angle measurement mode Distance measurement mode
V : HR:
9 0 °1 0 ’ 20” 120°30 * 40"
OSET HOLD HSET P I l
T IL T RFP V% P 2 \
H-BZ R/L CMPS P 3 1
{F I] [F2] 1F3] (F4) V.______________ ______________ J
Soft keys
5K (F2](REP) key is only for GTS-211D
HR: 120°30140”H D *[r] < ( m VD: mMEA$ MQDt S/A P I | ~~ OFSET S .O m / f/ i P2 i
Coordinates measurement mode
N; 123 456 mE : 34 567 m2 : 78 912 m
MLAS MODE S/A p nR.HT INSHT OCC P2 I
O F S E T ----m /f/ i P 3 j
1 4
1. NOMENCLATURE AND FUNCTIONS
Angle m easurem ent mode
Page Softkey
Displaymark Function
1 F1 OSET Angle of Hor zontal is set to 0000’00’’F2 HOLD Hold the horizontal angleF3 HSET Sots a required horizontal angle by entering numerals.F4 p i 4 The function of soft keys is shown on next page (P2).
2 F1 TILT Setting T ilt Correct onIf ON, the display shows tilt correction value.
F2 RE? Repetition angle measurement mode This function is only for GTS-211DF3 V% Vertical angle percent. grade(%) modeF4 P21 The function of soft keys is shown on next page (P3).
3 F 1 H-BZ Sets the buzzer sound for every horizontal angle 90°F 2 R/L Switches R/L rotation of horizontal angleF3 CMPS Switches the COMPASS OM/OFFof vertical angleF4 P31 The function of soft keys is shown on next page (P1).
Distance m easurem ent mode
f- 1 FI ME AS Start measuringF2 MODE Sets a measuring mode, Fme/Coarse/TrackmgF3 S/A Select set audio modeF4 P H The function of soft keys is shown on next page (P?)
2 F1 OFSET Select Off set measurement modeF2 S O Select stake out measurement modeF3 m/f/i Switches meter, feet or feet and inch unit.F4 P 2 | The function or soft keys is shown on next page (P1).
Coordinate m easurem ent mode1 F1 ME AS Start measuring
F2 MODE Sets a measuring mode,Fine/Coarse/TrackingF3 S/A Select set audio modeF4 P U The function of soft keys is shown on next page (P2).
2 F1 R.HT Sets a prism height by input values.F2 INSHT Sets an instrument height bv input values,F3 OCC Sets an instrument coordinate point by input values.F4 P2 i The function of soft keys issh o w ro n next page (P3).
3 FI OFSET Select Off-set measurement modeF3 m/f/i Switches meter, feet or feet and inch unit.F4 P3J, The 1 unction o f soft keys is shown on next page (P1).
1-5
1. NOMENCLATURE AND FUNCTIONS
1.5 Serial signal RS-232C connectorThe $enal signal connector is used for connecting the GT5-210 series w ith a computer or IOPCON Data Collector, which enables the computer 10 receive measured data from the GTS-210 series or to send preset date of horizontal angle, etc. to it.
T he following data will be output at each mode
Mode
Angle mode ( V ,H Ror H L )(V in percent)
Horizontal distance mode (HR, HD, VD)
Slope distance mode (V , HR.SD)
Coordinate mode
• The display and the output at the coarse mode are the same as the contents above.• Output at the tracking mode is d splayed as distance data only.
The details necessary -for the connection w ith the GTS-210 Series are obtained from interface M arua l which is optionally available Please refer to the manual.
its
m m
. . . . . . . . . •• ■ '■■/ ■ <• 1 .v '
INC .MS PREPARATION FOR MEASUREMENT
nputer or from the
i,%
ove
x..from its
PREPARATION FOR MEASUREMENT
2.1 Setting Instrum ent Up For MeasurementMount the instrument to the tripod. Level and center the instrument precisely to insure the best performance. Use tripods w ith a tripoa screw of 5/8 in. diameter and * 1 threads per inch, such as the Type E TOPCON wide- frame wooden tripod.
Reference: Leveling and Centering the Instrument
1. Setting up the TripodFirst, extend the exiension legs to su itab le leng ths and t ig h te n the sc rew s on th e ir midsections.
2. A ttach ing the Instrum ent on the Tripod Head
Place the instrument care fu lly on the triood head and slide the instrument by loosening the tripod screw. If the plumb bob is positioned right over the center of the point, s lig h tly tighten the tripod screw.
3. Roughly Leveling the Instrum ent by Using the Circular Level
<D
i A vfS
& Turn the leveling screw C to bring the bubbl e to th e center of the circular ievel.
C Centering by Using the Plate LevelW R d ta te the instrum ent h o rizo n ta lly by
wing the Horizontal motion/damo screw and place the plate level parallel w ith the Nr* 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.
i eveling screw B
© Rotate the instrument 90° (100g) around its ve rtica l ax is and t u n th e re m a in in g leveling screw or C to center the bubble
‘ Le ve tn g K te w C
Turn the leveling screws A and B to move the bubble in (he 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
Leveling screw C
Repeat the procedures 0 and <2 for each 90“ (10Og) rotation of the instrument and check w h e th er the bubble is co rrectly centered for all four points.
5. Centering by Using the Optical Plum m et Telescope
Adjust the eyepiece o f 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 Ibe tripod screw. Sliding the instrument carefully not to rotate that allows you to get the least dislocation of the bubble.
Po ntCente- m ark
6. Completely Leveling the InstrumentLeveling the instrument precisely in a sim ilar way to 4 Rotate the instrument and check to see that the bubble is in the center oT the plate level regardless of telescope d irection , then tighten the tripod screw hard
2-1
2. PREPARATION FOR MEASUREMENT
2.2 POWER Switch Key ON
<D Turn the power switch ON.Display in itializes for two seconds and shows ZERO SET , current prism constant value (PSM) and atmospheric correction value (P P M ). Th.S allows you to confirm the prism constant value to be used
0 Rotate the telescope to set the instrument at vertical angle reading of 0°
Power switch key ON
Battery Power Remaining Display
Contrast adjustment
Confirm the battery power remaining display Rotate the telescope.
Confirm the battery power remaining display Replace w ith charged battery or charge when battery level is low or indicates "Battery empty". Refer to Chapter 2.3 "Battery Power Remaining Display” .W hen you set the horizontal angle 0° (Horizontal angle 0° detection in the selecting mode). Set the horizontal 0 °setting by rotating the instrument.Contrast adjustm entThis enables you to adjust the brigntness by pressing the [F1 ]( J , ) or (F2]( f ) key To mem orize the se ttirg value after powering off, press IF4J(ENTER) key
Note : For setting the vertical angle at 0V, an electronic datum 0 is Drovided on the vertical angle circle If the telescope is turned and the sensor passes the datum 0, angle measurement begins.The datum 0 is placed near t fe level position of the telescope, the vertical angle setting of 0 can easily be set by rotating the telescope.
stant value n the prism
■g Display
■r cha'ge "Battery
.electing
3s
r
2.3 Battery Pow er Remaining DisplayBattery power remaining disp ay indicates the power condition.
v o s 1C T T U R N
: Omm P P M : 0f ------ E N T E R
Battery power remaining display
2. PREPARATION FOR MEASUREMENT
Measurement if. possible.
\ / The power is poor. The battery / | \ should be recharged or replaced.
Blinking
i( Battery empty } Measurement is impossible
Other displays disaopeor. Need to recharce or replace the battery.
The batte ry opera ting tim e w ill vary depending on the environm ental conditions such as ambient temperature, charging time, the number of t mes 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 cond tion indicated by the batl.ery power remaining display in the angle measurement mode does not necessarily assjre the battery’s ab ility to be used in the distance measurement mode.It may happen that the mode change from the angle mode to the distance mode w ill stop the operation because of insufficient battery power for the distance mode which consumes more power than angle mode.Note that '.he EDM unit is working w hen "V-OSET" and the battery power remaining display shown at the power ON, which shows as an easy battery check before use.
2-3
2 PREPARATION FOR MEASUREMENT
2.4 Vertical and Horizontal Angle T ilt Correction(GTS-212/213 have vertical angle correction only)
When the tilt sensors are activated, automatic correction of vertical and horizontal angle for m islevelment is displa/ed.
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
ZenithS tand ing ax is_
| i In c lination o f th e standing a x is in the V d irection
Trun ion ax is
GTS-212 and 213 compensate only the vertical angle reading due to inclination of the stancing axis in the Xd irection .GTS-211D compensates both the vertical angle and the horizontal angle readings due to inclination o f the standing axis in the X and Y directions .
For more inform ation about dual axis compensation, refer to APPENDIX 1 "Dual Axis Com pensation".
Standing A xiv in the X d irectio n out Stand ing A x is in th e '< d irection out o f range of range
stand ing A x is in the X and Y d irections out of range
GTS-212/213V : 1 M
HR: 120*30 ’ 40”
<X T IL T OVER >
To set auto tilt correction from the moment that power is on, refer to chapter 6 4.3" Vertical and Horizontal Angle Tilt correction ( Tilt ON/OFF)'*.The display of Vertical or Horizontal angle is unstable when instrument is on an unstable stage or a w indy day. You can turn off the auto tilt correction function of V/H angle in thiscase.
2 PREPARATION FOR MEASUREMENTAr 'EM ENT
• Setting T ilt Correction by Soft KeyTo enable you to se le c . tilt ON/OFF function, setting is not memorized after power is OFF [Example) Setting X .Y Tilt OFF:>rizontal angle
O p era ting procedure O peration D isp lay
he display can
the instrument Press [F4] key to get the function page 2
of the standing Y dirflrtion T IL T SENSOR:
X : - 0 ° 0 0 '25 "Y : 0 ° 0 0 '20" X-ON XY-ON OFF
Press (F1](TILT) keyIn case ON is already selected, the display shows tilt correction value.
runionaxis
T IL T SENSORP'ess [F3]<OFF> key.
• The setting mode performed here will not be memorized after powering OFF. To set TILT correction in the initialized setting ( it is memor zed after powering OFF) refer to Chapter 6 .4 .3 “ Vertical and Horizontal Angle Tilt correction ( T ill ON/OFF)".
OVER )
the X a n d Y o f range
Ktion of V/H
2. PREPARATION FOR MEASUREMENT
.5 How to Enter Alphanum eric charactersThis enables you to enter alphanumeric characters such as the instrument height, prism height, occupied point, backsight point etc..
• H ow to select a item
(Example setting] Occupied point in the data col lection mode.
The arrow indicates a item to enter.
The arrow line moves up or down when the [ T | key or |▲ ) key is pressed.
!▼ I or IA ]
• How to enter characters
0 Move the arrow to enter a item using the I A ] or | T ] key
<2) Press the [F I ](INPUT) keyThe arrow changes to the equal (= ) .
Tne characters are displayed on the bottom line,
(3) Press the I A | or [▼ ) key to select a page.
C4; Press the soft key to select a group of characters.
Example: [F2](QRST) key is pressed
[FI] [F2] [F3] [F4]
P T# ID : IN S .H T : 0 .000 m
(Q) (R ) (5 ) (T )
\S‘ VJENT
height, prism
2 PREPARATION FOR MEASUREMENT
m
•S' Press soft key to select a character.
Example: [F4](T) key is pressed.
Select next character in the same manner.
© Press (F4|(ENT) Key.The arrow moves to next item.
To correct a character, move the cursor to correct character by pressing (^ ] o r l^ J key and enter again.
3 AN G .E MEASUREMENT
ANGLE MEASUREMENT
3.1 M easuring Horizontal Angle RightMake sure the mode is in Angle measurement.
O p era ting procedure
(j> Collim ate the 1st target (A).
■2; Set horizontal angle of target A at 0J 00' 00 " .
Press [F1](Q set) key and press [F3](YES) key.
<3> Collim ate the 2nd target (G).The required V/H angle to target B w ill be displayed
Reference
H ow to Collim ateCD Point the telescope toward the light. Turn the diopter ring and adjust the diopter so that
the cross hairs are dearly observed.(Tu rr the diopter ring toward you first and then backward to focus.)
® Aim the target at the peak of the triangle mark o f the sighting collimator. A llow a certain space between the sighting collimator and yourself for collimating.
<%> Focus the target w ith the focusing knob.
If parallax s created between the cross hairs and the target when viewi ng vertically or horizontally w hile looking into the telescope, focusi ng is i ncorrect or diopter adjustm ent is poor. This adversely affects precision in measurement or survey Elim inate the parallax by carefully focusing and using diopter adjustment.
, .-v s-: •
iuit.
If ^ E M E 'J T 3 ANGLE MEASUREMENT
E S ] [NO]
SET P I
SET P I •
)ter so that
<v a certain
(D io p te r ring)
3.2 Sw itch ing Horizontal Angle Right/LeftMake sure the mode is A-igle measu'ement
O perating procedure
d> Press [F4]( )key tw ice to gel the function on page 3.
2 Press (F2KR/L) keyThe mode Horizontal angle Right (HR) switches to (HL) mode
3 Measure as HL mode
O peration
IF4]twice
IF2]
D isp lay
V : HR:
90 °1 0 '2 0 " 120°30140"
OSET HOLD HSET P I 4T IL T REP V°/o P2 4H-BZ R/L CMPS P3 4
V : HL:
9 0 °1 0 '2 0 " 239°29 ’ 20"
H-BZ R/L CMPS P3 4
• Every time pressing [F2](R/L) key, HR/HL mode switches.
3.3 M easuring from the Required Horizontal Angle Setting by Holding the Angle
M ake sure the mode is a rg le measurement
33 .1
O p era tin g procedure
S«t the required horizontal angle, using Horizontal tangent screw
Pre«lF2](HOLD) key.
3 Colli mate the target.
^ Press (F3XYES) key :o finish holding the horizontal angle % 1)The display turns back to normal angle measurement mode.
Operation
D isp lay a ’ig le
[F2]
C o llim a te
(F3]
D isp lay
V : 9 0 °1 0 '20"HR: 130°40 ’ 20"
OSET HOLD HSET P I i
H ANGl.F HOI D HR= 130°40 ’ 20"
> SET ?...................... [Y E S ] [NO]
V : 9 0 °1 0 '20"HR: 130°40 '2 0 ”
OSET HOLD HSET P I 1
M 1) To return to t'ne previous mode, press lF4j(NO) key
3 - 2
3 ANGLE MEASUREMENT
m
3.3.2 Setting a Horizontal Angle from the Keys
Make sure the node is in Angle measurement.
O p era ting procedure
■3) Collimate the target.
Z Press |F3](H5ET) key.
<3> Input the required horizontal angle by using keys. 1)For example :70“40'20"
W hen co m p leted , norm al m easuring from the required Horizontal angle s possible.
O peration
Collimate
IF3]
[FI ] 70.4020
[F4|
D isp lay
V : 90 °1 0 '2 0 "HR: 170°30 '20 "
OSET HOLD HSET P I \
H ANGLE SET HR:
IN P U T ENTER
1234 5678 9 0 .- [EN T j
V : HR:
9 0 °1 0 '20" 7 0 °4 0 ’ 20”
OSET HOLD HSET P I \
>K1) Refer to Chapter 2.5 "H ow to Enter Alphanumeric characters'’
3.4 Vertical Angle Percent Grade(% ) ModeMake sure the mode is Angle measurement
3 -3
O pera ting procedure O peration D isp lay
CD Press [F4]( key to get the function on page 2.
2> Press IF3](V% ) key. * 1)
[F4]
[F3]
V : 9 0 °1 0 '2 0 "HR: 170°30 '20"
OSET HOLD HSET P I iR lL T REP VX P2i
V : -0 .3 0 %HR: 170*30 ’ 20"
T IL T REP V% P2i
% 1) Every tim e pressing the IF3](V% ) key, the display mode switches.• When the measurement is carried out over ± 45'1 (± 100%) from the horizontal, the
display shows ( OVER ) ,
3.
<D
3 l
i C
<*
■ s chP
6 ftd
■■i. I ti-::
® *
• . cl
w . If
0 *«a
£■-
;•
V v \• To
i t ’ SUREMENT 3 ANGLE MEASUREMENT
2 0 "
2 0 "
HSET P I i
---- ENTER
3 .- [EN T]
!0 " !0 "
ri"
SET P l i% P 2 i
%ii
I P 2 i
sontal, the
3.5 Repetition Angle Measurement (Only fo r GTS-211D)Make sore the mode is Angle measurement
o p e ra tin g procedure
<D Press (F4]( J , ) key to get the function on page 2.
$ Press [F2](REP)key.
9 Press [F3KYES) key
♦ Collim ate the target A . and press [F1] (05ET) key
9 C o ll im a te th e ta rg e t B u s in g th e horizontal clamp and tangeni screw.Press [F4|(HOLD) key
• Wecdlimate target A using the horizontal d a m p and tangen t sc re w , and press Cn](REL)key
lU xo llim ate target B using the horizontal ' d a m p and tangen t sc rew , and press
tH KH O LD ) key
M 8#peat © to ® to m easure the desired num ber of repetitions.
% To return to the norm a angle mode, p re ttth e (F2](V/H) key or (ESC) key.
Operation
(F4)
[F2]
[F3J
Collirridtv A
[F I]
Collim ate B (F4J
Keen Him ate A[F3]
RocclIimateB[F4]
[ESC]ot
[F2]
D isp lay
V : 9 0 ° 1 0 ’ 2 0 "HR: m ^ O ^ O "
OSET HOLD HSET P l i
T IL T REP V% P2 i
REPETITION ANGLE ) OK ?
---- ---- [Y E S ][N 0 ]
REP-ANGLE CQUNT[ 0 ] H t : 0 °0 0 ’ 00"Hiti:
OSET V/H REL HOLD
REP-ANGLE COUNT[ 0 ] H t : 0 °0 0 '0 0 M Hm:
OSET V/H REL HOLD
REP-ANGLE C0UNT[ 1] H t: 4 5 °1 0 100"Hm: 4 5 °1 0 , 00"
OSET V/H REL HOLD
REP-ANGLE C0UNT[ 1] H t: 4 5 °1 0 ’ 00"Hm: 45 °1 0 ’ 00"
OSET V/H REL HOLD
REP-ANGLE C0UNT[ 2 ] H t : 9 0 °2 0 '00"Hm: 45 °1 0 '00 "
OSET V/H REL HOLD
REP-ANGLE C0UNT[ 4 ] H t: 180°40 ’ 00"Hm: 45 0 10 '00"
OSET V/H REL HOLD
(E x a n p le ) 4 m easurem ent
REPETITION ANGLE E x i t
> OK ?--- — [YES][W0]
i angle:m fasurem fnt
•© Press [F3](YES) key. V : 9 0 °1 0 , 20,r HR: n O ^ O ^ O "
OSET HOLD HSET P I i
• Horizontal angle can be accumulated up to(360cr00'00" - minimum reading)(hor zontal angle right) or - (3600a00'D0" - minimum reading)(horizontal angle left) . In case of 5 sec one read ng, horizontal arg le can be accumulated up to 13599c59'55".
3.6 Buzzer Sounding for Horizontal Angle 90° IncrementsW hen the horizontal angle falls in the range of less than + 19o f0 ° , 90u, 180" or 270°, the buzzer sounds . Buzzer stops only when the horizontal a rg le is adjusted to O 'W OO", 90c0 0 '0 0 " , 180W O O" or 270c00'00".This setting is not memorized after powering o ff Refer to Chapter 16 "SELECTING MODE" to set the in itia setting (memorized after powering off}.Make sure the mode is Angle measurement
O perating procedure
(D Press [F 4 |( I ) key tw ice to get the function on page 2
■2- Press [FIJ(H-BZ) key.The data previously set is shown.
