IS SERIES IMAGING STATION
Contents
1. 30 114 Sota CY MOGUG uiu mon Wien tob uta Bia eee ook Bet a a 32 1 11 1 Switching Measurement Distance 36 111 2 Seting by USING SIarISBy ae sca Dodo dose thee ees 37 1 12 AHEIOXOWEODOIT 5 23 axi CRAG RODE UE A ss SL Sun 79 un BEES 38 EOC US UNC ONY te sess tese ae Corte E aho Le AE 40 TOS d Manual FOCUS 5 1 ud te t Ett coeno Be dei hd eh e Dr e 40 TSZ VASSISUEOGUS S Lnd edo Editieren quA S due Ru ia eek 40 FOCUS FUNCION sse sc Se eur deb tear bo bd dt o dodi 41 1214 Rotating Method 2 6 eg AURI RE RIA Ee EGER 42 1 14 1 Rotating by H V Shuttle and H V Jog 42 AUTO INVEISION e E bee ears A kan a est ah Shae A on BA 42 1 14 3 Rotating automatically to a required Horizontal and Vertical angle 42 1 15 Using together with RC 3 Remote Control 43 1 16 Using connecting with Personal Computer 44 1 17 sing the USB arx ce Tae ea de Eh a A ur at Sd a DA Pe IX cat 45 2 PREPARATION FOR MEASUREMENT 46 2 1 POWer GONMECHON iuum a xr x EXE RU oda OR GEAR x 46 2 2 Setting Instrument Up For Measurement2. 47 2 3 KEY ON Este eg ete Cp OO Id Sx elvat V RP rad 48 2 4 Battery Power Remaining 49 2 5 Vertical and Horizontal Angle Tilt 50 2 5 1 Setting Tilt Correction by Operation 51 2 5 2 Correction of a Tilt Sensor setting 51 2 6 Compensation of Systematic Error of 52 2 7 How to Enter Numerals and Alphabet lt 53 28 Data Memory Card 03 sak aware ca ed CICER AC Pod a RR aed 57 2 9 ACIE SYNC suis Wola We E e od ea SG a a Hee Rw 58 GEUN GONNCCIE set du ek se wee rote el ae ue COS Ghee aS 58 2 10 Confirming the Bluetooth Device Address and Setting the PIN code 58 2 11 Seting Up WIreless LAN 23423 wines EE teh vet evan Bos icd escis 59 2 11 1 Turning on the power for wireless 59 2 11 2 Displaying the network setting 59 2 11 3 Displaying the wireless LAN setting screen 60 2 11 4 Example of wireless LAN setting 0 0 0 0 cece eee eee 60 2 12 Inclination of Prism and Measuring 62 3 AUTOMATIC TRACKING AUTOMAT
3. 116 7 2 2 Checking the optical axis of Laser 120 7 2 3 Inspection and Adjustment of Optic Axis for Auto Tracking 122 7 3 Checking Adjusting Each Function llle 124 7 3 1 Checking Adjusting the Plate 125 7 3 2 Checking Adjusting the Circular 125 7 3 3 Adjustment of the Vertical Cross hair 126 7 3 4 Collimation of the 1 127 7 3 5 Checking Adjusting the Cross Hairs on Telescopic Wide angle Images 128 7 3 6 Checking Adjusting the Optical Plummet 130 7 3 7 Adjustment of Vertical Angle 0 131 7 4 How to Set the Instrument Constant 132 7 5 Compensation Systematic Error of 133 7 5 1 Adjustment of Compensation Systematic Error of Instrument 133 7 5 2 Showing Compensation Systematic Error of Instrument 135 7 6 Self Checking M l uy da ER Y DRE ERE RE UR AL 136 8 SETTING THE PRISM NON PRISM CONSTANT CORRECTION VALUE 138 9 SETTING ATMOSPHERIC CORRECTION 140 9 1 Calculation of Atmospheric Correction 140 9 2 Se
4. 129 7 CHECK AND ADJUSTMENT 7 3 6 Checking Adjusting the Optical Plummet Telescope 130 Adjustment is required to make the line of sight of the optical plummet telescope coincide with the vertical axis otherwise the vertical axis will not be in the true vertical when the instrument is optically plumbed e Check 1 Coincide the center mark and the point See Chapter 2 PREPARATION FOR MEASUREMENT 2 Rotate the instrument 180 or 200G around the vertical axis and check the center mark If the point is properly centered in the center mark adjustment is not required Otherwise adjust in the following manner e Adjustment 1 Take off the adjustment section cover of the optical plummet telescope eyepiece This will expose four capstan adjustment screws which should be adjusted with the accessory adjusting pin to shift the center mark to the point However correct only one half of the displacement in this manner Capstan adjustment screws 1 2 of displacement Capstan adjustment yepiece screws Plummet telescope 2 Use the leveling screws and coincide the point and center mark 3 Rotate the instrument 180 or 200G around the vertical axis once more and check the center mark If it is coincided to the point then further adjustment is not required Otherwise repeat the adjustment First loosen the capstan adjustment screw on the side to which the center mark must be moved Then tighten the adjustment screw
5. 5 13 Default Gateway NIT499A1 IF Information Wireless Information Select a network and press connect or right click for more options To add a new network double click Add Ness Add New Status Mat Connected Signal Strength Mo Signal Notify when new networks available 791 Js se 5 12am Wireless Properties Authenticatian Network key E The key is provided automatically Enable 802 1 authentication EAP tyne 5 Properties 9 5 114 AM Key index 1 2 10 11 Turn on the wireless LAN power Display the network setting screen Refer to 2 11 2 Displaying the network setting screen Set up IP address Example IP Address 192 168 1 2 Subnet Mask 255 255 255 0 Press OK Display the wireless LAN setting screen to create wireless LAN connection information Refer to 2 11 3 Displaying the wireless LAN setting Double tap Add New Enter the name of the network Example TOPCON Check the checkbox for This is an ad hoc network Set up Authentication Example Authentication Open Encryption Disabled Set up in the following order Authentication Encryption Set up the device you are connecting to It should be set so that the IP address is not the same as the IS Example IP Address 192 168 1 3 Subnet Mask 255 255 255 0 Set up the wireless LAN inform
6. EXTERNAL BATTERY 25555 Li ion 12V BATTERY Select the external battery type 111 6 PARAMETERS SETTING MODE 6 1 2 Communication Factory default settings are indicated with underlines Menu Contents COMMON PARAMETER RECKey Data Out Eo re Select communication route for REC key data output NEZ REC FORM STANDARD WITH Ped to record coordinates in standard or 11 digits with raw Select the option to record the data HEC TYPE HEC A REC B REC A The measurement is started and new data is output REC B The data being displayed is output Selecting additional information of utility to measuring data such as tracking status or not TRK STATE FF ON If such utility is selected electric circular level graphic will not be displayed whenever tilted over OFF No additional information ON Additional information Auto Collimation data output RS 232C Selecting 1200 2400 4800 BAUD RATE 9600 19200 DATA LENGTH 7 BIT 8BIT PARITY BIT NON EVEN ODD Select the parity bit STOP BIT 1 BIT 2BIT Select the stop bit Select the baud rate Select the data length seven digits or eight digits Select the option OFF or ON for carriage return and line feed when collecting measurement data with a computer O al CR LF FF ON When communicating to an external device the protocol for handshaking can omit the ACK coming from the external ACK MODE OFF ON device so data i
7. 1 Turn the power switch on 2 Pressthe key Press the Prism constant value Atmospheric correction icon 4 Press the TEMP icon PPM mm mm 5 Input Temp value and Press value Example 1 Temp 15 0 C Press 1013 3hPa 6 Pressthe Ji key 1 Range Temp 30 0 C to 60 0 C 0 1 C step 22 0 F to 4140 0 F 0 1 F step Press 560 0 to 1066 0hPa 0 1hPa step 420 0 to 800 0mmHg 0 1mmdHg step 16 5 to 31 5inHg 0 1inHg step 141 9 SETTING ATMOSPHERIC CORRECTION How to Set the Atmospheric Correction Value Directly Measure the temperature and air pressure to find atmospheric correction value PPM from the chart or correction formula 1 Turnthe power switch on 2 Pressthe key 3 Press the Prism constant value Atmospheric correction icon Prism constant value Atmospheric correction icon PPM icon 4 Press the PPM icon Input atmospheric correction value 1 6 Press the i key 1 Input range 999 9mm 999 9mm 0 1mm step 142 9 SETTING ATMOSPHERIC CORRECTION The atmospheric correction value is obtained easily with the atmospheric correction chart Find the Read the value from the diagonal line which represents the required atmospheric correction value Atmospheric Correction Chart For your reference measured temperature in horizontal and pressure in vertical on the chart The