<3> Press (F1](ON) key or [F2](OFF) key to select the buzzer ON/OFF .
® Press [F4](ENTERi key.
O peration
[F4]twice
[FI]
[F1J or [F2]
Display
V : 9 0 °1 0 , 20"HR: 1 7 0 °30 '2 0 ”
OSET HOLD HSET P I ;
H-BZ R/L CMPS P 3 i
H-ANGLE BUZZER [O FF]
[ON] [O FF] ENTER
H-ANGLE BUZZER [ON]
[ON] [O fF ] — ENTER
V : 9 0 ‘>10 , 2 (r HR: 170°30 '20"
OSET HOLD HSET P I ;
3 ANGLE MEASUREMENT
O perating procedure
I ) key tw ic e to g e : the 3.
i|F3KCM PS)key.& 1)
Operation
twice
D isp lay
V : 98° 10 2 0 "HR: 170°30 2 0 "
OSET HOLD HSET P I 4H-BZ R/L CMPS P3J
V : - 8 C10 2 0 "MR: 170'30 2 0 ’1
H-BZ R/L CMPS P 3 j
E w y t im e pressing (F3KCMPS) key, the display mode switches.
Compasses ( vertical angle)Vertical ang e is displayed as shown below.
O p era ting procedure
(D Collimate the center of prism.
■2> Press [ - ' ] key.Distance measurement starts. 1),2)
The m easured d is tan ce s are show n. 5)
• Pressing [ ] key again, the display changes to horizontal (HR) and vertical (V)angle and slope distan<e{SD). X. 6)
Operation
Collimate
D isp lay
V ; 9 0 °1 0 '2 0 ”HR: 120°30 ’ 40"
OSET HCLD HSET P i t
HR: 12 0°30 '40"HD*[r] < < m VD: mMFAS MODL S/A P I [
HR: 12 0°30 '40"HD* 123.456 m VD: 5 .6 /8 m MEAS MODE S/A P I ,
V : 9 0 °1 0 '20"HK: IPO^OM O"SD* 131.678 m MFAS MODE S/A P I i
i& l) When EDM is w orking, the " * ‘ mark appears in the display X.2) Tochange mode from Fine to Coarse or Tracking, refer to Chapter 4.5 "Fine Mode/
Coarse Mode/Tracking Mode".I o set the distance measurement on when the instrument is powered up, refer to Chapter 16 "Selecting Mode".
3K3) The distance unit indicator "n r' (for m eter), " ft" (for leet) cr ’'f i" (fo r feet inch) appears and disappears alternatively w th buzzer sounds at every renewal o f distance data.
■*c4) Measurement may 'epept 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 |ANG] key.
5*6) It is possible to choose the display order (HR.HD.VD) o ' (V ,HR,SD) for initial measuring distance mode Refer to Chapter 16 "SELECTING MODE".
4. DISTANCE MEASUREMENT
4 DISTANCE MEASUREMENTNote : Since the distance more than 2,000m{6,600ft) can not be d splayed, measure the
distance less than 2,000m (6,600ft).
4.1 Setting of the Atm ospheric CorrectionWhen setting the atmospheric correction, obtain tne correction value by measuring the temperature and pressure. Refer to Chapter 12.2 "Setting o f Atm ospheric Correction Value".
4.2 Setting of the Correction fo r Prism ConstantTopcon’s prism constant value is 0. Set correction for prism at 0. If the prism is of another m anufacture, the appropriate constant shall be 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 M easurement (Continuous M easurement)Make sure the mode displays angle measurement.
4. DISTANCE MEASUREMENT
Distance M easurem ent (N-time Measurement/Single Measurement)
ffl£ i
When the number of times m easurem ent is preset, the GTS-210 series measures the distance the set number of times. The average distance w il be displayed.W hen presetting the number of times as 1, it does no?, display the average distance, because of single measurement Si ngle measurement is set at the factory
Make sure t.he mode displays angle measurement.
O p era ting procedure
Collimate the center of the prism.
2 Pms[ ')keyContinuous measuring starts 1)
mPress [F1 ](M EAS) key w o ile continuous measuring is exceeding. 2)
The average value is displayed and mart disappears.
^ W hile EDM is w orking , press [F1](MEAS) key again, the mode w ill be changed to continuous measuring mode,
------
O peration
A!
[FI]
D isp lay
V : 9 0 °1 0 , 20" HR: 120o3 0 '4 0 "
OSET HCLD HSET P I i
HR: 120°30 , 40" HD*[r ] < ( m VD: mMEAS MODE S/A P I .
HR: 1 2 0 °3 0 '40" HD*[n] < ( m VD: m MEAS MODE S/A P I i
iHR: 120°30 ’ 40"HD: 123. 456 mVD: 5. 678 mMl AS MODE S/A P I 4
* I ) tt rs possible to set the measurement mode for N-times measurement mode orContinuous Measurement mode when the power is turned on. Refer to Chapter 16 'SELECTING M ODE".
Z) For setting the number of times (N-times) in the measurement, refer to Chapter 16 •SELECTING M ODE".
4. DISTANCE MEASUREMENT
Choose meter /feet / feet + inch unit by soft keyIt is possible to change the unit for distance measurement mode by soft key.This se lling is not memorized after power o ff Refer to 16 SELECTING MODE to set at the initial setting (memorized after oower off).
O perating procedure
•:'.p Press [F4](P1 | ) key to get the function on page 2
■2' Every time pressing [F3)(m/f/i) key, the display unit w ill be changed
• Every time pressing [F3](m/f/i) key , the unit mode switches.
O peration
[F4]
[F3]
D isp lay
HR: 120c3C ’ 40"HD* 2 . 00 0 mVD: 3 . 00 0 mMEAS MODE S/A P H
OFSET S 0 m /f/ i P2 4
HR: 120 >30'40"HD* 6 . 560 f tVD: 9 . 64b f tOFSET S 0 m /f/ i P2 l
4.5 Fine Mode/Tracking Mode/Coarse ModeThis sett rig is not memorized after power :s o ff. Refer to Chapter 16"SELECT NG MODE' set at the initial setting (memorized after power is off).
to
O F in e Mode
Q Track ing Mode
O Coarse Moce
: This is a normal cistance measuring mode.The unit to be displayed : 1mm Measuring time : approx. 2.5 sec.
: This mode measures in shorter time lhan in fine mode It is very useful when tailing the moving object or carrying outstake-out work.The unit to be displayed : 10mm Measuring time : apprOx. 0.3 sec.
: This mode measures ir shorter tim e than in fine mode.The unit to be displayed : 10mmor 1mm Measuring time : approx. 0.5 sec.
O perating procedure O peration
CD- Press [F2](MODE) key from the distancemeasuring mode.JK 1)The in itial cha-acter (F.T/C) o f set mode is displayed (F :F ine , T:Tracking, C:Coarse)
£> Press (FU(FINE) key, {F2](TRACK} key, or (F3)(COARSE) key.
X .1) To cancel the setting, press [ESC) key
[F2]
[F 1)~[F3]
D isp lay
HR: 120°30 ' 40"HD* 123.458mVD: 5.678mMEAS MODE S/A P I i
HR: 120°30 '40"HD* 123.456mVD: 5 .678mFINE TRACK COARSE F
HR; 120#30 '40"HD* 123.456mVD: 5.678mMEAS MODE S/A P I ,
4-3
■BiES£&
' • *•
.SL .</lENT 4. DISTANCE MEASUREMENT
• 10 set at the
11
mm
A P I 4
/ i P2 4
iif tf t
/ i P2 4
NC ’’DE" to
' carrying out.
•J 1 I
4.6 Stake Out (S O)The difference between the measured distance and the input sta<e out d istance is
displayed.Measured distance - Stake out distance = D splayed value• In stake out. operation, you can select either horizontal d istance (HD). relative
elevation (VD) andslopedistance (SD)
<3> P ress [ F 4 ]( ) k e y in the d is ta n c e | m easuring mode to get the function on
page?
5 Press (F2](5 .0) key : The data previously set is shown.
mm lect the measuring m oce by pressing lF1 ]to [F3 ) key
1 Example : Horizontal distance
& Enterthe disiance fo rstake out. # 1)
—O p era ting procedure
S co l, imate the target (Prism).
Measuring slarts
The d ifference betw een the measured d istance and the stake out distance is displayed
© Move the ta rg e t u n til the d fference becomes Om
Operation D isp lay
[F1]
[FD Enter data
[F4]
HR: 120°30 ’ 40”HD* 123.456 m VD: 5.678 m MEAS MODE S/A P I 4
OrSET S.O m / f/ i P2 I
STAKE OUT HD : 0 0 0 0 m
HD VD $D
STAKE OUT HD : 0 . 0 0 0 m
TNPUT ---- ---- ENTER
1234 56/8 9 0 .- [EN T]
STAKE OUT HD : 1 0 0 .00C m
IM P U T ---- ---- FNTFR
HR: 120°30 ’ 40'dH D *[r] < ( m
VD: mMEAS MODE S/A PI l
iHR: 120°30 '40*
dHD* 23 .456 mVD: 5 .678 m
MEAS MODE S/A P I 4
* 1 ) Refer to Chapter 2 .5 '‘ How to Enter Alphanumeric characters "• To return to normal distance measurement mode, stake out distance to "0"m or turn the
power of*.
4-4
4 DISTANCE MEASUREMENT
4.7 O ffset Measurement Mode- his mode is useful when it is d ifficult toset 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 A 0 to measure.To measure the coordinates of the center position, operate the offset measurement after setting the instrument height/prism height.
• Set the instrument height/prism height before proceeding to the offset measurement mode.
• W hen setting the coordinate value for the occupied station, refer to Chapter 5.1 "Setting Coordinate Values of Occupied Point".
O perating procedure O peration D isp lay
CD' P 'e ss !F a ] ( P 1 ) key fro m d is ta n c e measuring mode r.o get the function on page 2.
■Z Press [FI ](OFSET) key.
<3> Collimate prism P, and press (F1](MFAS) key
[F4]
[F1]
Collimate P [F I]
MR; 1 2 0 ° 3 0 '4 0 "HD: 123.456 ir VD: 5 .678 it
MEAS MODE S/A P I j
OFSET S.O m / f/ i P 2 i
OFFSET-MEASUREMENT HR: 1 ?0 °30 ' 40"HD: m
MEAS ----- ----- SET
OFFSET-MEASUREMENT HR: 110°20 ' 30"HD* ( c m
MEAS ----- ----- SET
1
4 DISTANCE MEASUREMENT
? at the center ent as that of
jrement after
| The horizontal distance fron the£ Instrum ent to the prism w ill be measured
i Press (F4](SET) key to decide the prism position.■
8 Collim ate point A0 using the horizontal motion clamp ard horizontal tangent
! ft screw
£ Show the relative elevation o f point Aq
H Show the slope distance of point A0.
| • E*Ctl time pressing (^ ] key, horizontal distance , relative elevation and slope
, dtatance are shown in sequence.
$ Show N coordinate of point An or A^
l»ch tim e pressing [’■£.) key. N,E and Z coordinate are shown in sequence.
[F4]
Cotllmate An
[ * ]
[ * ]
1
• T o rftu rn to procedure '3 , press (FI](N EXT) key. Toreturn to the orevious mode, press [ESC] key.
OFFSET-MEASUREMENT HR: 110°20 '30"HD* 56 .789 m
MEAS ---- ---- SET
OFFSET-MEASUREMENT HR: n 0 ° 2 0 '3 0 "HD: 5 6 .7 8 9 m
NEXT ----- ----- —
OFFSET-MEASUREMENT HR: 150°30 '50"HD: 56 .789 m
NEXT ---- ---- —
OFFSET-MEASUREMENT HR: U O ^ O 'SO "VD: 34 .567 m
NEXT ---- ---- —
OFFSET-MEASUREMENT HR: 110°20 '30"SD: 45 .678 m
NEXT ---- ----
OFFSET-MEASUREMENT HR: H O ^ O ^ O "N : -1 2 .3 4 5 m
NEXT ---- ---- —
4-6
5. COORDINATE MEASUREMENT
COORDINATE MEASUREMENT
5.1 Setting Coordinate Values o f Occupied PointSet the coordinates of the instrument (occupied point) according to coordinate or gin, and the instrument automatically converts a id 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''SELECT1NG MODE"
O pera ting procedure
(!) Press [F4]( I ) key from the coordinate measurement mode to get the function o r page 2.
Q> Press [F3](OCC) key.
Enter N coorcinate value.5K 1)
(4> Enter E and Z coordinate values in the same manner.A fte r entering the values, the display returns coordinate measuring display
O peration
[F4]
[F3]
(F1]Erte rdata
[F4]
D isp lay
N: 123.456 mE : 34 .567 mZ: 78.912 m
MEAS MODE S/A P I iR.H7 INSHT OCC P2 \
N-» 0 . 0 0 0 mE : 0 . 0 0 0 mZ: 0 . 0 0 0 m
INPUT ---------- ENTER
1234 5678 9 0 .- [EN T]
N: -72 .000 mE-* 0 . 0 0 0 mZ: 0 . 0 0 0 m
INPUT ---------- ENTER
N: 51 .456 mE : 34 .567 mZ : 78.912 m
MFAS MOOE S/A P I j
SK1) Refer to Chapter 2.5 "How to Enter Alphanumeric characters ".• Input range -999999.999 S N .E .Z i +999999 999 m
-999999 999 ^ N ,E ,Z ^ +999999 999 ft. -999999 11.7 S N .E ,Z S + 999999 11.7 ft. + inch
5. COORDINATE MEASUREMENT
WT 'UREMENT
dinate origin, and nt (prism po in :)
3 the power off.
P 'i in (n ,e .z )
z
£
3 .4 5 6 m 4 .567 m 8 .9 1 2 m S/A P I i
OCC P2 i,
0 . 0 0 0 m 0 . 0 0 0 m 0 . 0 0 0 m ---- ENTER
•0 .- [FN T]
? . 0 0 0 m D. 0 0 0 m ) . 0 0 0 m ---- ENTER
1.456 m 1.567 m *.912 m S/A P I i
5.2 Setting Height of the Instrumentft is possible to retain the height of insturment after turning the power o ff. Refer to Chapter 16 "SELECTING MODE"
-----O perating procedure
w Press [F4 U ) key from the coordinate H HM N iStirem ent mode to get the function
o n page 2
2 Fr«s(F21(IN SH T)key.?becurrent value is displayed.
sin ter the instrument height. 5K 1)
O peration
[F4]
[F2J
!F1]En te r h s t .- T
;f4]
D isp lay
123.456 m34 .567 m78.912 m
MFAS MODF S/A P I \
R.MT INSHT OCC P2 \
INSTRUMFNT HEIGHT INPUT IN S .H T : 0 .000 m IN P U T ENTER
1234 5678 9 0 .- [EN T]
123.456 m34.567 m78.912 m
MEAS MODE S/A PI
« l ) * e f e r to Chapter 2.5 "How to Enter Alphanumeric charade's ". A/faput range - 999 i Instrument height ^ + 999.999 m
- 999.999 ^ Instrument height ^ + 999.999 ft.-999 .1 1 .7 ^ Instrument height i +999.11.7 ft. + inch
5 3 Setting Height of Target (Prism Height)WB&fe• • Tbi% mode can be used to obtain Z coordinate values .
I» is possible to retain the heignt of target after turning the power off. Refer to Chapter 16 ECTING MODE".
O perating procedure
s
IF4]( l ) key from the coordinate «**«u rem en t mode to get the function • n page 2,
^ ♦ ss(F1]{R .H T)keyTNicurrent value is displayed.
3 tM * rth e prism height. ' )
O peration
IF4J
|F 11
[FI]Enter P n jm H'
:f4]
D isp lay
123.456 m 34 .567 m 78 .912 m
MFAS MODE S/A P I i
R.HT INSHT OCC P2 \
REFLECTOR HEIGHT INPUTR.HT : 0 .000 m INPUT ---------- ENTER
1234 5678 9 0 .- [FN T]
123,456 m 34 .567 m 78 .912 m
MEAS MODE S/A P I \
# IJ Refer to Chapter 2.5 "How to Enter Alphanumeric characters ". *n|xjt range - 999 999 i Prism height £ + 999 999 m
- 999.999 £ Prism height £ + 999.999 ft.-9 9 9 .1 1 .7 £ Prism height S + 999.11.7 ft. + inch
5-2
5. COORDINATE MEASUREMENT
Execution of Coordinate MeasuringM easure the coordinates by entering the instrum ent height and prism height, coordinates o f unknown point w i'l be measured directly.• W hen setting coordinate values o f occupied point, see Chapter 5.1 "Setting
Coordinates Values of Occupied Point"• W hen setting the instrument height and prism height, Chapter 5.2 "Setting Height
of the Instrum ent11 and S .3 "Setting Height of Target (Prism Height)"t The coordinates o f the unknown point are calculated as shown below and
cisplayed:Coordinates of occupied point : (N(>,Eo,2o)Instrument height : IN5.HT Prism height : R.HTVertical distance(Relative elevation) z (VD)Coordinates of the center o f the p risn ,originated from the center point of the instrument : (n ,e,z)Coordinates of unknown p o in t: (N-,Ei,Z-|)
N, = N0 + 1
Ei =E0 + eZ1 =Z0 + IMS.HT + z-R .H T
C o o rd h a te so f th e ten te r of th e prism . orig inated from the cen te r point of O e ■nstrurr.ent {n.e,z> ,
j Cen ter po int o f th e instrum ent ! (ND/Ec , Zc> -t Inst.h)
u nkno w n point (Ni,Ei.Z|>
! O c t jp ie e point {Nu.Ey.7,;) j
O peration D isp layO p era ting procedure
Set the d rection angle of known po irt * 1)
Set d irection angle
Collimateyrism
Collimate target
Press | key. Measuring starts.
MEAS MODE S/A P l j
N* 123.456 m E : 34 .567 m Z : 78 .912 m
MEAS MODE S/A P I
The result will be shown
SK 1) Refer to Chapter 3 3 "Measuring from the Required horizontal Angle".• In case the coordinate of instrument point is not entered, (0,0,0) w ill be used as the
default for the instrument point.The instrument height w ill be calculated as 0 wnen the instrument height is not entered.
• The prism height w ill be calculated as 0 when the prism height is not set.
f MENU 2/3FI:PROGRAMS
1 F2 :G RID FACTORF3:ILLUMINATION P i
"MEMORY MANAGER MODE"
"LAYOUT MODE"
GRID FACTOR = 1 .0 0 0 0 0 0
>M0DIFY? [YES ][N O ]
PROGRAMS 1 / 2
FI:REMF2:MLMF3 :Z COORD. P i
MENU 1/3FI:D ATA COLLECT
■>2: LAYOUT F 3 : MEMORY MGR. P v
Vlf VREMENT
d prism h e ig h t,
tte r 5.1 "Setting
2 "Setting Heightr .own be lo w and
,z)
strument (o,e.2> j
.............4.................R.HT \
I Z (VD)
....... * . ........
2 0 "
40”
HSET P l i
456 m 567 m 912 m S/A P I i
>e ' as the
; not entered
ILLUMINATION [O FF : L ] F I : ON F 2 : OFF f3 ;L E V E L
6 SPECIAL VIODE (Menu Mode)
SPECIAL MODE (Menu Mode)
By pressing the (MENU] key, the instrument w ill be in MENU mode.In this mode, special measuring , setting and adjustment are possible.