8. 79 4 3 Distance Measurement 0 0c eee eee nnn 80 4 3 1 Setting of the Atmospheric 82 4 3 2 Setting of the Correction for Prism 82 4 3 3 Setting Measurement distance range of Non prism long mode 82 4 3 4 Distance Measurement Continuous 84 4 3 5 Distance Measurement Single N times 85 4 3 6 Fine Coarse Measuring 86 4 3 7 Stake S D ois EU Ebo ER REA EU RC ES D E RE AIDE TR ES encode 87 4 4 Coordinate 89 4 4 1 Setting Coordinate Values of Occupied 89 4 4 2 Setting of the Instrument Height Reflector Prism Height 91 4 4 3 Execution of Coordinate Measuring 92 ONE a cas audeo d doctr dee reed oder rcd aco Roe ru Se lode 93 4 6 Data Output by REC Key 4s viue vee howe ae SPAM ew ee ee dada 94 4 7 Data output of IS 95 5 PROGRAM MODE i 3 2 St rien ech RES ee ak eS eed wee 96 5 1 Setting a Direction Angle for Backsight 5 97 5 2 Remote Elevation Measurement
9. 95 5 PROGRAM MODE 5 PROGRAM MODE Select the menu by pressing panel icon Main menu STANDARD MEASUREMENT Press the PROG icon Edge abstraction mode Refer to Chapter 5 6 Edge Abstraction Repetition angle measurement Refer to Chapter 5 4 Repetition Angle Measurement REP Missing line measurement Refer to Chapter 5 3 Missing Line Measurement MLM Remote elevation measurement Refer to Chapter 5 2 Remote Elevation Measurement REM Setting a direction angle for backsight orientation Refer to Chapter 5 1 Setting a Direction Angle for Backsight Orientation BS Setting AP L1A communication Refer to Chapter 5 5 AP L1A Communication Emulator 96 5 PROGRAM MODE 5 1 Setting a Direction Angle for Backsight Orientation BS Entering the instrument and backsight coordinate values This program uses the input coordinate values of the occupied point instrument and backsight point to calculate the backsight orientation direction angle The occupied and backsight coordinate input display appears After the coordinate values are entered for both points the instrument calculates the backsight direction angle for orientation Also the occupied coordinate values are stored in memory The program does not store the backsight coordinate values in memory Backsight point A Example Occupied point C coordinate 5 321m E coordinate 8 345m Backsight point A N
10. 99 5 3 Missing Line Measurement MLM 102 5 4 Repetition Angle Measurement REP 104 5 5 AP L1A Communication 106 5 5 1 Activate AP L1A communication 106 5 5 2 Setup for Communication 107 5 6 Edge Abstraction 108 5 6 1 Displayed lt 109 6 PARAMETERS SETTING 110 6 1 Parameter Setting Options 111 Meastrereblt acess iae poA UE See ye Pad do ERE Xd PR 111 Gail 2 COMMUNICATION ssec rst ene sod m tL es d ous a Fe le gentia s 112 Oo WAS eU MM Cr 113 S P AUDIT ERE 113 0 2 Selling Parameters 225 v dut depu v ea C RU Ere Rem ee 114 7 CHECK AND 115 7 1 Checking and Adjusting of Instrument 115 7 1 1 Checking of the accuracy of the non prism mode non prism long mode 115 7 2 Checking the Optical 116 7 2 1 Checking the optical axis of EDM and theodolite
11. AUTOMATIC TRACKING AUTOMATIC e Ifthe target prism is lost during auto tracking status the instrument will automatically change to Waiting status If the target is found during Waiting status tracking resumes and if not status changes to Searching status The instrument and telescope rotate to search the target prism When the target prism is found tracking will resume Automatic tracking The target prism is lost u The target prism Waiting status T is found target prism is not found for some time The following symbol marks are indicated at the upper side of the display In each status laser beam is emitting t Tracking status Waiting status ptu Searching status e Auto tracking status can sometimes be unstable for a few seconds after the optical path is disturbed e lf the stationary target prism center is not collimated correctly you should adjust optical axis for auto tracking Refer to Section 7 2 3 Inspection and Adjustment of Optic Axis for Auto Tracking e Under the bad weather condition for example when the heat shimmer is generated in a great degree or when visibility is poor tracking may be unstable or the instrument may not track the prism center operation keys on the objective lens side an error will be displayed and auto tracking will not start e Use the operation keys on the telescope eyepiece side f