(Only for GTS-211 D/212)
al measurement mode
I M ENU)
"DATA COLLECTION MODE"
See Chapter 7 ' DATA COLLECTION
See Chapter 8 ' LAYO UT".
See Chapter 9 "MEMORY MANAGER MODE".
Programs
Grid factor
Reticle illum ination
Sett ng mode 1
MENU 3/3FI:PARAMETERS 1 F2:CONTRAST ADJ.
P i
Display contrast adjustment
CONTRAST ADJUSTMENT !«! LEVEL: 4
DATA COLLECTION mode sno t provided on GTS-213
i t ---- ENTER
PARAMETERS 1 FI:MINIMUM READING F2:AUTO POWER OFF F 3 :T IL T
6 SPECIAL MODE (Menu Mode)
6.1 Application M easurement (PROGRAMS)$.1.1 Remote Elevation measurement (REM)
To obtain elevation of the point at which setting the -.arget prism is not possible, place the prism at any ooint on the vertical line from the target then carry out REM procedure as follows.
1) W ith prism height (h) input (Example :h = 1.5m)
O p era ting procedure
Cjj A fter pressing [MEN J ] key, press [F4](P X ) key to get the menu on page 2.
<Z Press [F1] key.
;3' Press [FI)(REM ) key
'$■ Press [F1] key
•S Enter prism height. $ 1)
Collimate prism.
Press [Fi;<MEAS) key. M easuring starts.
O peration
[MENU](F41
:f h
[FI 1
[f i :
[F I] Enter R HT
[F4]
Col imate P
[F I]
D isp lay
2/3MENUFI:PROGRAMS F 2 : GRID FACTOR F 3 : I I IIJMTNATION P
PROGRAMS F I : RFM F2:MLM F 3 :Z COORD.
1/2
P ;
REM F I:IN P U T R.HT F 2 : NO R.HT
REM-1<STEP-1>
R.HT : 0 .000 m I N P U T ---------- ENTER
1234 5678 90.- [ENT]
REM-1<STEP-2>HD: m
MEAS SET
REM-1<STEP-2>HD* << m
M E A S ---- SET
6 -2
nu Mode) 6 SPECIAL MODE (Menu Mode)
>ssible, place the •M procedure as
VD
| H orizontal d istance (HD) between the instrument and prism w ill be shown.
Press IF4KSET).The prism position w ill be decided ^ 2)
|C o l l i m a t e target K.Vertical distance (VD) w ill be shown. 3)
[F4]
Collimate K
REM- 1
<STEP-2>HD* 123.456 m
MEAS ---- ---- SET
REM- 1
VD: 1 .500 m
---- R.HT HD ----
REM- 1
VD: 10.456 m
---- R.HT HD ----
* 1 ) Refer to Chapter 2.5 "How to Enter Alphanumeric characters To return to p rocedure© , press [F2](R.HT) key.
| ; To return to procedure ©•, press (F3)(HDj key.! * 3) To return to normal measurement mode, press [ESC] key.
2/35: torvt io n p ;
1/2
Pi
HT
)00 m — ENTER
I . - [EN T]
m---- SET
2) W ithout prism height input
« mSET
O perating p rocedure
After pressing [MENU] key, press [F4)(P ) | f key to get the menu on page 2.
i ■
[ f t Press (F1J key
3 Press [FI)[(REVI) key.
* Press [F2] key.
$ Collimate prism
• Press [F1](MEAS) key Measuring starts.
Operation
[MENU][F4J
[F I]
[F I]
[F2]
C e llm a te P
[F11
D isp lay
2/3MENUFI:PROGRAMS F2:G RID FACTOR F3:ILLUMINATION Pi
PROGRAMS 1 / 2
FI:REMF2:MLMF 3 :Z COORD. P i
REMF I:IN P U T R.HTF 2 : NO R.HT
RFM-2<STEP-1>HD: m
MEAS ---- ---- SET
RFM-2<STEP-1>HD*
MEAS ----<< m---- SET
6 - 3
S SPECIAL MODE (Menu Mode)
H orizontal d istance (HD) Detween the instrument and prism w ill be shown.
<2> Prew lF4](SET).The prism position w ill be decided.
© Collimate grourd point G.
$ Press (F4](SET) key.The position o( point G w ill be decided * 1)
!J0' Collim ate target K.Vertical distance (VD) w ill oe shown. i*;2)
[F4]
Collim ate G
(F4J
Co! lim a* e K.
REM-2<STEP-1>HD* 123.456 m
MEAS ---- SET
REM-2<STEP-2>V : 6 0 °4 5 '5 0 "
SET
REM-2<STEP-2>V : 123°45150'*
SET
REM-2VD: 0 .000 m
---- V HD ---
REM-2VD: 10 .456 m
---- V HD ----
1) To return to procedure S ', press (F3](HD) key.To return to procedure <E, pre<s [F2](V) key.
2) To return to normal measurement mode, pres^ [ESC] key.
5 ' 5 0 "
5 '5 0 "---- SET
) L ^ e n u Mode)
*1-2
6 SPECIAL MODE (Menu Mode)
Missing Line M easurement (MLM)
M easurement for horizontal distance (dHD), slope distance (dSD), e levation (dVD) and horizontal bearing (HR) between two target prisms.
J j S p f - I t is possible to enter the coordinate value directly or calculate from coordinate data file MLM mode has tw o modes1-MLM-1 (A-B, A -C ); Measurement s A-B, A-C, A-D,........2.MLM-2 (A-B, B-C) rMeasurement is A-B, B-C, C-D,.......lam??11-
P’ ism A
•* **
dSD dVD
»nsm B
Prijrr
Prism C
Pi ism B
It is necessary to set ‘.he direction angle of the instrument.
p - gUampfe] MLM-1 (A-B, A-C)• Procedure of MLM-2 (A-B. B-C) mode is completely same as Ml.M-1 mode.
Operating procedure
$ A fte r pressing [MENU] key. press (F4 |(P J,) the menu on page 2.
It key.
% * * » lF 2 ] (M L M )k e y
Operation
[MENU]IF4]
Display
MENU 2/3FI;PROGRAMS F2:GRID FACTOR F3:ILLUMINATION P*
PROGRAMS 1/2FI:REM F2:MLMF 3 :Z COORD. P\
6 SPECIAL MODE (Menu Mode)f\ E (Menu Mode)
9 To measure the distance between points /•: A m d C , press [F3](HD). % 1)
MLM-1(A-B, A-C) <STEP-2>HD: m
MEAS R.HT NEZ
Collim ate prism C
Goftimate point C (Prism C) and press > 1 K M E A S ) keyH # tfxo rta l d istance (HO) between the flwtrum ent and prism C wi II be shown.
IF 4 ](S E T ) key . The h o r izo n ta l f in a n c e (dHD) and re la t ive e levatio n M VD Ibetw een prism A and C.
measure the distance between points md D, repeat procedure & ~<H) . % 1)
Ifc return to previous mode, press [ESC] key.
Howto use coordinate datapossible to input coordinate value directly or calculate from coordinate data file
O pera ting procedure D isp layOperation
MLM-1(A-B, A-C) <STEP-1>HD: m
MEAS R.HT NEZ SET
0.000 m 0.000 m 0.000 m
PT# ENTER
JF3KNEZ) key.t k r j r input display w ill be shown
IN PU T
:9 i # H tj*ff3J(PT# ) key to use coordinate datam g m
n um b er in p u t d isp lay w ill beINPUT L IS T HD ENTER
•9 IF3](HD) key, the display w i to procedure <©.
selecting coordinate input mode by mg IF3](NEZ or PT# or HD) key, press HPUT) key and enter the data
$ Press [F1](USE FI_E) key
S Press [F 1 ](INPUT) key and enter the File Name.
® Press IF1 ] key.
?T; Press [F1 J(INPUT) key and enter the Point number Instrument height setting display w ill be shown
Press [ F 1 ](IN PU T) key and e n te r the height.
The display returns to 2 coordinate menu.
[F1] Enter FN
[F4]
[FI]Enter PT#
[F4]
|F1] Enter HT
[F4]
SELECT A F IL E FN :___________
INPUT L IS T ---- ENTER
Z COORD.SETTING F1 :0CC .PT INPUT F2 : REF .ME1AS
OCC.PTPT#:
INPUT L IS T NEZ ENTER
INSTRUMENT HEIGHT INPUTIN S .H T : 0 .000 m IN P U T---------- ENTER
Z COORD.SETTING Fl-.OCC.PT INPUT F2: REF.MEAS
, ■ ... ....-------- ^
O p era tin g prftdOdllfC
CD A fter Dressing [MENU] key, press (F4](P j ) key to get the menu on page 2.
‘Z Press [F I] key.
Z- Press [F3](Z COORD ) key.
Operation
[MFNU][F4]
D isp lay
MFNU 2/3FI:PROGRAMS F2 :G RID FACTOR F3:ILLUMINATION P |
PROGRAMS FI:REM F2 :MI M F 3 :Z COORD.
Z COORD.SETTING F I:U S E F IL E F2:DON'T USE
6 SPECIAL MODE (Menu Mode)
6.1.3 Setting Z Coordinate of Occupied Point
Occupied point coord:nate data and known point actual measuring dalo are utilized, zj coordinate o f occupied point is calculated and reset ogain.Known point data and coorcinate data can use the coordinate data file.
1 ) Setting occupied coordinate
[Exam ple setting] Using coordinate data file
)E ,-nu Mode)
ta are utilized , z
2/3ISCTORIATI0N P i,
l/ 2 ~
P i
TINGESF
LE
---- ENTER
TINGINPUTS
VEZ ENTER
HEIGHT
)00 Hi
-- ENTER
TING [NP* «T
6 SPECIAL MODE (Menu Mode)
2) Z Coordinate Calculation from Known Point Measuring Data
fFxam ple setting) Using coordinate data file
O perating p rtxed u re
% pressing [MENU] key, press [F4 ]|P J.) j'. ia^ rto g e tthe menu on page 2.
$ key
II
% * « » t F 3 ] (Z COORD.) key.
1KUSE FILE) key.
9 IFII(INPUT) key and enter the File
• * * * ! F > lk e y
•;$ (F1](INPUT) key and enter the Point Rfcjmber in coordina'.edata file
S { F I ] ( INPUT) key and e n te r the-
# Coflimate a prism on the point and oress PF3RYES) key.Measuring starts S& 1)
O peration
[MENU] (F 4)
:f h
;f 3)
[F1]
[F1 ] Enter FN
[F4)
[F2]
[FI]Enter FN
[F4]
[F1] Enter HT
(F4)
Collimate[F3]
D isp lay
MENU 2/3F I : PROGRAMSF2:GRID FACTORF3:ILLUMINATION Pi
PROGRAMS 1 / 2
FI:REMF2:MLMF 3 :Z COORD. Pi
Z COORD.SETTINGF 1 :USE F IL EF2:DON'T USE
SELECT A F IL EFN:
INPUT L IS T ---- ENTER
Z COORD.SETTING F1 :0 C C . PT INPUT F2:REF.M EAS
fJOOl*PT#:
INPUT L IS T NEZ ENTER
REFLECTOR HEIGHT INPUTR .H T : 0 .000 m IN P U T ---------- ENTER
REFLECTOR HEIGHT INPUTR .H T: 0 .000 m >Sight? [Y E S ][N 0 ]
HR: 120°30 40"HD* << mVD: m
>Measu r i n g •
6 - 9
SPECIAL MODE (Menu Mode)
•10' Press [F4)(CALQ key. X 2)Z : Z coordinate dZ : Standard deviation
f t Press [F3KBS) key. * 3)Horizontal ang le to the last measured point w ill be shown.
® Press (F4](SET) key.Z coordinate of the occupied point and horizontal angle w ill be set.The d isp lay re tu rrs to P rogram s 1/2 menu.
PROGRAMS FI:REM F2:MLM F 3 :Z COORD.
5K1) Measurement is Fine Single measurement mode.& 2) To measure other points, press (F1)(N6XT) key>K3) Pressing [F3J key, the display w ill be changed alternately.
120°30 '40" 12.345 m 23 .456 m
1.234 m 0.002 m
BS S E T
HRHDVD
A r e a C a lc u la t io n
Imthn mode, there are two area calculation methods as follows A rea Calculation from Coordinate data file
2 } A rea Calculation from Measured data
ft is impossible to calculate what a m ix of coordi nate file data and measured data, ff the coordinate data file does not exist, the area calculation from measured data is
U S '* done autom atically.!v * The numbers o* points used to calculate are not limited.
1 ) A r e a Calculation from Coordinate Data File
O perating p ro ccdun ;
_____ pressing [MENU] key, press [F4](P | )la p to get the menu on page 2/3.
B 1 &
----- a.
6 SPECIAL MODE (Menu Moce)
IF 4 }(P X ) key to get the PROGRAMS on page 2/2
1KAREA) key
(F1KFILE DATA) key
♦ IF1)(INPUT) key and enter the File ' « m e .
tM ia f display w ill be shown
3 **te tF4 ](N EX T )ke y ,5K 1 ),2 )lfc ie to po f the file data (DATA-01) will be
and the second point number w ill be X;y rfw w n .
♦ * *p e a t pressing (F4)(N EXT) key to set • iqu ired number o f points
O peration
[MENU][F4]
[F1]
[F4]
[F I]
[F I]
IF1 ] Enter FN
[F4]
[F4]
[ M ]
D isp lay
MENU 2 / 3F I:P R O G R A M S F 2 :G R ID FACTOR F 3 :IL L U M IN A T IO N P j
PROGRAMS F I :R E M F2 :M LMF 3 :Z COORD.
1/2
P i
PROGRAMS F I : AREAF 2 : PO IN T TO L IN E
111
P i
AREA F 1 : F I L E DATA F2 :M EASU RFM FN T
S E L E C T A F I L E F N :_____________
IN P U T L I S T ----- EN TER
AREA 00 00m. sq
N EXT# :D A T A -0 1 P T # L I S T U N IT NEXT
AREA 00 01m. sq
NFXT0 :DATA-02 P T# L I S T U N IT NEXT
BE:.fe-i
Sfcfm
m
6-11
When 3 or more points are set, the area surroundec by the points is calculated and the result w ill be shown
AREA 0021123.456 m. sq
NEXT# :DATA-22 PTU L IS T UNIT NEXT
1) To set specify point, press IF1](PT#) key2) To show the list of the coordinate data in the file , press [F2KLIST) key
2) Area Calculation from Measured Data
O perating procedure
•CD A fter pressing [MENU] key, press [F4l(P j ) key to get the menu on page 2/3
0 Pres . (F1] key
$ Press 1F4](P J .) key to get the PROGRAMS menu on page 212.
'$) Press [F1 )(AREA) key
•S Press [F2](MEASOREMENT) key
S ' Press [F1] or [F2l key (o select using GRID FACTOR.(E x a m p le ^ : DON'T JS E l
O peration D isp lay
[MENU](F4)
0000 m. sq
MENU 2/3FI:PROGRAMSF2.GRID FACTORF3:ILLUMINATION P i
PROGRAMS 1 / 2
F I : RFMF2:MLMF3 :Z COORD. P i
PROGRAMS FI-.AREAF2:POINT TO LINE
AREA F I : F I L E DATA FZ:MLASUREMLNT
AREA F I:U S E G .F . F2:DON'T USE
AREA
MEAS ---- UNIT —
6 SPECIAL MODE (Menu Mode)
■>.
D isp lay
AREA 0003 1 0 0 . 0 0 0 m.sq
MEAS — UNIT ----
AREA1 0 0 .
0003 0 0 0 m.sq
m. sq ha f t . s q acre
AREA0 .
000301 0 ha
MEAS — UNIT ----
acre : acre
N* « < mE • mZ : m
>M easuring•••
AREA 0 0 0 1
m.sq
M L A S ---- UNIT ----
AREA 0003234.567 m.sq
MEAS ---- UNIT ----
Coll ifn a te P[F1]
Collimate[F1]
mode.
Tlenu Mode) 6 SPECIAL MODE (Menu Mode)
0021 $56 m.sq U A-22
UNIT NEXT
points a re measured, the by th e p o in ts is
the result w ill be shown.
2/2
10 LINEP i
VTAIMENT
0 0 0 0m .s q
UNIT ----
d is p la y u n it
pM iib le to change the displayed area u n it .
is Fine Single measurement
O pera ting procedure Operation
rte a prism and press |F1](M EAS)
* 1 )
2/3MSAC I ORN/ )N P ;
key.
pressing [F1] to [F4] key key.
ha i hectare ft.sq : square feet
i
6 SPbClAL MODE (Men jM o c e )
6.1.5 Point to Line M easurement
This m cde is jsed to obtain the coordinate data w ith the o 'ig in point A(0,C,0) ard 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. A fter measuring the 2 prism s, the coordinate data and the direction angle of the instrument w ill be calculated and restored.
P ( n, e, z )
Prism P2
INS HT
Instrument Point (Unknown point)
O pera ting procedure O peration
<S? A fter p it t in g [MENU] key, press (F4](P | ) key to get the menu on page 2/3
■■■■■■■■:■ v v-’- • dfife:
Z P'ess [F I ) key.
Z Press (F4](P J . ) key to get the PROGRAMS menu on page 2/7
& Press [F2] key.
S Press [ F 1 ] (IN PU T) Key and e n te r instrument height.
•© Press [F1](INPUT) key and enter reflector A height.
Or 'Menu Mode) 6 SPECIAL MODE (Menu Mode)
CollimateIF3]
J CW Sm ate prism A (O rig in ) and press POINT TO LINE M EAS.PI
HD:>M easuring•••
ument at unknown ection angle of the
dfcpfay of reflector B height w ill be REFLECTOR HEIGHT INPUTR .H T: 0 .000 m IN P U T ---------- ENTER
•H a* IFJKIN PUT) key and enter reflector [F1] Enter HT
[F4]POINT TO LINE MEAS.P?
HD: m> Sight? [Y E S ][N 0 ]
Collimate[F3]
p rism B (E n d ) and press 5) key.ing rtarts. * 1)
POINT TO LINE MEAS.P?HD:
>M easuring•* *; mm coord inate data and the d irection
the instrum ent are calculated ■y w ^ w io r e d .
(The distance between A and • N * * be displayed.
Horizontal distance distance
£ «£>S»ope distance * 2 ) ,3)
MSACTORNATION
EZ) key to m easure o ther
Collimatea prism and press (F4](M EAS) M easu rin g
Measurement starts. i&4) will be shown. & 5) 123.345 m
234.567 m 1 .234 m
— R.HT MEAS
HEIGHT
0 .0 0 0 m ---- ENTER
W w surem ent is Fine Single measurement mode. fc*#*WwdSD, press [F4](P J , ) key.
# f $ ' ,R itho w rth e new occupied data, press [F2](S.CO) key. Spilw'lHhlifor*ment is Fine Single measurement mode'm to previous mode, press (F 1 J(EXIT) key
IEIGHT
0.000 m — EN TER
[Y E S ][N 0 ]
6.2 Setting the GRID FACTORGRID FACTOR can reset in this menu mod?. For more i information, refer to Chapter 8.1.1
Operating procedure
CD After pressing [MENU] key, press [F4](P | ) key to get the menu on page 2.
'Z Press [F2KGRID FACTOR) key from the Layout menu 2/2.
Operation
[MENU]IF4]
& Press (F3HYES) key
P ress [ F I ] (IN P U T ) key an d e n t e r Elevation. 1) Press (F4](ENT) key
(E1 Enter Scale Factor in the same way
[F I]Enter ELEV
(R|Enter Scale
[F4]
6 SPECIAL MODE (Menu Mode)
'Setting the GRID FACTOR"
Grid Factor is displayed for 1 to 2 second and display returns to menu.
D isp lay
MENU 2/3F 1 :PROGRAMS F2:GRID FACTOR F3:ILLUMINATION P i
GRID FACTOR =0.998843
>M0DIFY? [YES ][N O ]
GRID FACTOR ELEV . -1000 m SC A LE :0.999000
INPUT — — ENTER
1234 5678 9 0 .- [EN T]
GRID FACTOR E L E V .: 20Q0 m S C A L E -1 .001000
INPUT — — ENTER
GRID FACTOR -1 .000686
JK1) Refer to Chapter 2.5 "How to enter alphanumeric characters".• Input Range : Elevation : - 9.999 to + 9,999 meter (-3 2 ,8 0 5 to 3,2805 ft, f t + in)
Scale Factor: 0 990000 to 1.010000
ILLUMINATION [O FF : H] F I : ON F2 j OFF F3 :LEV EL
ILLUMINATION [ON:H]F I :ON F2:OFF F 3 : LEVEL
2/3vIS\CTORHATTON P i
*J
[Y E S 1[NOJ
0 m >9000— ENTER
10.- [EN T]
(I rD U .O — ENTER
05 ft , ft + in)
Operating procedure Operation Display
D enu Mode) 6 SPECIAL MODE (Menu Mode)
C 3 Setting Illum ination of Display and Cross Hairs. W c t in g O N / O F F / L E V E L (H ig h / L o w ) for i llu m in a t io n o f d isp la y (LC D ) a n d re t ic le
jv • S e t t in g l e v e u (H ig h /Lo w ) is o n ly fo r re tic le
jetting] LEVEL:HIGH and turn on the illumination.
[MENU][W]
[F3]
[F3]
[F1](F4]
[FI]
MENU 2/3F I : PROGRAMS F2 :G RID FACTOR F3:ILLUMINATION P i
ILLUMINATION [O F F :L ] [LEV EL MODE]
HIGH LOW ----ENTER
‘ :
IIT3KLEVEL) key.
1](H IG H ) key , and then press R) key.
IF1KON) key.
ff tu m to previous mode, press [ESC] key
[p rosing [MENU] key, press [F4J(P J , ) > get the menu on page 2
lfF 3 ] k ey .
I previously set is shown.
6 SPECIAL MODE (Menu Mode)
6.4 Setting Mode 1In this mode, the follow ing settings are possible,1. Setting Minimum Reading 2. Auto Power o ff 3. Vertical and Horizontal Angle T ilt Correction (T ilt ON/OFF).• This setting is memorized after power off.
6 .4 .1 S e tt in g M in im u m R ead ingSelect minimum display unit for angle measurement and coarse distance measurement mode. ______
Coarse mode Distance u n tM odel
10mm(0 . 02ft) / 1mm(0 .005ft)0. lmil/0.01 mil1mgcn/0.2mgon
10mm(0.02ft) /1mm(0.005ft)1 mgon/0.2mgon
10mm(0.02ft) / 1mm(0.005ft)0 . Im il/O .O Im il2mgon/ 1mgonExample GTS-21 ID ] Minimum angle : 5*, Coarse : 1mm
DisplayO p era ting procedure Operation
MLNUFI:PARAMETERS 1 F?:CONTRAST ADJ
CD A fter pressing [MENU] key, press [F 4 ] (P j) key tw ce to get the menu on page 3.
[MENU][F41(F41
PARAMETERS 1 FI:MINIMUM RFADING F 2 : AUTO POWER OFF F 3 :T IL T
MINIMUM READING F 1 :ANGLE F2:COARSE
MINIMUM ANGLE [ F I : 1"
F 2 : 5 11
Press [F1 ] key
EN1ER
<S> Press [F2](5") key and press [F4](ENTER) MINIMUM READING FI:ANGLE F2:COARSE
COARSE READING F 1 : 1mm
[F 2 :1 0 m m ]
Press [F2] key.
ENTER
® Press [F I] key and pres* [F4](ENTFR) key MINIMUM READING FI:ANGLE F2:COARSE
• To return to previous mode, prett [ESC] Key
A u to P o w e r O ffa k e y operation is given or no process of measurement is performed for more than 30
i(N o change exceeding 30" has occurred during ho'i7onlal angle or vertical angle tnt.), the power turns off automatically If the instrument is se1 at d istarce tnt mode ( No chance in distance exceeding 10cm has occurred during distance tot), the mode changes to angle measurement autom atically in case that the does not operate for approximately 10 minutes, and the power turns off after
Operating proccdtre
enu Mode)
izontal Angle Tilt
ice measurement
se mode ince unit
/ 1mm(0.005ft)/ImmfO. 005ft)
/ 1mm(0.005ft)
TERS 1 ST ADJ.
M .,_ADING OWER OFF
6 SPECIAL MODE (Menu Mode)
O peration D isp lay
ing [MENU] key, press [F4](P I ) to get the menu on page 3.
AD ING
1
ENTER
AD ING
ADING
ENTER
AD TNG
1*21 keypreviously set is shown.
[ # • * * ■ » r iK O N ) key c r (F2](OFF) key, and i f c l^ X E N T E R ) key
MENU 3/3FI:PARAMETERS 1 F 2 :CONTRAST ADJ.
P i
PARAMLTERS 1 F1:M1N1MUM READING F2 : AUTO POWER OFF F 3 : TTLT
AUTO POWER OFF [OFF] F I : ON F2 :0FF
ENTER
U l£jv» *
[ Vertical and Horizontal Angle T ilt correction ( T ilt ON/OFF)(GTS-212/213 have vertical angle correction only)
sw the instrument is used in an unstable s tu itio n , constant indexing of vertical and angle may be impossible. In this case, the fu rction of tilt correction can be
I by selecting TILT OFF. It has oeen set to X ,Y (V/H) TILT ON at the factory, netting is memorized after powering off.
O perating procedure
pressing (MENU] key, press [F4](P J , )> to get the menu on page 3.
* IN ^ P F IJk e y
j; W W €*ta previously set is shown ^W<rilre*<iy ON, the d isp lay shows t ilt
4Sfr**<tion val ue.
♦ + *n If1 ](X-O N ) key or (F2](XY-O N) or key, and press (F4](ENTER) key.
O peration
(MENU]:F4]:f 4]
[F1]
IF1M F3 ][F4]
D isp lay
MENU 3/3F1 :PARAMETERS 1 F2:CONTRAST ADJ.
P i
PARAMLTERS 1 FI:MINIMUM READING F2 : AUTO POWER OFF F 3 :T IL T
T ILT SENSOR:[XY-0N ] X : 0 °02110”Y : 0 * 0 3 ’ 0 0 "
X-0N XY-0N OFF ENTER
6 SPfcOAl MODE (Menu Mode)
6.5 Setting Contrast o f DisplaySetting level lo r contrast of display (LCD)
O perating procedure O peration D isp lay
® A fter pressing [MbNU] key, press [F4](P J . ) key tw ice to get the menu on page 3.
& Press [F2] key
S ' Press [F1]( I ) key or [F2]( | ) key, and press [F4](ENTER) key.
(MENU][F4]IF4]
[F2]
[F1]or [F2]
IF4)
MENU 3/3 FI:PARAMETERS 1 F 2 : CONTRAST ADJ.
P i
CONTRAST ADJUSTMENT LEV EL : 4
; — ENTER
4ETFRS 1\ASJ ADJ
ling o ff the power, ensure that you are in the main menu screen or main rm n su rem en t mode.
i completion of the memory access process and avoids possible damage to Idata.
le n d e d for safety to charge the battery (BT-32Q) beforehand and prepare rcharged spare batteries.
'd a te of backup battery is set for 5-year duration at a lem perature of 20nC.I m ay be lost when the battery is out.
tfOOt lithium battery replaced at your dealer before the expiry date
w L ._____________________________________________
/K (Menu Mode) 7 DAI A COLLECTION
ADJUSTMENT
DATA COLLECTION (O n ly for GTS-211 D/212)
GTV 2 11 D/212 are able to store the measured data n the internal memory which is 'bylith ium battery.
[internal memory is shared by the measured data files and the coordinate data files I number of generated files is maximum 30.
id datacollected cata is memorized in a file
| n u m b e r o f measurement points | ‘|l»case not using the internal memory in layout mode)
GTS-211D,GTS-212
M AX. 2,000 points
■•ceuse the internal memory covers both data collection mode, and layout mode, the ’of measurement points w ill be decreased when the layout mode \i used
rthe internal memory, refer to chapter 9" MEMORY M ANAGERM ODE".
7 DATA COlLECTION
• Data collect menu operation3y pressing the (MENUj key, the instrument w II be in MENU 1/3 mode Press the [F1 ](DATA COLLECT) key, the menu of data collect 1/3 w ill be shown
Normal measurement mode
[MENU)
MENU F 1 :DATA COLLECT F2:LAYOUT F3:MEMORY MGR.
Selecting data collection fileSELECT A FILEFN: _________
ENTERINPUT L IS T
DATA COLLECT FliO C C .PT ft INPUT F2:BACKSIGHTF 3 : FS/SS
OCC.PT# INPUT
Setting occupied point
DATA COLLECTION MENU 1/3BACKSIGHT
Setting direction angle
Executing data collection
DATA COLLECT F I : SELECT A F IL E F 2 : CONV. TO NEZ F3:PCODE INPUT
> SELECT A FILE
File ca r be selected for Data collectDATA COLLECTION MENU 2/3
CONV TO NEZ
Conversion Meas. data file into Coord, data file
PCODE INPUT
Editing PCODE library
DATA COLLECT F l :C 0 N f IG .
♦ CONFIG
Setting Parameter of Data CollectDATA COLLECTION MENU 3/3
rA COLLECTION 7 DATA COLLECTION
Eft-------------------------------ration
p i t * : Selecting a F ile for Data Collection
v A fife used by data collection mode must be selected 9\ »rst-Z- I l f r n a file b e fo re beginning data collection mode because selection screen of a file is
4Nc**yed And a selection from data collection menu is possible in the mode.
O perating procedure D isp layO peration
MENUFI:DATA COLLECT F2:LAYOUT F3:MFM0RY MGR.
|* lK t> A TA C O LLEC T ) key from SELECT A F IL E FN:
INPUT L IS T ENTER
lyT X U S T ) key to display the list of AMIDAIA /M0123 HILDATA /M0345 TOPDATA /MO789 -- SR C H ---- ENTER
« * IH t b y pressing [ A ) or [ Y l key feet a file to use ^ 2),3 )
TOPDATA /M0789 RAPDATA /M0564 SATDATA /M0456 — SR C H ---- ENTER
I N m S M X O T E R ) key .
be set and data collect 1/2 be shown.
DATA COLLECT F1 :0CC .PT# INPUT F2:BACKSIGHTF 3 : FS/SS
flection want to make a new file or input file name directly, press [F1 ](lMPLJT) key and i f ? ffle name.
W *** a file has been selected already, mark is indicated on left o f current file name a file shown w th arrow can be searched by pressing (F2](SRC-i) key.
d for Data collect
DATA COLLECT r i :$ E L E C T A F IL E F2:CONV. TO NEZ F3:PCODE INPUT
h possible to select a file frorr DATA COLLECT 2/3 • W*t-Xr in the same way.
of Data Collect
7 DATA COLLECTION
7.1.2 Selecting a Coordinate File for Data CollectionWhen coord inate data in a coordinate data file are used fo r occupied point or; backsight point, select a coordinate file from the data collect menu 2/3 beforehand.
O p era ting procedure
(D Press [F1](SELECT A FILE) key from DATA COLLECT menu 2/3.
Z- Press [F2](COORD DATA) key.
3 Se lect a co o rd in a te f ile in the same manner as Chapter 7.1.1 "Selecting a File for Data Collection".
O peration
[F*.]
D isp lay
DATA C0LLEC1 2/3 FlrSELECT A FILE F2:C0NV. TO NEZ F3:PCODE INPUT Pi
SELECT A FILE FI:MLAS.DATA F2:CC0RD.DATA
SELECT A FIIE FN:____
INPUT LIST ENTER
7.1.3 Occupied Point and Backs ght Point
The occupied point and direction angle in the data co llect mode are linked w ith thej occupied point and direction angle in normal coordinate measurement It is possible to set or charge the occupied oomt and direction angle from the data collect: mode.
Occupied point can be set by tw o setting methods as follow.1) Setting frcpm the coordinate data stored in the internal memory.2) Direct key input.
The fo llow ing three setting methods for backsight point can be selected.1) Setting from the coordirate data stored in the internal memory.2) Direct key input of coordinate data.3) Direct key inputo f setting angle.
Note: See 9.4"Coordinate data direct key input" and 9 7 .2 "Loading data'1 for how to store coordinate in the internal memory.
• Exam ple for setting the occupied point:in case of setting occupiec point from the coordinate data stored in the internal memory.
O pera ting procedure
<D Press [FIKO CC .PT# INPU~) key from the data collect menu 1/3.The previous data is shown.
© Press [F4J (OCNEZ) key
O peratio n
[F1]
(F4]
D isp lay
PT# >PT-01 ID :INS.HT: 0.000 it. INPUT SRCH RFC OCNLZ
OCC.PT PT#:P T - 0 1
INPUT LIST NEZ ENTER
COLLECTION
■Si7 DATA COLLECTION
>ccupied point o r,3 beforehand.
? linked w ith the
m the data collect
la ta “ for how to
d in the internal
IT) key
■r# . press [F4](ENT) key. 1)
^WS.HT in the same w ay. 2),3)
I key.
5 ) key.returns to the data collect
[F1]
Enter P T#|F4]
Enter ID, INS.HT
[F3]
IF3]
OCC.PT PT#=PT-01
1234 5678 9 0 .- [EN T]
P T# -*P T-11 ID : I N S .H T : 0 .0 0 0 m INPUT SRCH REC 0CNEZ
PT# : P T - l l ID :INS.HT-* 1 .335 m INPUT SRCH REC CCNEZ
> REC ? [Y E S ][N 0 ]
DATA COLLECT 1/3F I :0 C C . PT# INPUT F2 :BACKSIGHr F 3 : FS/SS P i
►Chapter 2.5 "How to enter alphanumeric characters”'.by inputting a register number linked w ith PCODE Library,
►list o f PCODE library, p'ess the [F2](SRCH) key EC) key when you do not input the INS.HT.
irecorded in data collect isP T # , ID and INS.HT.Print<snot found in internal memory "PT# DOES NOT EXIST" is displayed.
—
■ P E ® .
w
W \
m d
7 - 5
7 DATA COLLECTION
DisplayOperationO peratng proceduie
BS#PCODE :R . HI : 0 . 0 00 m INPUT SRCH MEAS BS
BACKSIGHTPT#:
INPUT L IS T NF/AZ ENT
• Example for setting the cirection angle:
The follow ing is to memorize the data of the backsight otter setting the backsight point from point number.
•CD Press [^ (B A C K S IG H T ) <ey from the data collect menu 1/3.The previous data is shown.
■Z Press [p4] (BS) key * 1 )
& Press (F1 J(INPUT) key.
& Enter PT# , pres* [F4](ENT) key, * 2 )
En ter PCO D E,R .H T in the sam e w ay. X 3),4)
© Press (F3](MEAS) key.
■© Collimate back sight point.Select one of the measuring mode and press the soft key.EXAMPLE : [F2]{Slope Distance) key. M easjring startsH o rizo n ta l c irc le is set to calcu lated direction angle.Measuring result is memorized and the display returns to the data collect menu 1/3.
Enter PT tt [F4]
Collimate[F2]
BACKSIGHT PT #=
1234 5678 9 0 .- [EN T]
V : 9 0 °0 0 ’ 00"HR: O'OO'OO" SD • [ n ] « < m — — — SET
+DATA COLLECT 1/3
F l:O C C .P T# INPUT F2:BACKSIGHT F 3 :F S /S S P |
?K1) Pressing each time [F3] key, the input method changes as Coordinate v a l je , Angle, Coordinate point name alternatively.
* ;2 ) Refer to Chapter 2 .5"H ow to enter alphanumeric characters.^ 3 ) PCODE can be input by in p jtt in c a register number linked w ith PCODE Liorary.
To snow the list of PCODE library, press the [F2](SRCH) key.* 4 ) Data collect sequence set to [EDIT—>IV1EAS]. Refer to Chapter 7.4 "Setting parameter of
data co llect".
• If point is not found in internal memory " PT# DOES NOT EXIST"is displayed.
BS# »PT-22PCODE *R.HT : 0 . 0 0 0 mINPUT SRCH MEAS BS I
BS n ->PT-22PCODE :R.HT : 0 . 0 0 0 m*VH SD NEZ —
n t rC*
COLLECTION
DisplayOperation
DATA COLLECT F1 :0C C .PT# IMPUT F2:BACKSIGHT F 3 : FS/SS
NE/AZ ENT
3 parameter of
:ing the backsight]
< « m
¥ INPUT
7 DATA COLLECTION
tional Procedure of “ DATA COLLECT'
I p rocedure
SS5&m -
>S) key ffom the data collect
is shown.
IT) key, and enter PT# >*• 1)
M & w m
E, R.HT in the same way.
kS) key
'target point
fo f fF IJ to [F3] key * 4 ) ; fP2)(SD) key.
isU rts .
data is m em orized and i * * * * * * * * changes to the next point.
i d i mtically incremented
■fa. iM fcr tfc# next point data and collimate : point
L )ke y .•Marts in the same measuring
tfc* previous point MKOrded.
(F11 Enter PT#
[F4]
EnterPCODF
[F4]ft.HT[F4]
[F3]
Collimate
[=2]
Collimate
PCODE :R.HT : 0 .0 0 0 m INPUT SRCH MEAS ALL
PT# - PT-01 PCODE :R.HT : 0 .000 m 1234 5678 9 0 .- [EN T]
PT# : PT-01 PCODE -»R.HT : 0 .000 m INPUT SRCH MLAS ALL
PT# -.PT-01 PCODE : TOPCON R.HT : 1 .200 m INPUT SRCH MEAS ALL
VH *$D NEZ OFSET
V : 9 0 °1 0 ’ 20" HR: 120°30 ’ 40" S D *[n ] <j M easu ring . . .
< completo )
PT# -.PT-02 PCODF :R.HT : 1 .200 m INPUT SRCH MEAS ALL
V : Q S ’I O ^ O "HR: 123°30 '4 0 ” SD *[n J ( m> M e a s u r in g .. .
< com plete >
O pera ting procedure
CD W h ile executing the DATA CO LLECT mode, press IF2](SRCH) key. % 1}
The using file n^me w ill appear on the top of the right side of the display.
Se lect one o f 3 search m ethods by pressing one of [F I ] to [F3] key. &2)
O peration D isp lay
PT0 .PT-02 PCODE :R .HT : 1 .2 0 0 m INPUT SRCH MEAS ALL
SEARCH [TOPCON] F I :F IR S T DATA F 2 : LAST DATA F3 :PT# DATA
& 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 inform ation, refer to Chapter 9.2 "Searching Data".
7 D A ' A COLLECTION
Searching the recorded dataW hile executing the DATA COLLECT mode, you car search the recorded data
Continue the measuring in the same To finish the mode , press [ESC] key.
5K 1) Refer to Chapter 2.5 'How to en*.er 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 set to [EDIT-»MEAS] Refer to Chapter 7.4 "Setting parameter of
data co llect".•&4) The mark indicates the previous measuring mode.
5) You can confirm the measured data as follows Refer to Chapter 7.4 " Setting Parameter of Data Collect ICONFIG]'.