12. Bluetooth mode change error Command mode Bluetooth local device name get error Bluetooth pincode get error Bluetooth pincode set error Bluetooth security get error Bluetooth security set error There is no response from Bluetooth module There is no response from SSWireless module Bluetooth mode change error Close the program and restart the in e If error still persist after attempting to clear them contact your local Topcon dealer or Topcon head office 157 18 SPECIFICATIONS 18 SPECIFICATIONS Telescope Length Objective lens Magnification Image Field of view Resolving power Minimum focus Reticle illumination Assist Focus Method Focus area Focus time Image Sensor Wide Pixel Magnification Minimum focus Angle of field Diagonal Telescope Pixel Magnification Minimum focus Angle of field Diagonal Automatic Tracking Collimating Maximum Automatic Tracking speed Automatic Collimating area Automatic Tracking range 1 Prism type 2 with 1 prism 165mm 45mm EDM 50mm 30x Erect 1 30 1 4m Provided Distance focus method or Contrat pack detection method 5m 1000m Within 4 5 2 sec 1 3M pixel 1280 x 1024 SXGA 0 5 1 0 2 0 4 0 8 0 2 0m 33 1 3M pixel 1280 x 1024 SXGA 0 5 1 0 2 0 4 0 8 0 2 0m S 6 15 xb 8 to 1000 m 26 to 3 280ft Pinpole Prism with 1 prism 5 to 600 m 16 to 1 960ft
13. Prism Unit Type A6 A7 10 to 600 m 33 to 1 960ft Reflector tape bcmx 5cm 10 to 50 m 33 to 164 ft Automatic Collimation accuracy Search pattern Search range Safety standard for Laser Beam 2 Standard deviation 2 Pattern 1 Pattern 2 Any value can be set able to set 1 step Class 1 IEC Publication 825 Class Il FDA BRH 21 CFR 1040 1 Condition Normal Visibility about 20km except high humidity time Automatic Tracking range of Reflector tape will differ depending on the kind of reflector tape 2 The air condition is stable and prism is staying Automatic Collimation Tracking accuracy is available only for prism use except for reflector tape Scanning 1 Range Speed Standard deviation Single 3D point accuracy 150m 2 Max 20points sec Typical 10points sec Smm 12mm 1 When using TopSURV scan function in non stop mode 2 Target color atmospheric conditions and scanning angles will impact range 158 18 SPECIFICATIONS Manual Driving Maximum rotating speed 85 sec Coarse movement Shuttle driving in 7 steps Fine movement Jog driving minimum step about 1 second Driving range O s HR lt 360 By reverse rotating instruction Distance measurement Measurement range e Prism mode Atmospheric conditions Prism Condition 1 Condition 2 3000m 88428 4 000m 18 1288 8 1298 5200m 17 3801 5000m 16 404 500m 212291 Condition 1 Sl
14. The auto tracking function or auto collimating function makes easy remote control of the instrument from PC The followings are the main communication commands and explanations How to communicate or more informations of communication command you can see the interface manual which provided optionally Each measured data will be out put Transmit command for measured data according to the command type The status of Automatic Tracking mode will be out put Transmit Transmit command for battery level The battery level will be out put command Transmit command for coordinate of Setting coordinate of instrument point will instrument point be out put Transmit command for tracking mode Tracking information will be added into the output data in accordance with the setting of the instrument Transmit command for additional tracking information Each selecting mode in horizontal angle Setting of angle measurement or angle measurement can be decided according to the purpose of command Setting the measurement mode for distance measurement Setting coordinate of instrument point Setting the coordinate of instrument point Setting each tracking parameter according to the command ON OFF ON OFF of Tracking indicator Setting of distance measurement Mode setting Setting the tracking parameter Inversion Inversion movement Setting from automatic tracking mode to Setting tracking mode each command mode