PT# *PT-03 PCODE :R.HT : 1 .200 m INPUT SRCH MEAS ALL
O perationprocedure
procedure
PT# : PT-02PCODE : TOPCONR.H T 1 .2 0 0 mINPUT SRCH MEAS ALL
PT# : PT-02 PCODE =32 R .HT : 1 .2 0 0 m 1234 5678 9 0 .- [EN T ]
PT# : PT-02PCODE : TOPCONR.HT 1 .2 0 0 mINPUT SRCH MFAS ALL
PT# : PT-02 PCODE -*R.HT : 1 .2 0 0 m INPUT SRCH MEAS ALL
- 0 0 1 :PCODEOl 0 0 2 :PCODL02
ED IT — CLR ENTER
0 3 1 :PCODF31 - 0 3 2 :TOPCOW
0 3 3 :HILTOP ED IT — CLR ENTER
PCODE/ID from the list of PCODE•k o enter PCODE/iD from the list of PCODE.
)3
. .2 0 0 m MEAS ALL
i data.
[TOPCON]ATATAA
7 DATA COLLECTION
[fiCntering PCODE/ID using PCODE LibraryExecuting the DATA COLLECT mode, you cart enter PCODE/ID from PCODE
OLLFCTION
■t. ■
ting Parameter
12
.200 m MEAS ALL
O peration D isp lay
PCODE library, press the [F 1 )(tD iT) key.k t PCODE registered w ith shown an arrow , press the [F3](CLR) key. be edited in DATA COLLECT menu 2/3 or MEMORY MANAGER menu 2/3.
3 parameter of
[AUTl.
PT# : PT-02 PCODE -R .H T : 1 .2 0 0 m INPUT SRCH MEAS ALL
to the PCODE or ID in the CDtXjECT m ode, press (F2](SRCH)
the fo llo w in g keys , the will increase or decrease
: Increasing or Decreasing one by one
:• * ten Increasing or Oecreasing 5K1)
Enter No. [FA]
to the PCODE or ID i n the mode, press (F 1 KlNPUT)
* reg ister num ber lin<ed w ith and press [F4](EN~) key
. 32 = TOPCON
7 DATA COLLECTION
t Data Co llect • O ffse t M easurem ent m odeThis mode \i useful w hen it is d ifficult to set up the prism directly, for example at the center of o tree Data Collect • Offset Measurement has tw o measu'ing methods.
• Angle offset measurement• Distance offset measurement
7.3.1 Angle Offset MeasurementPlace the prism at the same horizortal distance from the instrument as that of point A<) to measure.
When measuring coordinates of ground point A i •.Set the instrument height / prism height.
When measuring coordinates of point A 0 : Set the instrument height only. (Set the prism height to 0 )
Prism P Distance is measured to tne prism and then the telescope is turned to the required po int. The measured distance is used to calcu late position depending on the horizontal a^d vertical angles turned away from the prism.
Prism he ght
Instrument height
Occ Point
O perating procedure O peration D isp lay
PT# -.PT-11 PCODE : TOPCON R.HT : 1 .200 m INPUT SRCH MFAS ALL
d ) Press IF3](M EAS) key VH *SD NEZ OFSET
OFFSET-MEASUREMENT F1:ANG. OFFSET F 2 : D IS T . OFFSET
'Z Press (F4)(OFSET) key
OFFSET-MEASUREMENT HR: 120°30 ’ 40"SD: m
> Sight ? [YES]fN O ]
<3) Collimate the prism
7 DATA COLLECTION
it o f point A0 to
i l A n : Set. the height to 0 ).
I key. [m easuring starts
®v;.'
Hr,
point Ao using the horizontal and horizontal tangent
tal distance of point Ap.
1 elevation of point A ..
P * i n g ( 4 ] key, horizontal elevation and slope
flhow n in sequence
rte o f point Ao or A t
[ k .J key, N,E and Z __ fjhow n in sequence
8 K &B e * .I key.
> t f K * es re co rd e d and the r e x t lent »s displayed
[F3]
Collimate A0
[ * 1
[ S ]
1^1
[=31
OFFSET-MEASUREMFNT HR: 120°30 ’ 40" SD *[n ]
M e a su rin g - • •------------ ~ T~
m
OFFSET-MFASUREMENT HR: 120°30 ’ 40”SD* 12 .345 m
>0K? [Y E S ][N 0 ]
OFFSET-MEASUREMENT HR: 125°40 ’ 50”SD: 12 .345 m
>0K? [Y E S ][N 0 ]
OFFSET-MEASUREMENT HR: 120°30 ’ 40"HD: 6 .543 m
>0K? [Y E S ][N 0 ]
OFFSET-MEASUREMENT HR: 120°30 ’ 40"VD: 34 .567 m
>0K? fY E S ][N 0 ]
OFFSET-MEASURFMFNT HR; 120°30 ’ 40”N : -1 2 .3 4 5 m
>0K? [Y E S ][N 0 ]
P I# -vPT-13PCODE :R.HT : 1 . 2 0 0 mINPUT SRCH MEAS ALL
7-11
7 D A TA COLLECTION
7.3.2 Distance Offset MeasurementThe measurement of a place apart from a prism is possible by inputting offset horizontal distance of front and back / right and left.
----------- Forward HDoHDsign f l j
Prism height
Prism P
Instrument height
W hen measuring coordinates of ground point A , : Set the instrument height / prism height
W hen measuring coordinates of point A0 Set the instrument height on'y (Set the prism height lo 0 ).
Operating procedure O peration D isp lay
PT# -»PT-11 PCODE : TOPCON R.HT : 1 .200 m INPUT SRCH MEAS ALL
<D Press (F3](MEAS) key. HD NEZ OFSET
OFF SET-MEASUREMENT FlrANG. OFFSET F ? : U IS T . OFFSET
© Press [F4)(OFSEH key
DISTANCE OFFSET INPUT RorL HD
oHD: m INPUT — SKP ENTER
'3 Press [F2] key.
DISTANCE OFFSET INPUT FORWARD HD
oHD: mINPUT - - - SKP ENTER
® Press [F1 j(INPUT) key and enter Right and Left direction offset valueM 1)
o rfF3 ] key |F5KHCZ)key I starts.
log, press [F3](SKP) key
H re co rd e d and th e next I po int is displayed.
C a lcu la tin g • • •
PT# -»PT-13PCODER.HT : 1 . 2 0 0 mINPUT SRCH MEAS ALL
ght / prism height,
fight only. (Set the
''V T A COLLECTION
[F11 Enter HD
[F4]
Collim ate P
T - l l OPCON
1.200 m CH MEAS ALL
NEZ OFSET
EASURLMENT OFFSET
. OFFSET
OFFSET DrL HD
m• SKP ENTER
OFFSET IRWARD HD
ENTER
7 DATA COLLECTION
ting offset horizontal
J HD
5 RorLHD•• ►
Z : m>Measuring *••
IT) key and enter Forward :va lue . 1)
prtsm
O peration
7 DATA COLLECTION
7 .4 Conversion Meas. Data File into Coord. Data File [CONV. TO NEZ]
An existing measured data file in internal memory can be converted into Coordinated
data file
O pera ting pro<edure D isp lay
<2> Press [F2](LIST) key to display the list of file . /K 1)
■2$ Scroll file list by pressing [ A) or [▼ ] key and select data file to convert.*21 ,3 )
(Ac> Preft (F4] (E NT E R) key.
P ress [ F 1 ] ( I N PU T ) key and e n te r Coordinate File Name.Press (F4](ENT) keyThe display returns to the menu 2/3.
A ]o r|Y I
IF1]Enter I N
[F4]
AMIDATA /M0123-.•HILDATA /M034&
TOPDATA /MO/89---- SRCH ---- ENTER
TOPDATA /M0789- RAPDATA /M0564
SATDATA /M0456---- SRCH ---- ENTFR
COORD. F IL E NAMEFN:
INPUT — - - - ENTER
1) If you w ant to input file name directly, press [F1](INPLT) key and enter a file name2) When a file has been selected already, mark is indicated on left of current file name.
SK3) Data in a file shown w ith arrow can be searched by pressing (F2](SRCH) key
{£ Press [F21 (CONV. TO NEZ) key from the data collect menu 2/3
DATA COLLECT 2/3 F1:SELECT A F IL E F2 :CONV. TO NEZ F3 : PCODE INPUT P i
MEAS.FN:
F IL E NAMF.
INPUT L IS T — ENTFR
7 -1 4
7 .5 NE2 Auto CalculationAs measured data is collected, coordinates are calculated and stored for traverse or :opfi collection. Autom atic making out funct on of coordinate data sets up in CONFIG of data collect. Refer to Chapter 7 .7"Setting Parameter of Data Collect [CONF G .]" .As a default, coordinate data calculated w ill be saved in a file of the same name as thj measurement data file.When the coordinate data fi.e of the same name as the measurement data file does n< exist, it w ill be generated automatically.It is possible to change a file for saving coorcinate data in the DATA COLLECT Menu 21 (F1:SELECT A FILE).To calculate a coordinate data, it is necessary to add a point number in Data Colle< execution.When a coordinate data of the same point number exist already, it can be replaced wi1 the new data by confirming display.
7 DATA COLLECTION:0LLECTI0N
g PCODE Library [PCODE INPUT]i be entered intoPCODE Library in this mode.
w ith a nuTiber of 1 to 50. ib e«h o edited in MEMORY MANAGER menu 2/3 in the same way
i into Coordinate
D isp layO perationprocedure: t 2/3 A F IL E
10 NEZ INPUT P i
DATA COLLECT F I : SELECT A F IL E F 2 : CONV. TO NEZ F3:PCODE INPUT
INPUT) key from Data- 0 0 1 :TOPCON
0 0 2 :TOKYO EDIT — C
ENTER
/M0123/M0345/M0789
011=ITA3AS - 0 1 2 :AMIDAT
0 1 3 :H ILLT0 EDIT — - C
| tt»e fo llow ing keys, the list t o i decrease: Increasing or Decreasing one pbjroneS l y te n In c re a s in g or J': 'Decreasing.
ENTER
/M0789/M0564/M0456
EN TER011=ITABAS
-012=AMIDAT 0 1 3 :HILLTO
1234 5678 90ENTER T r te r PCODE
[F4]end press [F4](ENT) key. 1) 011=ITABAS —012=AMISUN
0 1 3 :HILLTO ED IT - - - C
file name.•ent file name. 2.5 "How to enter alphanumeric characters
or traverse or topo in CONFIG of data
same name as the
COLLECT Menu 713
er in Data Collect
an be replaced with
7.7 Setting Parameter of Data Collect [CONFIG.]In this mode, the follow ing settings of data collect mode are possible
• Setting Items
How to Set ItemsExample Setting: DATA CONFIRM : YES
7 D M A COLLECTION
M enu Se lecting Item s Contents
F1 :DIST MODE FIN E.'CRS(l)/CRS(10)
Selec'. Fine/Coarse(1)/Coarse(lO) mode in distance m eaSJrem ent mode.The unit to be displayed is as follows.Fine mode, tmm Coarse (1) mode: 1mrr,Coarse (10) mode: 10mm
F2:HD/SD HD/SD Select the distance measurement mode Horizontal Distance or Slope distance.
F3 :M cAS. SEQ. N-TIMES / SINGLE/REPEAT
Select to set measurement mode for' distance measurement.
F1:DATA CONFIRM v ES/NO It is possible to confirm the result o f measuring data before the data is recorded
F2:COLLECT SEQ. [EDIT—*MEASJ/ I [MEAS—*EDIT1 !
Select the procedure of data collection.[EDI r-*M EAS]:M easurem ent iscarried o utafte r entering other data.[MEAS-^cDIT] M easurem ent is carried out before entering other data. j i
F3 :N EZA U T0 CALC. | ON/OFF It is possible to calculate coordinate value of data collectec and store it into coordinate data file in every data collection. )
O perating procedure Operation Display
DATA COLLECT F I .-CONFIG.
3/3 j
p 4 ;
CD Press [F1] (CONFIG.) key from the data collect menu 3/3 The CONFIG menu l/2 isshow n.
IFt] CONFIG.F I :D IS T MODE F2:HD/SD F3:MEAS. SEQ.
1 / 2
P i<Z> Press [F4j (P J , ) key to display the CONFIG
menu 2/2.: f 4] CONFIG. 2/2
FI:D ATA CONFIRM F2:C0LLECT SEQ.F 3 : NEZ AUTO CALC. P T
Press [F1] (DATA CONFIRM) key.[ ] indicates the current setting.
[F I] DATA CONFIRM F I : YES
[F2 :N 0 ]ENTER
® Press (F1] (YES) key
& Press [F4J (ENTER) key
[F I]
[F4]
DATA CONFIRM [T l :Y E S J
F 2 : NOENTER
* TA COLLECTION8 LAYOUT
ode in distance
►de Horizontal
iYOUT^tfTmode has tw o functions which are setting of layout points and se lling new points
_____ Itedata in the internal memory.[ f t * * c o o rd in a te data is not stored in the internal memory, this can be input from key
teddta is loadec from PC to th e internal memory via RS-232C. fcoordinate data
Inatedata is memorized in a file IfeinCemal memory, refer to chapter 9 "MEMORY MANAGER MODE".
1*212M1CY212 are able to store the coordinate data in the internal memory which is
iby lithium battery.Ifemat memory is shared by the measured data and the coordinate data for layout.
Inum ber o f generated files is maximum 30.Fnumber o f coordinate data
inot using the internal memory in the data collect mode)
M AX. 4,000 points
the internal memory covers both data collection mode, and layout mode, the 'coordinate data w ill be decreased when the data collection mode is used
i turning o ff the power, ensure that you are in the main menu screen or main ► measurement mode,
t fm u re s completion o f the memory access process and avoids possible damage fttoreddata .
imended for safety to charge the battery (BT-32Q] beforehand and prepare rcharged spare batteries
respired date of backup battery is set for 5-year duration at a temperature range r a r e The data may be lost when the battery is out.
! your lithium cattery replaced at your dealer before the expiry date,i recording new point data, remember to consider the amount of internal
> available
Inym ber of generated file-; is maximum 15
h I f MAX
M m -
nate data stored in the internal memory w ill memorized for about 2 hours jfW rta k in g out the battery (BT-32Q).
j J t t W **«i turning o ff *.he power, ensure that you are in the main menu screen or main • ft f fe measurement mode.m * ensures completion o f the memory access process and avoids possible damage
Stored data.W _ ,• * * recommended for safety to charge the battery (BT-32Q) beforehand and prepare
M l f chargee spare batteriesrecommended to in itialize the internal memory before using if the battery is
^ ch a rg e d completely or the battery was removed for a long period, fettaries are charged at tim eo f shipping, but they may bedischarged by the tim eof
’ <e**ery to customers It is recommended to in itialize the memory before using 'When recording new point data, remember to consider the amount of internal awm ory available
----
8-1
8 LAYOUT
Layo u t m enu operationBy pressing the [MENU] key, the instrument w ill be in MENU 1/3 mode Press the (F2](LAYOUT) key, the menu of layout 1/2 w ill be shown.
Normal m easurenent mode
IMkNUl
MENU F I : DATA COLLECT F2:LAYOUT F 3 : MFMORY MGR.
Selecting a file for LAYOUT [F1](INPUT) : Input a n e w file name.[F2HLIST) : Seek for a file[F3](SKP) : If you do not wont to create or re-
select a fik-(F4](ENTER) : To select display file.
OCC.PT INPUT ______
SELECT A F IL E FN :____________
INPUT L IS T SKP ENTFR
[F3]/[F4]
LAYOUT F I;O C C .P T INPUT F2:BACKSIGHT F3:LAYOUT INPUT L IS T NEZ ENTER
BACKSIGHTLAYOUT MENU 1/2BACKSIGHT
P T # :______
INPUT L IS T NE/AZ ENT
DATA INPUTLAYOUT
PT0;
INPUT L IS T NEZ ENTER
LAYOUT F I : SELECT A F IL E F2:NEW POINT F3 :G R ID FACTOR
SELECT A F IL E FN:
INPUT L IS T ENTER
LAYOUT MENU 212 NEW POINT
NFW POINT F I :S ID E SHOT F2:RESECTION
GRID FACTOR
GRID FACTOR * 1.000000
>MODIFY? [Y E S J[N 0 ]
LAYOUTLAYOUT
ration«tting the GRID FACTORlutotion Formula Otion Factor
H Ii : The average radius of the earth
m an Factor + ELKV. ELEV. : The elevation above mean sea level
* FactortFa cto r : Scale Factor at the. surveying station I FactorFactor = Elevation Factor X Scale Factor(CalculationDistance
H D g : Grid distance
HD : Ground distancefTDxGrid Factor
9 G ro u n d Distance
BD=___ UL^B E a te S * .’-: G r i d F ac tor
• How to Set G r i d F a c t o r
D isp layO perationO pera ting procedure
LAYOUT F I : SELECT A F IL E F2:NEW POINT F3 :G RID FACTOR
PF3KGRID FACTOR) key from the 'topourt menu 2/7
GRID FACTOR ■0.998843
>M0DIFY? [Y E S ][N 0 ]
tH K Y E S ) key GRID FACTOR ELEV . -*1000 m SC A LE :0 .999000
INPUT — - - - ENTER
i f |F 1J (IN P U T ) k e y and e n te r ; 0M 6o n . X I ) Press (F4](ENT) key
a?* . *&■fcjc
S t*m r Scale Factor i n the same way
(F1)E rte r ELEV.
[F41 GRID FACTOR E L E V .:2000 m SC A LE-1 .001000
INPUT — - - - ENTER
GRID FACTOR =1.000686Factor is displayed for 1 to 2 second
a rd display returns to Layout menu 2/2
P 9 H *H e r to Chapter 2 5 "How to enter alphanumeric characters".Range : Elevation : - 9,999 to + 9.999 meter ( - 32,805 to * 3,2805 ft, ft + in)
Scale Factor: 0 990000 to 1.010000
8 LAYOUT
8.1.2 Selecting Coordinate Data FileYou can execute a Layout from selected coordinate data file , also you can record Nev point measured data ir.to the selected coordinate data file.• The only coordinate data file existing can be selected and you can not make a ne*
file in this mode. For more information about File, refer to Chapter 9 "MEMORY MANAGER MODE*.
• W hen _AYO JT MODE is begun, a file can be selected in the same way
O perating procedure
0 Press [F1)(SELECT A FILE) key from the Layout menu 2/2.
2 : Press [F2](LIST) key to display the list of coordinate data file . 1)
$ Scroll file list by pressing [ A] or [▼ ] key and select a file to use 5K2),3)
$ Press (F4KENTER) key. The file w ill be se t .
O peration
[F I]
[F2]
[F1|
IF4]
D isp lay
LAYOUT 2/2 F I : SELECT A F IL E F 2 : NEW POINT F 3 : GRID FACTOR P i
SELECT A F IL E FN :___________
INPUT L IS T — ENTER
COORDDATA /C0123 -♦TOKBDATA /C0345
TOPCDATA /CO739 ---- SR C H ---- ENTER
•TOKBDATA /C0345 - TOPCDATA /C0789
SATIDATA /C0456 ---- S R C H ---- ENTER
LAYOUT 2/2F I : SELECT A F IL E F2:NEW POINT F3 :G RID FACTOR P i
& 1) If you w ant to input file name directly, press [F1 ](INPUT) key and enter a file ram e.3K2) W hen a file has been selected a lready ,'* ' mark is indicated on left of current filenam e.
For the file discrimination mark (*,© ,& ), refer to Chapter 9.3 "FILE MAINTENANCE". JK3) Data in a file shown w ith arrow can be searched by pressing (F2](SRCH) key.
8 LAYOUT8 LAYOUT
a .1 .3 Setting Occupied PointH
Occupied point can be set by two setting nethods as follow1) Setting from the coordinate data stored in the internal memory.2) Di rect key i nput of coordinate cata.
Iff; • Exam ple setting : Setting the occupied ooint from the internal coordinate data file
'Ou can record New
an not make a new lapter 9 "MEMORY
D isp layO pera ting procedure O peration
& * r « s (F1](O CC.PT INPUT) key from the £ L»yout menu 1/2.< The previous data is shown.
2/2T A F IL E OINTFACTOR P i
TNPUT L IS T NFZ ENTER* *ness[F1] (INPUT) key
9 Enter PT# , press (F4](ENT) key * 1 )ENTER EnterPT# INSTRUMENT HEIGHT INPUTIN S .H T : 0 .000 m INPUT - - - — fE l
•TA /C0123 A /C0345 A /C0789
ENTER 1234 5678 90Enter INS.HT in the same way. Enter INS.HT
A /C0345 A /C0789 A /C0456
LAYOUT F1 :OCC. PT INPUT F2:BACKSIGHT F3:LAYOUT
The display returns to layout menu 1/2
ENTER
2/2T A F IL E DINTrACTOR P 4
t) Refer to Chapter 2.5 "How to enter alphanumeric characters'
file name ent file name TENANCE".
8 LAYOUT
Example setting: Sett ng Instrument pcint coordinates directly
D isp layO perationO p era ting procedure
•CO °ress (F1KO CC.PT INPUT) key from the Layout menu 1/2.The previous data is shown. INPUT L IS T NEZ ENTER
■2' Press (F3] (NEZ) key0 . 0 0 0 m 0.000 m 0.000 m
PT* ENTERINPUT•3' P re ss [ F 1 ] ( l NP U T ) k e y an d e n te r
coordinate value .PressIF4HENT) key. * 1 ) ,2 )
Enter coord
COORD.DATA INPUT PT#: ______
INPUT ENTER
[F i] Enter PT*
(F41Press IF 1 ](INPUT) key and enter PT# Press (F4 ](iN T) key. 3*2) INSTRUMENT HEIGHT
INPUTIN S .H T : 0 .000 m INPUT — — ENTER
<S' Enter INS.HT in the same way
LAYOUT F 1 :OCC. PT INPUT F 2 : BACKSIGHT F3:LAYOUT
thed isp lay returns to layout menu 1/2.
iSS 1) Refer to Chapter 2.5 "How to enter alphanumeric characters".JK2) It is possible to record the coordinate value. Refer to Chapter 16-"SELECTING MODE
8 LAYOUTLAYOUT
.1.4 Setting Backsight Point
: The fo llow ing three setting methods for Backsight point can be selected.1) Setting from the coordinate data file stored ir the internal m enory .2) Direct key input of coordinate data.3) Direct key input of setting angle.
• Example setting: Setting the backsight point from the internal coordinate data fileEZ ENTER
>0 m >0 m i0 mT# ENTER
O pera ting p rocedure O peration
BACKSIGHT P T # :______
r m s JF2 ](B A C K S IG H T) key from the la y o u t menu 1/2.
INPUT L IS T NE/AZ ENT
$ * * w [F 1 ]( IN P JT )k e y BACKSIGHTPT#=BK-01
ENTER
3 CnterPT# , press [F4](ENT> key. * 1) Enter Pty BACKSIGHT H{B)= 0 °00 '00
[Y E S ][N 0 ]
% V g h t the backsioht p o in t and press fe V jn K Y E S ) key.
display returns to the lavout menu3-V. 1/2.
*efer to Chapter 2.5 "How to enter alphanumeric characters
- • W ith each press of [F3] key, J* method of inputting backsight . h changed.
10DE
BACKSIGHTPT#:
INPUT L IS T NE/AZ ENT
[F3](NE/AZ)
0 .0 0 0 m 0 .0 0 0 m 0 .0 0 0 m - AZ ENTERINPUT
|F3](AZ)
BA C K S IG H THR:
INPUT PTU ENTER
(F3](PT #)
:
m
8 LAYOUT
Example setting: Setting the backsight point coordinates directly
O pera ting p roc«dute O peration D isp lay
CD Press [F2 ](B A C K S IG H T) key from the Layout menu 72.The previous data is shown
>Z Press (F3](NE/AZ) key
P ress [ F 1 ] ( IN P U T ) key a^d e n te r coordinate va'ue.Press [F4](ENT) key * 1 ) , 2 )
S ' Press (F1](INPUT) key and enter PT-#. Press [F4)(ENT) key. 1)
IF1]trvter coyro
[F4]
BACKSIGHTPT#:
INPUT L IS T NE/AZ ENT
NE :Z •
INPUT
0 .0 .0 .
0 0 0 m 0 0 0 m 0 0 0 m AZ FNTER
COORDPT#:
DATA INPUT
INPUT ---- — - INTER
■S' Sight the backsight point.
© Press (F3](Y£S) key.
(FI ]En te r PT#
[F4]
Sight BK
[F3]
BACKSIGHT H(B)= 0 o0 0 ’ 00"
)S ig h t ?
ir
The display returns to the layout menu1/ 2 .
& 1) Refer to Chapter 2.5 "How to enter alphanumeric characters".^ 2 ) I*, is possible to record the coordinate value. Refer to Chapter 16 "SELECTING MODE'
8 LAYOUTLAYOUT
Executing a LayoutThe fol lowing rr ethods can be selected for executing a Layout:1) Recalling points from internal memory by point number.2) Direct <ey input o coordinate values.
Example setting : Recalling point from internal memor/.NE/AZ ENT
O p era ting procedure D isp layO peration
000 m 000 m 000 m AZ ENTER
LAYOUT F I : OCC. PT INPUT F2:BACKSIGHT F3:LAYOUT
INPUT LAYOUTP T # :
& Press [F3](LAYOUT) key from the layout K menu 1/2.
ENTER INPUT L IS T NEZ ENTER
; Press [F1](INPUT) key, and enter PT* * 1) Press [F4](ENT) key
[F I]Enter PT#
[F4] REFLECTOR HEIGHT INPUTR.HT : 0 .000 m INPUT — - - - - ENTER
[Y E S ][N 0 ]
[FI]Enter R.HT
[F4]
H Enter reflector height in the same way
INPUT4T
CALCULATED HR= 9 0 °1 0 '20 " HD= 123.456 m
ANGLE D IST — - -
W h e n the la y o u t p o in t is s e t , tne-.instrument w ill start layout calculation. i HR: Calculated horizontal angle of the
layout point ;H D : C a lcu la ted h o r izo n ta l d istan ce
from the instrument to the layout point
C o llim a te th e p rism , and press the£ I f 1KANGLE) key.
H R : M easu red (A c tu a l) h o r iz o n ta l angle.
f t f H R : Horizontal angle to be turned to th e la y o u t p o in t = A c tu a l h o rizo n ta l an g le - Ca lcu la ted
Bk |? horizontal angleC orrect d irec tio n w hen dHR =
fk - 0*00*00"
CollimateMODE
8 LA YO U TS
•S' Press the (F1](DIST) key.HD: M easu ring (A c tu a l) h o rizo n ta l
distancedHD: Horizontal distance to be turned to
th e la y o u t p o in t = A c tu a l horizontal distance - Calculated horizontal distance.
dZ: Vertical distance to be turned to the layout point = Actual vertical d istance - C a lcu la ted v e rt ica l distance. ->K2)
:S Press (F1](MODE) key.The fine mode measuring starts
Cft When the display vaiue dHR, dHD and dZ a re equa l to 0 , the layou t p o in t is established.5* 3)
Press [F3](NEZ) key.The coordinate data is shown
Press (F4](NEXT) key to set next layout p o in t.PT# is autom atically incremented.
(F1 ]
(F I]
[F3]
[F4]
H D *[t] < m dHD: m
dZ: mMODE ANGLE NEZ NEXT
1HD* 143.84 m
dHD: - 4 3 .3 4 mdZ: -0 .0 b m
MODE ANGLE NEZ N LX I
HD* [ r ] < mdHD: m
dZ: mMODE ANGLE NEZ NEXT
IHD* 143.845 m
dHD: -0 .0 0 5 m dZ: -0 .0 4 5 m
MODE ANGLE NEZ NEXT
N * 100.000 m E : 100.000 tn Z : 1 .015 m
MODE ANGLE - - - NEXT
LAYOUT PT ft: LP-101
INPUT L IS T NEZ ENTER
S£1) Refer to Chapter 2.5 "How to enter alphanumeric characters".JK2) Cut & Fill displaying function isavailab le Refer to Chapter 16 "SELECTING MODE'•*•3) Press (F2KANGLE) to display dhR.
8 - 1 0
8 LAYOUT
8.3 Setting a New PointNew point is required for example when a layout point cannot be Sighted from existing 1 control points.
8.3.1 Side Shot MethodSet up the instrum enta l a known point, and measure the coordinate of the new points J by the side shot method
O p era tin g procedure O peration D isp lay
LAYOUT 1/2 F 1 :OCC. PT INPUT F2:BACKSIGHT F3:LAYOUT P ;
CD Press IF4J(P I ) key from the layout menu 1/2 to get the layout menu 2/2.
[F4] LAYOUT 2/2 F I : SELECT A F IL E F2 : NEW POINT F 3 : GRID FACTOR P 4
Z Press (F2](NEW POINT). [F2] NEW POINT F1 :SIDE SHOT F 2 : RESEC TION
Z Press [F1)(SIDE SHOT) key. [F1] SELECT A F IL E FN:
INPUT L IS T ---- ENTER
Press [F2](LIST) key to display the list of coordinate data file 5K1)
[F2] COORDDATA /CO123 —*TOKBDATA /C0345
TOPCDATA /C0789 ----SR C H ------- ENTER
8 LAYOUT
-0 |S c ro ll file list by pressing [ A ] or [▼ ] key & and select a file to use. % 2),3)
TOKBDATA /C0345 TOPCDATA /C0789 SATIDATA /C0456 — SR C H ---- ENTER
ihted from existing
; o f the new points# Press (F4](ENTER) key.
; ; The file w ill b e s e t .
INPUT SRCH ENTER® Press (F 1 )(INPUT) key, and enter the new & . point name. 58 4)W -y : Press [F4](ENT) key.
1234 5678 90
REFLECTOR HEIGHT INPUTR.HT : 0 .0 0 0 m INPUT — - - - ENTER
New Point
[F I] Enter R.HT
[F4]
Sp . Enter reflector height in the same way
REFLECTOR HEIGHT INPUTR.HT : 1 .235 m >S ig h t ? [Y E S ][N 0 ]
CollimateC o llim ate the n ew p o in t , and press
H IF3KYES) key. k' Distance measuring starts
)Measuring
< complete >
INPUTHT
1 2 3 4 .5 6 7 m 1 2 3 .4 5 6 m
1 .2 3 4 m [ Y E S ] [ N 0 ]
• Press [F3](YES> key.m The nam e and co ord inate va lu e are
stored, n COORD. DATA, v. The input menu fo r next new point is
s ' . displayed g PT# is autom atically incremented
INPUT SRCH ENTER
1) If you w ant to input file name directly, press [F1 ](INPUT) key and enter a file name.2} W hen a file has been selected already, mark is indicated on left of current file name I For the file discrim ination mark (*,@ ,&), refer to Chapter 9 3 "TILE MAINTENANCE".
Data in a file shown with arrow can be searched by pressing [F2|(SRCH) key 4 Refer to Chapter 2 5 "How to enter alphanumeric characters".
ENTER
/C 0 1 2 3 / C ^ 4 5 / I 39
ENTER
8 LAYOUT
8.3.2 Resection MethodSet up the instrument.at a new point, and calculate the coordinate o f 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 measuredAn occupied point coordinate value «vill be calculated by the meiod of least squares. (In case that 3 known points are measeured by angle measurement only, t-'ie value would not be calculated t>y the metod of least sauares.)
................•
Known Point A
New Point (Instrument)
Known Point BMax. 7 points
Known Point C
O perating procedure O peration D isp lay
LAYOUT 1/2 F1 :0C C .PT INPUT F2:BACKSIGHT F3:LAYOUT P i
•CD Press [F£](P J .) key from the layout menu 1/2 to get the layout menu 2/2
[F4] LAYOUT 2/2 F1 :SELEC T A F IL E F2:NLW POINT F3:GRTD FACTOR P j
£ Press [F2](NEW POINT). [F2] NEW POINT F 1 :S ID E SHOT F2:RESECTION
Press (F2](RESECTION) key. [F2] NEW POINT PTtf:
INPUT SRCH SKP ENTFR■i> Press [F1](INPUT) key, and enter the new
point name. 1%. 1) ,2)Press (F4](ENT) key
(F11 Enter Pr #
1234 5678 9 0 .- [EN T]
[F4]
8 LAYOUT 8 LAYOUT
INSTRUMENT HEIGHT INPUTINS.HT : 0 .000 mINPUT — — ENTER
e of the new point the measurements
S Enter instrument height in the same wayt be measured t be measured od of least squares ent only, the value
N001#PT#:
INPUT L IS T NEZ ENTER
[F1J Enter PT#
[F4l
9 Ente' the known point A number SK 3)
REFLECTOR HEIGHT INPUTR.HT : 0 .0 0 0 m INPUT — - - - ENTER
[F I] Enter R.HT
[F4]
& Enter reflector height
REFLECTOR HEIGHT INPUTR.HT : 1 .235 m > Sight ? ANG DIST
Collimatei # ’ Collimate the k ro w n point A , and press | IF3](ANG) or (F4](DIST) key.
Exam ple: [F4](DIST)Distance measuring starts.
HR: 123°40'20 HD* < iVD: i
M easuring .. .<compiote>
TNPUT\1 Known point B entering display w ill be
show rN002#
P T # :
INPUT L IS T NEZ ENTER
Same as procedure © to S : proceed to . the known point B. SELECT GRID FACTOR
FI:USE LAST DATA F2:CALC MEAS.DATAj W hen :w o points have been measured by
fF4](DIST) key. the RESIDUAL ERROR w ill be ca lc u la te d % 4)
iQ Select GRID FACTOR fo r ca lcu lation o* RESIDUAL ERROR by pressing [Ft] or (F2]
■ key * 5)Exam ple: (F I]
RESIDUAL ERRORcJHD= 0 .015 mdZ a 0 .005 mNEXT — G .F C;
P ENTER
8 LAYOUT
'^1) Refer to Chapter 2.5 "How to enter alphanumeric characters".5£2) W hen there is no need to memorize the new point data, press [F3]{SKP) key.^ 3 ) To enter the the known point coordinate data by direct key inputting, press [F3](NEZ)
key* 4 ) RESIDUAL ERROR;
dHD(Horizontal distance between two known ooints) = Measured value - Calculated valuedZ = (Z coordinate of the new point calculated from known point A ) - (Z coordinate of the new point calculated from known point B)
X 5) [F I USE LAST DATA]; RESIDUAL ERROR is calculated w ith GRID FACTOR already set[F2:CALC M EAS.DATA]; RESIDUAL ERROR is calculated w ithout GRID FACTOR already set. In this case, new GRID FACTOR is calculated from measured data and reset."•To see the GRID FACTOR value, press [F3](G F.) key.
>K6) In case that the all points are measured by angle measurement only, the follow ing display w il I be shown. You can select Z coordinate calculation.
CALC. Z COORD. F l .Y E S F2:N0
F 1 (Y E S ): N,E,Z coordinates w ill be calculated w ith measured angle data.F2(NO) ; N and E coordinates w ill be calculated w ith measured horizontal angle
data. Z coordinate would nol be calculated.(2 coordinate value = 0.000m)
W hen the d istance measurement is done even one po int, Z coordinate w ill be calculated as a mean value of relative distance (vertical distance data).
X 7) The display shows "> S E T ?" when (F3KSK3) key pressed in step In this case, the new point data is not stored into the coordinate data f ile , only the value of occupied coordinate data changes to that of the calculated N EW POINT
8 -1 7
h
X;S?
8 LA YO U T
• V ie w in g P T # L I $ T
You can see the PT# List and enter the data from the List, also you can see coordinate data of a point.[Exam ple: Executing Layout Model
O pera ting procedure
<1> W h ile execu tin g the LA YO U T m ode, press (F2](LIST) key The arrow(->) indicates selected data.
© By pressing the fo llow ing keys, the list w ill increase or decrease.[▲] or [T] : Increasing or Decreasing one
by one[►]or[<«] : By te n In c re a s in g or
Decreasing.
•3' To show the coordinate o f the selected data, press |F1](VIEW ) key.
Jt is stilJ possible to scroll the PT# data by pressing [A] or [V] key.
& Press [E5C] key.The display returns to the List.
•S- Press (F4) (ENTER) key.The selected point number is set as PT#.
O peration DUpUyLAYOUTPT#:
INPUT LIST NEZ EN TER
[F2]—DATA-01
DATA-02 VIEW SRCH
[TOPCON ]
— EN TER
m m►LHJ
DATA-49^DATA-50
OATA-51 VIEW SRCH — ENTER
[F t] PT# jQATA-50M j 100.234 m E i 12.345 m 2 j 1.678 m
...
lEsq DATA-49 -4MTA-50
DATA-51 VIEW SUCH — ENTER
[F4J REFLECTOR HEIGHTINPUTR.HT : 0.000 m
IH R J I------ — ENTER— 5---- j----------------
• The operation of (F2)( SRCH) issam e as the "SEARCH* in the MEMORY MANAGER MODE For more inform ation, refer to Chapter 9 "MEMORY MANAGEJtMOOC".
9 MEMORY MANAGER MODE
9 MEMORY MANAGER MODEordinate
The fo llow ing items for internal memory are available in this mode.1) FILE 5TATUS :Chocking the number of storec' data / Rem ain ing in te rna l memory
capacity.2) SEARCH :Searching the recorded data.3) FILE MAINTAN. :Deleting files / Editing fi e name4) COORD. INPUT: Inputting coordinate data into Coord data file.5) DELETE COORD.: Deleting coordinate data from Coord. data file6) PCODE INPUT : Inputting PCODE DATA into PCODE Library
This iterr i} on y for GTS-211 D/212.7) DATA TRANSFER. Sending measured data or coordinate data or PCODE Library data >
U pload ing coord inate data or PCODE L ib rary data / Se ttin g communication parameters
8) INITIALIZE: Initializing internal memory.
M em ory m anager menu operationBy pressing the (MENU] key, the instrument w II be in MENU 1/3 mode.Press the [F3](M£MORY M G R .) key, the menu of MEMORv MGR. 1/3 w ill be shown.
NTER
Normal measLrement mode
MENU FI:DATA COLLECT F2:LAYOUT F3:MFM0RY MGR.
MEMORY MGR. 1 FI:FILE STATUS F2:SEARCH F3:FILE MAINTAN.P \
MEMORY MGR. MENU 1/3
MEMORY MGR. FI:COORD. INPUT F2:DFLETE COORD F3:PCODE INPUT
MEMORY MGR MENU 2/3
MEMORY MGR. F1:DA1A TRANSFER F 2 :IN IT IA L IZ E
MEMORY MGR. MENU 3/3
& 'PCODE INPUT' is only for GTS-21 ID/212
DATA STATUS MEAS. DATA :0 1 0 0 COORD. DATA:00 50
DATA STATUS MEAS. DATA :0 1 0 0 COORD. DATA:00 50
9 MEMORY MANAGER MODE
9.1 D isplay Internal M emory StatusThis mode is used to check the internal memory status.
O perating procedure
<D Press !F3)(MEMORY MGR ) key from ihe menu 1/3.