15. e TOPCON INSTRUCTION MANUAL IMAGING STATION IS series 1S201 5 203 5 205 Japan Surveying Instruments Manufacturers Association Rev 2 FOREWORD Thank you for purchasing the TOPCON Imaging Station IS series For the best performance of the instruments please carefully read these instruc tions and keep them in a convenient location for future reference General Handling Precautions Before starting work or operation be sure to check that the instrument is functioning correctly with normal performance Do not aim the instrument directly into the sun Aiming the instrument directly into the sun can result in serious damage to the eyes Damage to the instrument could also result from exposing the instrument s objective lens to direct sunlight The use of a solar filter is suggested to alleviate this problem Setting the instrument on a tripod When mounting the instrument on a tripod use a wooden tripod when possible The vibrations that may occur when using a metallic tripod can effect the measuring precision Installing the tribrach If the tribrach is installed incorrectly the measuring precision could be effected Occasionally check the adjusting screws on the tribrach Make sure the base fixing lever is locked and the base fixing screws are tightened Guarding the instrument against shocks When transporting the instrument provide some protection to minimize risk of shocks Heavy shocks may cause the measureme
16. extet minutes 430 minutes Suspend after 10 mindi Hour start c 34 9 12 05 38 Press the icon Start Settings Control Panel Power You can see the Power Properties screen on Display Press the tab Power Off Press the time menu down arrow to select the auto power off time Factory setting is 10 minutes as default Power Properties Battery Power Off Backlight Fe Save battery power and prevent unauthorized 23 use fin conjunction with a password by having your device turn aff when nat in use On battery power suspend after v Enable suspend while on external power Suspend after 10 minutes w EM SP 12 05 262 1 NOMENCLATURE AND FUNCTIONS Press the OK key on title bar After that Power Properties screen will close automatically While on external power the auto power off function can be enabled too To set this function please check it ON the Enable suspend while on external power on the Power Off screen and select the auto power off time Factory setting is OFF as default 39 1 NOMENCLATURE AND FUNCTIONS 40 1 13 Focus Function The focus is adjusted with the manual or assist focusing 1 13 1 Manual Focus Adjust the focus with focus jog shuttle Manual focusing will take precedence over assist focusing When using focus jog shuttle during assist focus mode the assist focus mode will end Focus shuttl
17. Confirm the operation procedure is cor rect Confirm the cable connection is cor rect X tilt is over XTILT OVER Instrument tilts over more than 6 minutes Level the instrument properly Y tilt is over YTILT OVER Instrument tilts over more than 6 minutes 1 Displayed when the telescope rotat There is no error V Angle Error amp ditoo fast l Displaved when the instrument ro If this error code continues to be dis H Angle Error ied MA fast played repair is required Tilt Error Any abnormality occurs with Tilt sen sor zs Repair is required Close the program and restart the in strument Ext Communication Retry Error not be accomplished E 500 The image function could not be successfully executed If this error code continues to be dis played repair is required heavy vibration lighter vibration wees 0 0 Prune nous meeseerer LLCICLITLCLL CMM NN NNNM o o AmeTumSteusGetEmr 777 Close the program and restart the in 7 Dwmweme ges morowo S woms o LLL I MN NR NN 156 17 MESSAGE ERROR DISPLAYS Adjust Axis mode set Error Adjust Axis Read Error Adjust Axis Set Error Angle Turn Set Error Adjust Axis range Error 1 Adjust Axis dist Error 2 Adjust Axis f r diff Error 3 Adjust VAxis std div Error 4 Adjust HAxis std div Error 5 If this error code is consistently dis played repair is required