Z Press fF1J(F(LE STATUS) keyIh e tota l num ber of stored m easured data files and coordinate files are shown.
'3? Press [F4)(P J , ) key.The total num ber o f stored m easured data and coordinate data in all files are shown. & 1)
O peration D isp lay
MEMORY MGR. 1/3// F I .-F ILE STATUS // F2:SEARCH /j F 3 : F I L E MAINTAN. P i j
F IL E STATUS 1/2MEAS. F IL E : 3COORD. F IL E : 6
[ ................. • • • ] P i
Remaining memory capacity
% 1) Each coordinate file has one extra data for working area.• The PILE/DATA STATUS display w ill chgnge alternately by pressing [F4]( P J,) key.
To return to MEMORY MGR menu press [ESC] key.
9 MEMORY MANAGER MODE
9.2 Searching DataThis mode is used to search the recorded file data in the DATA COLLECT or LAYOUT mode. The fo llow ing 3 search methods in each type of files can be selected.
1: First data search 2: Last data search3: Point number search (ME AS.DATA, COORD.DATA)
Number search (PCODE LIB.)M EAS. DATA : Measured data in the data collect mode.
(Only for GTS 21 ID/212)COORD. DATA : Coordinate data fo r layout, control points and new point data
measured in the .ayout mode.PCODE LIB. : The data which was registered w ith a number from 1 to 50 in Point
code library.(Only for GTS-21' D/212)
Point name (PT#, B S # ) , ID, PCODE and Height data (INS.HT, R.HT) can oe corrected in the searching mode.Measured value can noi be corrected.
9.2.1 Measured Data SearchingExam ple:Point number searching
O p era ting procedure Operation D isp lay
MEMORY MGR.F I :F IL E STATUSF2:SFARCHF3 : F IL E MAINTAN
Press [F3](MEMORY MGR.) key from tne menu 1/3.
'%> Press (F2](SEARCH) key SEARCH F1:MEAS. DATA F2:COORD. DATA F3:PCODE L IB .
Press [F1HMEAS. DATA) key SELECT A F IL E FN:
INPUT L IST ENTERPress [F1 ](IN PU T) key and e n te r File Name. Press (F4](ENT) key. V6 1),2)
MtAS. DATA SFARCH F I :F IR S T DATA F 2 : LAST DAI A F 3 : PT# DAIA
Enter FN
PT# DATA SEARCH PT#:
Press [F3J(PT# DATA) key
INPUT ENTER
9 MEMORY MANAGER MODE
© Press [F1 J(INPUT) key and enter PT# Press [F4](ENT) key * 1 )
fF1)Enter PT#
[F4]
Ct Press [F4 ]( 4 ) key to scro ll data for selected point.
PI#jTQP-104 1/2V j 98°36'20"HR j 160°40'20"
TILT j 0°00’00" •
PT# j T0P-104 2/2PCODE jR.HT j 1.200 mEDIT v
•X-1) Refer to Chapter 2.5 "How to enter alphanumeric characters'.To show the file list, press (F2KLIST) key.
• " j " represents data shown on the display is the stored data.• Press [ A ] or [▼ ] key to scroll to next or previous point.• To search MEAS DATA of the same point number, press [<] or [►] key.
• T o e d it t h e d a ta in s e a rc h in g m o d ePoint ram e (PT# , B S # ) , ID, PCODE and Height data (1NS.HT, R.HT) can be corrected in the searching mode.Measured value can not be corrected.
O pera ting procedure
Q> Press [FI ]<EDIT) key from last page of displayed data.
■2: Select the item to correct by pressing [A]
or [▼ ] key.
'$ Press [FI|(lN PU T) key and enter data.SK 1) Press (F4j(ENT) key.
Press [F4](ENT) key
O peration
[F I]
kl or [▼]
[FI]En te r Data
[F4]
D isp lay
2/2P T # j T O P -1 0 4 PCOOEj R .H T j 1 .0 0 0 m E D IT ;
P T # - T O P - 1 0 4 PCOOE ; R .H T : 1 .0 0 0 m IN P U T — — - EN TER
P T # : T O P -1 0 4 PCOOE :R.HT - 1 .000 mINPUT ----- — EN TER
P T # j TOP- 104 2/2PCOOE jR .H T j 1 .200 mE D IT 4> $AVE? [Y tS ] [N 0 ]
*•1) Refer to Chapter 2.5 “ How to enter alphanumeric characters*.• When editing, ID and PCODE are not linked w ith PCODE LIBRARY.
• Even though the height data ( in s .h t , R.HT) are corrected, the measured value can not be corrected.
9 MEMORY MANAGER MODE
9.2.2 Coordinate Data SearchingExam ple searching:Point number searching
O pera ting proc«dure Operation D isp lay
MEMORY MGR.F I : F I L E STATUSF2:SEARCHF 3 : F IL E MAINTAN
CD Press [F3KM EM ORY MGR ) key from the menu 1/3.
® Press (F2)(SEARCH) key SEARCH F I:M EA S . DATA F2:COORD. DATA F3:PCODE L IB .
Q> Press [F2](COORD DATA) key SFLECT A F IL E F N :__________
INPUT L IS T ENTFR
Press [F1](INPUT> key and en te r f i le Nlarre Press (F4](ENT) key. ^ 1)
COORD. DATA SEARCH F I :F IR S T DATA F 2 : LAST DATA F 3 : PT# DATA
<B> Press IF3](=>T# DATA) key PT# DA IA SEARCH PT#:
INPUT ENTER
1 2 3 4 5 6 7 8 90•e Press (FI](IN PUT) key and enter PT#
Press (F4](ENT) key. ^ 1)
ENTER
) m ENTER Refer to Chapter 2.5 J,H<pw to enter alphanumeric characters* .
• " j " represents data shown on the display is the stored data.• Press ( A ] or [▼ ] key to scroll to next or previous point.• To search COORD. DATA of the same point number, press M ) or (►] key
9 MEMORY MANAGER MODE
9.2.3 PCODE L/BRARY Searching (Only for GTS-211 D/272) Exam ple searching: Number searching
O p era ting procedure O peration D isp lay
CD Press [F3)(MEMORY P/IGR ) key from the menu 1/3.
IF3] MEMORY MGR. 1/3 F I : F I L E STATUS F2:SEARCHF 3 :F IL E MAINTAN. P i
<Z- Press (F2J(SEARCH) key. [F2J SEARCH F I:M EA S . DATA F2:COORD. DATA F3:PCODE L IB ,
3 Press (F3](PCODE LIB.) key. [F3] PCODE DATA SEARCH F I :F IR S T DATA F 2 : LAST DATA F3 :N o . SEARCH
CC Press (F3](No. SEARCH) key. [F3] PCODE No. SEARCH N o . :
INPUT - - - - - - ENTER
S 1 Press [F1](INPUT) key and enter number.[F1]
En te r PT # [F4|
1234 5678 9 0 .- [EN T]
Press [F4](ENT) key. X 1)
The num ber and lin ked data w ill be shown, )X .2 }
011;NAKADAI - 0 1 2 :HILLTOP
0 1 3 :ITABASH ED IT — CLR — -
>K1) Refer to Chapter 2.5 "How to enter alphanumeric characters'.• Press [ A ] or [ T ] key to scroll to next or previous PCODE data.
SK 2) To correct the PCODE data , press [F1 ](EDIT) key.To delete the PCODE data, press (F3](CLR) key
9 MEMORY MANAGER MODE
9.3 FILE MAINTENANCEIn this mode, the fo llow ing items are available.Renaming file name / Searching data in a file / Deleting files
• FILE MAINTAN. menu
Pressing [F3)(FJLE MAINTAN ) key from MEMORY MANAGER menu 1/3, file list w i.l be shown.
• File discrim ination markFile discrim ination mark (*,@ ,& ) placed before file name indicates the file status .For measured data file
: selected file for DATA COLLECT mode.For coordinate da*.a file
: selected file for LAYOUT mode.4,@ " : selected coordinate fi.e for DATA COLLECT node.
: selected coordinate file for both LAYOUT and DATA COLLECT mode• Data discrim ination character (M , C)
Data discrim ination character (M, Cl 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.(Coordi nate data file has an extra da'.a for working.)
• Press ( A ] o r [ T I key to scroll to next file.
9 - 7
9 MEMORY MANAGER MODE
9.3.1 Rename a FileAn existing file in internal memory can be renamed
O perating p rocedure Operation D isp lay
CD Press [F3](FILE M AINTAN.) key from the Memory manager menu 1/3. —M EASD1/ M0123
COORD1/ C 0 0 5 6 REN SRCH DEL
MEASD1/ M0123 -C00RD1/ C0056
C00RD2/ C0098 REN SRCH DEL
@ Select a file by pressing [ A ] or [ T ) key
$ Press [FI](REN ) key MEASD1/ M0123 =COORDl/ C0056
C00RD2/ C0098 1234 5678 9 0 .-
($' Enter new file name. Press [F4|(ENTi key. JK 1)
Enter FN
MEASD1/ M0123 -COORD5/ C0056
C00RD1/ C0098 REN SRCH DEL
>*?1) Refer to Chapter 2.5 "How to enter alphanumeric characters' Existing file name can not be available.To return to the FILE MAINTAN. Menu . press [ESC] key.
9.3.2 Searching Data in a FileAn existing file in internal memory can be searched
O p era tin g p ro cedure O peration D ijp la y
Press [F3](FILE M AINTAN.) key from the Memory manager menu 1/3. .MEASD1/ M0123
COORD1/ coose REN SRCH DEL
MEASD1/ M0123 ♦COORD1/ C0056 COORD2/ C0098
REN SRCH DEL
Select a file to searcn by pressing [ A ] or [ T ] key.
3 Press (F2]<SRCH) key. SEARCH [COORD1 j F I :F IR S T DATA F2 :LA ST DATA F3 :P T# DATASelect searching m e:hod by pressing [F1]
to [F3] key. 1}
^ 1 ) Because procedures from next are same as procedures of Chapter 9.2 "Searching Data refer to Chapter 9 2 "Searching Data"To return to the FILE MAINTAN. Menu , press [ESC] key.
9 MEMORY MANAGER MODE
9.3.3 Deleting a FileThis mode erases a file from interna.' memory. Only one file can be erased at a time
O p era tin g p rocedure O peration Display
<£ Press [F3KFILE MAINTAN.) key from the Memory manager menu 1/3. -MEASD1/ M0123
COORD1/ C0056 REN SRCH DEL
MEASD1/ M0123 -.COORD 1/ C0056
C00RD2/ C0098 RLN SRCH DEL
'3 Select a file to delete by pressing [ A ] or [▼ ] key.
Press [F3](DEL) key. MEASD1/ M0123 —C00RD1/ C0056
C00RD2/ C0098 >DELETE? [N 0 ][Y E S ]
MEASD1/ MO123 —C00RD2/ C0098
C00RD3/ C0321 REN SRCH DEL
& Confirm the deleting , and press IE4](YES)
To return to the FILE MAINTAN. Menu , press jESCJ key
9 MEMORY MANAGER MODE
9.4 Coordinate Data Direct Key InputCoordinate data for the layout point or control point can be input d re c t ly from the keyboard. This data can be stored into a file in the internal memory.
Operating procedure Operation D isp lay
CD Press [F3](MEMORY MGR. ) key from the menu 1/3.
[F3J MEMORY MGR. 1/3 F 1 :F IL E STATUS F2:SEARCHF 3 :F IL E MAINTAN. P i
■Z Press [F4](p | ) key [F4] MEMORY MGR. 2/3 FI:COORD. INPUT F2 :D ELETE COORD.F3:PCODE INPUT P i
'32 Press lF1](COORD INPUT) key [F I] SELECT A F IL E FN:
INPUT L IS T - - - ENTER
($' Press [F1](lNPUT) key and enter File Name you w ant to input.Press [F4](ENT) key -K1)
|F1]En te r FN
IF4]1234 5678 9 0 .- [EN T]
COORD. DATA INPUT PT#:
INPUT L IS T — ENTER
@ Press (F1](INPUT) key and enter PT#,CF1]
EnUff PT#1234 5678 9 0 .- [ENT]
Press (F4](ENT) key. * 1)I ' 4 J
N-» 100.234 m E : 1 2 .3 4 5 m Z : 1 .678 m
IN P U T ----- — ENTER
© Enter coordinate data in the same way.[FI]
F ilte r COORD. [F4]
1234 5678 9 0 .- [EN T]
Next input d isplay is shown, point# is autom atically incremented.
COORD. DATA INPUT PT#:TOPCON-102
INPUT — — ENTER
JK1) Refer to Chapter 2.5 "How to enter alphanumeric characters".
9 - 10
SELECT A F IL E FN:
INPUT L IS T ENTER
DELETE COORD PT#:
INPUT L IS T — ENTER
O perating p rocedure D isp layOperation
9 MEMORY MANAGER MODE
9.5 Delete a Coordinate Data from a FileCoordinate data in a file can be erased
>K1) Refer to Chapter 2.5 "How to enter alphanumeric characters".
S Confirm the data and press [F3](YES) key. Deleting starts.The d isp lay re tu rn s to th e p rev ious display.
<D Press [F3](M EM ORY MGR. ) key from the menu 1/3.
■Z Press (F4]iP 1 ) key.
MEMORY MGR. 1/3F I : F I L E STATUS F2:SEARCHF 3 : F IL E MAINTAN. ? \
MEMORY MGR.F I ; COORD. INPUT F2:D ELETE COORD.F3:PCODE INPUT P i
100.234 m 12.345 m
1.678 m>DELETE? [Y E S ][N 0 ]
rom the
NTER
W ]
® P re » [F2](DELETE COORD.) key.
<S> Press [F1 ](IN PU T) key and en te r File Name.Press (F4](ENT) key. * 1 )
[F1]fcnttr FN
[F4]
(F'JEnte- PT #
[M]<5> Press ’F1)(INPUT) key and enter PT#
Press (F4](ENT) key. * 1)
1234 5678 90
9 MEMORY MANAGER MODE
9.5 Delete a Coordinate Data from a FileCoordinate data in a file can be erased
Ofwratiort D isp lay
MEMORY M G R . 1 / i 1 F I : F I L E STATUS F2:SEARCHF 3 : F IL E MAINTAN. P I
Operating procedure
•CD Press [F3KM EM 0RY WGR ) key from the menu 1/3.
<2 t> ress(F4](P |) key.
2 Press [F2KDELETE COORD.) key
INTER
ENT]
mmmENTER
'EN T]
ENTER
JT
ENTER
MEMORY MGR. 2/3FI:COORD. INPUT F2 :D ELETE COORD.F3:PCODE INPUT P i
SELECT A F IL E FN: _________
INPUT L IS T — ENTER
1234 5678 9 0 .- [EN T]
DELETE COORD.P T # :____________
INPUT L IS T — ENTER
N 100.234 mE : 12 .345 m 2 : 1 .678 m
>DELETE? [Y E S ][N 0 ]
® Press [ F 1 ]( NPUT) key and e n te r File Name.Press [F4](ENT) key. * 1)
[FI]EnterFN
[F4]
[F I]Enter
[F4]
Confirm the data and press (F3](YES) key. Deleting starts.The d isp lay re tu rn s to th e p rev io us display.
K 1) Refer to Chapter 2.5 "H o w to enter alphanumeric characters".
Press (F1](INPUT) key and enter PT#. Press [f4](EN T) key 5K 1)
9 MEMORY MANAGER MODE
9.6 Editing PCODE LibraryPCODE data can be entered into PCODE Li brary in this mode.A PCODE is linked w ith a nurrber of 1 to 50PCODE can be also edited in DATA COLLECT menu 2/3 in the same way.
O perating p rocedure
® Press [F3](MEMORY M G*. ) key from the menu 1/3.
Z Press [F4](P 4 > key.
® Press [F3](PCODE INPUT) key.
C4> By pressing the fo llow ing keys, the list w ill increase or decrease.[A ] or [ T ) : Increasing or Decreasing one
by one[► ]or[-4 j : By te n In c re a s in g or
Decreasing
® Press (Fll(EDIT) key
£• Enter PCODF and press (F4)(ENT) key * 1)
Operation
[F3]
[F4]
[F3]
[A].[V1.(► IN)
[ F I ]
Enter PCOOE [F4]
D isp lay
MFMORY MGR. 1/3F I : F I L E STATUSF2:SEARCHF 3 ;F IL E MAINTAN.
MEMORY MGR. 2/3FI:COORD. INPUTF2 :D ELETE COORD.F3:PCODE INPUT P i
-*001: TOPCON0 0 2 :TOKYO
EDIT — CLR -
0 1 1 :ITABAS-►012: AMIDAT
0 1 3 :HILLTOEDIT — CLR - - -
O i l : ITABAS -»012=AMIDAT
0 1 3 :H ILL I 0 1234 5678 9 0 .- [FNTJ
O il:IT A B A S -012=AMISUN
013:H ILLTO EDIT — CLR —
& 1) Refer to Chaoter 2 5 “ How toenter alphanumeric characters'.
9-12
9 MEMORY MANAGER MODE
9.7 Data Com m unicationsYou can send data file stored in the internal memory to a computer directly Also, you can directly load coordi nate data or PCODE dala to the internal memory from the computer.
9.7.1 Sending DataExam ple: Sending a Measured cata file
O peration D isp layO pera ting procedure
MEMORY MGR.F I : F I L E STATUSF2:SEARCHF3 : F IL E MAINTAN
Press [F3)(VIEM ORY MGR. ) key from the menu 1/3.
Press [F4](P J , ) key twice. MEMORY MGR.FI:DATA TRANSFER F 2 :IN IT IA L IZ E
$ PressIF1](DATATRAN SFER)key DATA TRANSFER FI:SEN D DATA F2 : LOAD DATA F3 : COMM. PARAMETERS
SLND DATA F I;M EA S . DATA F2:COORD. DATA F3:PCODE DATA
Select the data to send by pressing [F1] [F3] key.Example : [F1](M cA$. DATA) INPUT L IS T ENTER
Press (FIJ(INPUT) key and enter File Name you w an t to send. Press [F4](ENT) key * 1 ) .2 )
SEND MEAS. DATAEn te r FN
[YES][N O J
SEND MEAS. DATAPress[F3KYES) k e y .# 3 )The sending startsThe display returns to menu < Sending D ata! >
STOP
^ 1 ) Refer to Chapter 2.5 "How to enter alphanumeric characters' >K2) To scroll the data, press [ A ] or (T jk e y • To show the file list, press (F2)(LIST) key.
>&3) To cancel the sending, press [F4](STOP) key
9 MEMORY MANAGER MODE
9.7.2 Loading DataCoordinate data files and files can be loaded from PCExam ple Loading a coordinate data file
Operating procedure Op^r.’ition D isp lay
• $ Press [F3)(M EM ORY MGR. ) key from -.he menu 1/3.
[F3J MEMORY MGR. 1/3 F I : F IL E STATUS F2:SEARCHF3 : F IL E MAINTAN. P i
Press [F4)(P 4, ) key twice. [F4]IF4]
MEMORY MGR. 3/3 FI-.DATA TRANSFFR F 2 : IN IT IA L IZ E
P i
Z Press [F 1 ](DATA TRANSFER) key . [F I] DATA TRANSFFR FI:SEN D DATA F 2 : LOAD DATA F3:C0MM. PARAMETERS
<g> Dress (F2) key. [F2] LOAD DATA F 1 : COORD. DATA F2:PCODE DATA
S ' Select the data to send by pressing (F1 ] or [F2] keyExample : [F1](COORD. DATA)
[F11 COORD. F IL E NAME FN:
INPUT - ..............................ENTER
'S> Press [F1 ](l NPUT) key and enter New File Name you w ant to recede. Press [F4](ENT) key. 1)
IF 11enter FN
[F4]LOAD COORD. DATA
) OK ?
[Y E S ][N 0 ]
® Press [F3J(YES) key 5S2)The loading starts.The display returns to menu.
[F3] LOAD COORD. DATA
( Loading D ata! > STOP
}K1) Refer to Chapter 2.5 "How to enter alphanumeric characters". X 2) To carce l the loading, press [F4](STOP) key.
9- 14
9 MEMORY MANAGER MODE
9.7.3 Setting Parameter of Data Com munications• I te m s o f th e P a ra m e te r
Items Selecting items Contents
(ACK/NAK], (ONE W AY]F1: Prolocol Setting Protocol[ACK/NAK] or [ONF W AY) communication
Setting transfer speed 300/600/1200/2400/4800/9600 baud rate
F2: Baud rate
[7/EVEN], [7/ODD], [8/NON] Setting data length and parity. (7bit. even], [7bit, odd], [8bit,none]
Setting Stop 1 bit or ?bits
Example Setting Baud rate : 4800
D isp layO p era ting p rocedure O peration
MEMORY MGR.F I : F IL E STATUSF2:SEARCHF 3 : F IL E MAINTAN
Ct> Press [F3KM EM ORY MGR. ) key from the menu 1/3.
MEMORY MGR.FI:D ATA TRANSFER F 2 :IN IT IA L IZ E
® Press [F1](DATA TRANSFER) key DATA TRANSFER FI:SEN D DATA F2 : LOAD DATA F3:C0MM. PARAMETERS
NTER
<& Press [F3](COMM. PARAMETERS) key COMM. PARAMETERS FI:PROTOCOL F2 : BAUD RATE F3:CHAR./PARITY
•t> Press [F2J(BAUD RATE) key .[ ] indicates present setting
BAUD RATE[ 300] 600 1200
2400 4800 9600ENTER
Select the items by pressing [ A ] , [▼ ] , [4 ] and [►] keys. 1)
BAUD RATE300 600 1200
2400 [4 8 0 0 ] 9600ENTER
Press [F4KENTER) key COMM. PARAMETERS FI:PROTOCOL F2 : BAUD RATE F3:CHAR./PARITY
>*; 1) To cancel setting, press [ESC] key
9 MEMORY MANAGER MODE
9.8 In itia lizationThis mode is used to in itialize the internal memory.Follow ing data can be initializedFILE D ATA :A II files of measuring data and coordinate dataPCODE DATA: PCODE library dataALL DATA: FILE DATA and ^CODfc DATANote that the follow ing da*.a are not initialized even if in itialization is executed.
: Coordinates of the instrument, Instrument heig 'itand Reflector height
Example In itialization : ALL DATA ( FILE data and PCODE data)
O pera ting procedure
CD Press [F3](MEMORY MGR. ) key from the menu 1/3.
Z Press [F4J(P [ ) key tw ice.
<3> Press (=2](INITIALIZE) key
C£ Select the cata to in itia lize by pressing one o1 [Ft] to[F3] key.Example : [F3 ](A L l DATA)
•$' Confirm the erase data , press (F4](YES) k e y .Initializing w ill start.
T- e disolay returns to menu.
O peration D isp lay
[F3]
[F4][F4]
[F2]
[F3]
[F4]
MEMORY MGR. 1/3F I : F I L E STATUSF2:SFARCHF3 : F IL E MAIN1AN. P i
MEMORY MGR. 3/3 F1:DATA TRANSFER F 2 : IN IT IA L IZ E
P i
IN IT IA L IZ E F I : F IL E DATA F2:PCODE L IS T F3tALL DATA
IN IT IA L IZ E DAI A FRASE ALL DATA !
>0K ? [N Q ][Y ES ]
IN IT IA L IZ E DATA
( I n i t i a l i z i n g I >[ ........................ I l l l I I I ]
MEMORY MGR. 3/3 Ft:DATA TRANSFER F 2 : IN IT IA L IZ E
P i
For GTS-213
It is recommended to initialize the internal memory before using if the battery is discharged completely or the battery was removed for a long period.Batteries are charged at time of shipping, but they may be discharged by the tim e of delivery to customers. It is recommended to initialize the memory before using.
9- 1 6
10 SET AUDIO MODE
10 SET AUDIO MODEThe light acceptance quantity level for the EDM (SIGNAL), the atmospheric correction value (PPM) and correction value o f prism constant (PRISM) are displayed in this mode W hen reflected light from the prism is received a buzzer sounds. This function is good for easy collimation when the target is difficult to find
O p era ting procedure O peration nisplay
CD- Make sure the mode is in the distance measuring mode on page 1.
■3 Pressing [F3](S/A) key. moae changes to set audio rrode.
The display indicates correction value of orism co nstan t (PR ISM ), a tm o sph eric correction (PPM) and reflection light level (SIGNAL).
[F3]
MEAS MODE S/A P I l
SET AUDIO MODE PRISM: Omm PPM: 0 SIG N AL:[ a I I I I ]PRISM PPM T-P
• When receiving reflected light, buzzer sounds• ~he (F1] — [F3] keys are used for setting atmospheric correction and p'isrn constant.• To return to normal measuring mode, press [ESCJ key.
10 1
11 SETTING THE PRISM CONSTANT VALUE
11 SETTING THE PRISM CONSTANT VALUEThe 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.Once you set the correction value 1or pr sm constant, it is re la ired after power is OFF.
O p era ting p rocedure O peration D isp lay
CD Press [F3 ](S /A ) k e y fro m d is ta n c e m easuring or co o rd in ates m easuring mode.
Z Press (FIJ(PRISM ) key.
:3' Input the Prism constant correction value, *1 )The display returns to bet audio mode.
[F3]
IF1]
[F4] Enter data
IF4]
SET AUDIO MODE PRISM: Omni PPM: 0 SIGNAL - . [ M i l l ]PRISM PPM T-P ----
PRISM CONST. SET PRISM : 0 mm
IN P U T ---------- ENTER
1234 5678 9 0 .- [EN T]
SET AUDIO MODE PRISM: 14mm PPM: 0 SIGNAL: [ H I l l ]PRISM PPM T-P
>X1) Refer to Chapter 2.5 "How to Enter Alphanumeric characters • Input range : - 99mm to + 99mm, 1mm step
SET AUDIO MODE PHISM: Omm PPM: 0 S IG N A L :[1 1 1 II]PRTSM PPM T-P ----
TEMP. & PRES. SETTEMP. - 15 °CPRES. : 1013 hPaIN P U T ---------- ENTER
TEMP. & PRES. SET TEMP. 26 °C PRES. - 1017 hPa IN P U T ---------- ENTER
12 SETTING ATMOSPHERIC CORRECTION
an Topcon s,
sOFF.
EN TER
12 SETTING ATMOSPHERIC CORRECTIONThe ve lo c ity of light through a ir is not constant and depends on the atm ospheric tem perature and pressure The atmospheric correction system of this instrument corrects autom atically when the correction va.ue is set. 15”C, and 760mmHg (56nF, ano 29 6 ir>Hg) is as a standard value for Oppm in this instrument The values are kept ir the memory even after power is OFF
12.1 Calculation of Atm ospheric Correction
The followings are the correction formulas.Unit; meter
Ka : Atm osphere correction value
K a — 279 6 6 - — — - ——— X I I ) ' 6 P : Arr>hient atmospheric pressure(mmHg) 273.15 -M f . Am bient Atmospheric tempera ture('C)
The distance L(m) after atmospheric correction is obtained as follow.r , { : Measured distance when atmospheric/j = K 1 + Ka)
correction is ro t set.
Exam p le : In case Temperature +20“C , A ir pressure 635mmHg, /= 1COO m106.033X635 e,
Ka= 27 9 .6 6 - — — — — — X 1 0 " 6 273.15 + 20
==50X 10-® (60ppm)
L = 1000(1 + 50 X 1 0 -«) = 1000 050 m
12.2 Setting of Atm ospheric Correction Value• How to SetTemperature and Pressure Value DirectlyMeasure the tem perature and air pressure surrounding the instrument beforehand Example : Tem perature: + 26 "C, Pressure: 1017 hPa
'.) Refer to Chapter 2.5 "How to Enter Alphanumeric characters "• Rango : Temo. - 30 to + 60 X (1"C step) or -2 2 to + 140°F(1°F Step)
Pres. 420 to 800mmHg( t m m llgstep) ,16.5 to 31.5 inltg (0.1 inHgstep) or 560 to 1066hPa( 1 hPa step)
* When the atmospheric correction value which is calculated from the input temperature and pressure values exceeds the range ± 99ppm, the operating procedure returns to step ‘S ‘ autom atically. Input values again.
O perating procedure O peration D isp lay
CD Press (F3](S/A) key to set Set Audio Mode fro m d is ta n c e o r c o o rd in a te m easurement mode.
2 ' Press (F3MT-P) key.
3 : Input Tem p.value and Pressure va lue . * 1 )Mode returns to Set Audio mode.
Enter Temp. Enter P r« .
12 SETTING ATMOSPHERIC CORRECTION!
• H ow to Set the Atmospheric Correction Value Directly
Measure the temperature and cir pressure to find atmospheric correction v?lue(PPM) from the chart or correction formula.
O p era ting p rcxedure O peration
SET AUDIO MODE PRISM: Omm PPM S I G N A L : [ l l l i l ] PRISM PPM T-P
Press (F3)(S/A) key to set Set Audio Mode from d is ta n c e o r c o o rd in a te measurement mode.
Press (F2)(PPM) keyCurrent setting value is displayed
INPUT ENTEREnter atmospheric correction value. >¥, 1)
Mode returns to Set Audio mode
Refer to Chapter 2 .5 '’How to Enter Alphanumeric characters• Input range : - 99ppm to +99pom s 1 ppm step
NTER
ENT]
12 SETTING ATMOSPHERIC CORRECTION
Atm ospheric Correction Chart (For your reference)
The atmospheric correction value is obtained easily w ith the atmospheric correction chart. Find the measured temperature in horizontal, and pressire in vertical on the chart.Read the value from the diagonal line , w hich represents the required atmospheric correction value.
txam ple :The measured temperature is + 26"C The measured pressure i$ 76QmmHg There fore.The correction va ue is +1 Oppm
TWpcinturc
12 SETTING ATMOSPHERIC CORRECTION
Tetiperature (®C)
T tnpe ia tun ( VK)
13 CORRECTION FOR REFRACTION AND EARTH CURVATURE
13 CORRECTION FOR REFRACTION AND EARTH CURVATURE
The nstrument measures distance, taking into account correction for refraction and earth Curvature.
Note : If the telescope is positioned within +9' from the nadir or zenith, no measurement w ill result even if the correction function for refraction and earth curvature works.The display shows "W/C OVER".
13.1 Distance Calculation FormulaDistance Calculation Formula; w ith correction for refraction and earth curvature taken into account. Follow the Formula below for converting horizontal and vertical distances.
Horizontal distance 1) = AC(o) or BE(jS)
Vertical distance Z = BC(a) or EA(,3)
D = L{cosa — (2 6 — y)sin«}
Z = L{sin<* + (0 — y)cosa}
0 = L-co8a/2R ............ Earth curvature
correcting item
y= K-Lcosc/2R . . . . . . Atmospheric
refraction
correcting item
K = 0.14 or 0.2 ............. Coefficient ofrefraction
K = 6372km .............. Radius of eartha (or p) ..................... Altitude angle
L ..................... ........ Slope distance
The conversion fo rm ula for horizontal and vertical distances is as fo llow s when correction for refraction and earth curvature is ro t apoliedI) = L-cosci Z = L-sina
Note : The coefficient of the instrument has beer set at 0.14 before shipment (K = 0.14). if :he "K " value is to be changed, refer to "16. Selecting mode".
14 POWER SOURCE ANO CHANGING
14 POWER SOURCE AND CHARGING
1) For removingPush the lock lever downward and pull out the on-board battery.
2) InstallationPlace the base of the on-board battery into the main body, push the on-board battery toward the instrument side till the battery clicks into position.
3) For charging
BC-19BBC-19C
<3> Connect the charger connector ( BC-19B or BC-19C) to the on-board battery at the connector, the on-board battery should be removed from the instrument when recharging.
■21 Plug the charger into an outlet { 3C-103 is for AC 120V use and BC-19C is for AC 230V use.).
3 ' Check to see that the red light of the charger is lit.<3> Charging w II take approximately 1.5 hours (The green light of the charger w ill
l ig h t) .Remove the battery source from the charger.
Notes 1 : Recharging should take olace in a room w ith an ambient temperature range of 10°C to 401C (50SF to 104°F).
2 : Exceeding the specified charging tim e may shorten the life of the batteryand should be avoided if possible.
3 : The battery source w ill discharge w hen stored and should be checkedbefore using w ith instrum ent.
4 : Be sure to charge a stored battery every 3 or 4 months and Store in a place at3Q’C or below when it w ill not used for a long period.If you allow the ba-.tery to be completely discharged, it w ill have an effect on the overall performance for proper charging in the future.Keep batteries charged at all times.
5 : For further information, see APPENDIX 2 Precaution w hen Charging orStoring Batteries.
15 DETACH/ATTACH OF TRIBRACH
15 DETACH/ATTACH OF TRIBRACHThe instrument is easily detached or attached to the tribrach, w ith a tribrach f xing leverloosened or tightened for this purpose.
• DetachmentCD Loosen th e tr ib ra c h f ix in g le v e r , by re vo lv in g it 180° or 20Cg in th e -
counterclockwise direction (which w ill ooint the triangle mark upwards).35 Grip the carrying handle firm ly w ith one hand w hile holding the tribrach w ith the 1
othe'. Then lift the instrument straight upwards and off.
• AttachmentCP Hold the instrument by the carrying handle, w ith one hand, and carefuliy lower it
on top of the tribrach while, at the same time, coinciding the alignment piece w ith the tribrach alignment groove on the instrument and tribrach iespectively When fully seated, revolve the tribrach fixing lever 180: or 200g clockwise ( which w ill point the triangle mark downwards again).
• Locking the Tribrach Fixing LeverThe tribrach -fixing lever can be locked, to prevent it be accidentally rem oved, especially if the upper instrument section is not being detached very often, Simply tighten the securing screw on the fixing lever wi*h the accessory screwdriver, found in the case.
15-1
16 SELECTING MODE
16 SELECTING MODE
16.1 Items of the Selecting ModeThe fo llow ing m o d « are available.
M enu Hem s Selecting item Contents
1 :UNITSET
TEMP. & PRES.
°C/ ®FhPa/m m Hg/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 measuri ng unit for distance m eter, feet or feet and inch.
FEET USSURVEY/INTERNATIONAL
Select the m eter/feet conversion factor. US SURVEY feet
1m = 3.280833333333333 ft INTERNATIONAL feet
1m = 3.280839895013123 ft.
2: POWER ON MODE
ANGLE MEAS./ DISTANCE MEAS.
Select to set the measurement mode for angle or distance when the power is turned on.
SETFINE/CRS/TRK
FINE/ COARSE 1 TRACK
Select Fine /Coarse/ Tracking mode in distance measurement mode, when the power is turnedon..
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 ANGLE20/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 divtance when the power is t jrn ed on.
TIMES OF MEAS.
0 -9 9 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 \IEZ o r ENZ.
HA-O- INDEX (Only GTS- 211 D/212)
ON-MEMOrtY / ON/OFF
Horizontal angle can have zero oosition same as vertical angle(ON). In this case, it is able to retain presetting angle after turning switch off (ON- MEMORY)
ESC KEY MODE
DATA COLLECT/ LAYO UT/OFF
When you press the [ESC] key from the normal measurement mode, it is possible to enter data input mode (in DA TA COLLECT) or Layout Menu directly.
COORD.CHECK
ON/OFF Select coordinate displaying ON or OFF when setting a point.
16 SELECTING MODE
3:OTHERS
H-ANGLEBUZZER
OFF/ON Specify whether the buzzer sounds or not for every horizonta1 angle 90:>
SET S/A BUZZER OFF /ON Specify whether the buzzer sounds or not in the set audio node.
w-COR^ECTION
O FF/K = 0.14/ K = 0.20
Set correction for refraction and earth curvature, coef-icient of refraction a s ; K = 0 14, K = 0.2C or no correction
NEZMEMORY
OFF/ON 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 -or data output.REC-A : The measurement is made again and this
new data is output.REC-B : The data being displayed is output.
CRLF OFF/ON It is possible to output the data w ith carnage return and line feed
NEZRECFORM
8 DIGITS/9DIGITS /w ith RAW
Select to record coordinates in 8 digits, 9 digits or 9d ig itsw ith raw data.
LAYOUTNEZREC
ON/OFF In the layout mode, it is possible to record coordinates entered directly from the keyboard.
LA N G U A G E 3K ENGLISH/OTHER*
Select the displaying language
ACKM ODE STANDARD/OMITTED
Set the procedure of the communication w ith external device.STANDARD:Normal procedure O M IF'ED : Even though the [ACK] is omitted from
the external device, the data is not sent again.
GRIDFACTOR
USE G F. / DON'T USE
Select using GRID FACTOR in calculation of measurement data.
CUT & FILL STANDARD/CUT&FILL
In the layout mode, CUT & FILL can be displayed instead of dZ,
LAN G U AG E se lection is d iffe re n t in d iffe ren t countries.
16-2
16 SELECTING MODE
16.2 How to Set Selecting Mode<FxampJe>:SettmgunitinhPa, °F, NE7 M£MORY:ON
O perating procedure O peration D isp lay
PARAMETERS 2 F I : UNIT SET F2 :M0l)F SET F3:OTHERS SET
•CD W hile pressing [F2] key, turn power ONvature, '.20 or
Power ON
prism•2 Pres? (F 1](1: UN IT SET) key UNIT SET
F liTEM P . & PRES F2:ANGLE F3.-DIS1ANCE
TEMP. & PRES. UNIT TEMP. » °C PRES. = mmHg °C ° F ----ENTER
® Press [F1](1 :TEM P. & PRES.) key.
® Press (F2](°F) key, and press (F4)(ENTER) key.
TEMP. & PRES. UNIT TEMP. = °F PRES. = mmHg hPa mmHg inHg ENTER
UNIT SET F I;TEM P . & PRES F2:ANGLE F 3 : DISTANCE
•S' Press [F1)(hPa) key. and press [F4](ENTER) keyReturns to unit set menu.
PARAMETERS 2 F I : UNIT SET F2:M0DE SFT F3:OTHERS SET
£ Press [ESC] key.Returns to PARAMETERS 2 menu
<7> Press [F3](3 ;0TH ER5 SET) key. OTHERS SET 1F I : H-ANGLE BUZZER F 2 : S/A BUZZER F 3 : W-CORRECTION
OTHERS SET F 1 :NEZ MEMORY F2:REC TYPE F 3 :C R , LF
C6E> Press [F4](P | ) key, to get I he function in page 2 .
NEZ MEMORY
ENTER
OTHFRS SET F1:NEZ MEMORY F2 : REC TYPE F 3 :C R ,L F
<© Press [F 1 )(ON) key, and press IF4] (FN1ER) key.Returns to OTHERS SET menu.
Power offPow er OFT