18. Diffusing Surface D Measuring distance Least Count Measurement Measurement mode Measurement accuracy in Measurement Time 10mm 10ppm x D 1mm Approx 1 5 6 sec 1mm omnes 0 2mm mode 20mm 10ppm x D 5mm Approx 1 3 sec Coarse 10mm Approx 0 4 sec 0 02ft Initial 4 7 sec A 2 The initial time will be different by a condition 3 Measurement distance No more than 500m When Kodak gray card white surface is used 4 However when the measurement distance is more than 500 m or when the reflectance of the measured surface is low measurement time will become longer More than 2m Laser class for distance measurement Class 1 IEC Publication 825 Class I FDA BHR 21 CFR 1040 Atmospheric Correction Range 999 9 ppm to 4999 9 ppm in 0 1 ppm increments Prism Constant Correction Range 99 9 mm to 99 9 mm in 0 1 mm increments Coefficient Factor Meter Feet International feet 1meter 3 2808398501 ft US SURVEY feet 1meter 3 2808333333 ft 160 Electronic Angle Measurement Method Detecting system Horizontal Vertical Minimum reading IS 201 IS 203 IS 205 18 SPECIFICATIONS Absolute reading 2sides 2 sides 1 0 5 0 2mgon O 1mgon 5mmil 2mmil reading 5 1 1mgon 0 2mgon 20mmil 5mmil reading 5 1 1mgon 0 2mgon 20mmil 5mmil reading Accuracy Standard deviation based on DIN 18723 IS 201 IS 203 IS 205 Diameter of circle Tilt Corr
19. S O The difference between the measured distance and the distance preset is displayed The displayed value Measured distance Standard Preset distance Stake out operation can be performed for horizontal distance HD relative elevation VD or slope distance SD 87 4 STANDARD MEASUREMENT MODE Example Horizontal distance MPM rom PPM ppm STAKE OUT MODE HD 0 000 VD 0 000 SD 0 000 STAKE OUT MODE STAKE OUT HD Please Input gt E er out Indicator MPM mm PPM ppm 1 Press the P1 key in the distance measurement mode to get on page 2 2 Pressthe S O key The current setting value is displayed 3 With the HD SD keys select a mode for inputting the standard distance 4 Enter the horizontal distance for stake out 5 Press the SET key 6 Pressthe EXIT key 7 Oollimate the Prism The difference between the measured distance and the standard distance is displayed e To return to normal distance measurement mode reset the standard distance to O 88 4 STANDARD MEASUREMENT MODE 4 4 Coordinate Measurement 4 4 1 Setting Coordinate Values of Occupied Point Set the coordinates of instrument occupied point according to coordinate origin and the instrument automatically converts and displays the unknown point reflector point coordinates following the origin Reflector n e z N Z Origin 0 0 0 Confirm the angle measu
20. Telephone number 925 245 8300 Means of conformity This device complies with part 15 of the FCC Rules Operation is subject to the following two conditions 1 This device may not cause harmful interference and 2 this device must accept any interference received including interference that may cause undesired operation For Canada This Class A digital apparatus complies with Canadian ICES 003 Cet appareil num rique de la classe A est conforme la norme NMB 003 du Canada 167 Community of Europe Compliance We Topcon Corporation declare EC Conformity for the following products Product Identification Brand TOPCON Model Type IS 201 IS 203 IS 205 Manufacturer Name TOPCON CORPORATION Address 75 1 Hasunuma cho Itabashi ku TOKYO 174 8580 Country JAPAN Tel 03 3558 2579 Fax 03 3966 0038 Standards used EN 60950 1 2006 EN 300 328 V1 7 1 EN 301 489 1 V1 6 1 EN 301 489 17 V1 2 1 We the manufacturer name of the manufacturer hereby declare that this equipment type of the equip ment model IS 201 IS 203 IS 205 is in compliance with the essential requirements and other relevant pro visions of Directive 1999 5 EC EMC NOTICE In industrial locations or in proximity to industrial power installations this instrument might be affected by electromagnetic noise Under such conditions please test the instrument performance before use This is a CLASS A product In a domestic environment this product
21. UP DOWN slider The brightness setting is stored in memory after power is turned off To turn on or off the reticle illumination press the reticle illumination icon OFF Reticle illumination icon ON Reticle illumination icon UP DOWN slider UP DOWN slider 34 1 NOMENCLATURE AND FUNCTIONS Laser Pointer ON ON blink OFF The laser pointer assists with collimation by radiating visible laser light from the objective lens to the target The laser pointer can be used for the Prism Non prism and Non prism long mode Laser aperture Laser pointer will be OFF when auto tracking or auto collimation is ON The laser pointer indicates the approximate collimation position of the telescope It does not indicate the exact collimation position When the EDM is working the laser pointer will blink You cannot see the laser pointer when looking through the telescope Therefore please look directly with the naked eye at the point indicated by the laser pointer The distance to which the laser pointer can be used will vary with climatic conditions and with the eyesight of the user When the laser pointer is used the operating time of internal power source will become short When the IS is used in the open air in an urban area etc the laser pointer can be stopped and distance measurement then conducted making it possible to prevent the laser light from hitting a third party Use the operation keys
22. When the 1 cursor key is pressed the brightness becomes brighter When the 4 cursor key is pressed the brightness becomes darker Adjust the brightness to make the image clearer PSM mmi 0 0 0 0 73 4 STANDARD MEASUREMENT MODE 4 1 4 Switching the Cross Hairs On and Off HE 23 28 45 PSM mm HOLD HSET J Pi eset PPM ppm 74 Each time numeric key 9 is pressed the cross hairs appear or disappear from the image Each time the 9 key is pressed the cross hairs on the screen image will change Black White OFF 4 STANDARD MEASUREMENT MODE 4 2 Angle Measurement 4 2 1 Measuring Horizontal Angle Right and Vertical Angle Make sure the mode is in angle measurement 1 Collimate the 1st target A 2 Sethorizontal angle of target A at 0 00 OO Press the OSET key and the YES key ANGLE USET SET OK ge L HSET COollimate the 2nd target B The required H V angle to target B will be displayed 19 4 STANDARD MEASUREMENT MODE 4 2 2 Switching Horizontal Angle Right Left Make sure the mode is angle measurement 1 Pressthe P1 key to get on the page 2 2 Press the R L key The mode Horizontal angle Right HR switches to angle Left HL mode Measure the target in the same manner as HR mode e Every time pressing the R L key is pressed HR
23. 2 Find Point D at a point between Points C and B which should be equal to 1 4th the distance between Points B and C and measured from Point C This is because the apparent error between Points B and C is four times the actual error since the telescope has been reversed twice during the checking operation 3 Shift the vertical cross hair line and coincide it with Point D by revolving the left and right capstan adjustment screws with the adjusting pin Upon completing the adjustment repeat the checking operation once more If Points B and C coincide further adjustment is not required Otherwise repeat the adjustment Capstan adjustment Screws Capstan adjustment screws Eyepiece First loosen the capstan adjustment screw on the side to which the vertical cross hair line must be moved Then tighten the adjustment screw on the opposite side by an equal amount which will leave the tension of the adjustment screws unchanged Revolve in the counterclockwise direction to loosen and in the clockwise direction to tighten but revolve as little as possible Perform following adjustment after complete above adjustment Section 7 5 Compensation Systematic Error of Instrument Section 7 2 Checking the Optical Axis 127 7 CHECK AND ADJUSTMENT 7 3 5 Checking Adjusting the Cross Hairs on Telescopic Wide angle Images 128 Checking telescopic Image Level the instrument with the plate level With the
24. 2 Display the network setting screen Refer to 2 11 2 Displaying the network setting screen ii belt Setthe IP address etc that coincides with the IP Information Wireless Information LAN you are connecting to Select a network and press connect or right click for more options To add anew network double click 4 Select the access point name on the wireless Add LAN setting screen in order to set up an access point of connection Example AP Status Mat Connected Signal Strength Mo Signal Notify when new networks available The Wireless Properties screen will be displayed This is an ad hoc network 5 Select a suitable Encryption for the wireless Encryption WEP LAN used For more information on encryption refer to the manual for wireless LAN access Authentication Open I point Metwork key lab5e41df24a0 erni i 6 Press OK The key is provided automatically Enable 802 1 authentication EAP tyne T 5 Properties 99 92 9 5 16 AM Connection setting is complete 2 PREPARATION FOR MEASUREMENT e When connecting the IS and a device directly ad hoc connection x USB Wireless LAN Adapter Settings IP Address Name Servers An IP address can be automatically assigned to this computer Obtain an IP address via DHCP Specify an IP address IP Address 192 168 1 2 Subnet Mask 255 255 255 0 182 168 1 1
25. 3 4 Collimation of the Instrument Section 7 3 7 Adjustment of Vertical Angle 0 Datum Section 7 2 Checking the Optical Axis 7 CHECK AND ADJUSTMENT 7 3 4 Collimation of the Instrument Collimation is required to make the line of sight of the telescope perpendicular to the horizontal axis of the instrument otherwise it will not be possible to extend a straight line by direct means e Check 1 Set the instrument up with clear sights of about 50 to 6Ometers 160 to 200 ft on both sides of the instrument Eyepiece 2 Level the instrument properly with the plate level 50m ex 3 Sight Point A at approximately 50 meters 160 ft distance ud 4 Loosen the vertical motion clamp only and rotate the telescope 180 or 200G around the horizontal axis so that the telescope is pointed in the opposite direction 5 Sight Point B at equal distance as Point A and tighten the vertical motion clamp 6 Loosen the horizontal motion clamp and rotate the instrument 180 or 200G around the vertical axis Fix a sight on Point A once more and tighten the horizontal motion clamp 7 Loosen the vertical motion clamp only and rotate the telescope 180 or 200g around the horizontal axis once more and fix a sight on Point C which should coincide with previous Point B 8 If Points B and C do not coincide adjust in the following manner Telescope e Adjustment 1 Unscrew the cross hair adjustment section cover
26. 349 306 Stylus System volume amp Sounds The Wireless LAN Power screen will be displayed Wireless LAN Power Power Change the Wireless LAN Module Power State 2 Press the Power ON key Power for the wireless LAN will turn on WLAN Power State fore p ON p Cromer ow D gel w EF 5 10 AM 2 11 2Displaying the network setting screen 1 the wireless LAN power USB Wireless LAN Adapter Settings IP Address Name Servers 2 Pressthe icon in the following order An IP address can be automatically assigned to this Start Setting Network and Dial up computer Connections NJT499A 1 Specify an address The network setting screen will be displayed Subnet Mask fo Default Gateway foe 59 2 PREPARATION FOR MEASUREMENT 2 11 3Displaying the wireless LAN setting screen 1 Double tap the network icon above the taskbar NIT499A1 2 Select the Wireless Information tab IP Information fqireless informatio The wireless LAN setting screen will be Select a network and press connect or right click for more options To add a new network double click Add Mew Add New displayed i AP Log Status Mat Connected Signal Strength Mo Signal Notify when new networks available 5 5 12 2 11 4Example of wireless LAN setting e When connecting to a wireless LAN access point 1 Turnon the wireless LAN power
27. COLLIMATION Automatic Tracking The instrument will measure the moving target prism in automatic tracking mode It is possible to perform auto tracking only in prism mode When switched to the automatic tracking mode it becomes prism mode from Non prism mode Non prism long mode automatically Moreover after the end of an automatic tracking does not return to Non prism mode Non prism long mode The prism should be stable when beginning auto tracking Moreover when the prism is locked from the search it is similar The Coarse 10mm mode must be used when measuring distance continuously for the moving prism In other modes it is impossible to measure the distance continuously Change to the Fine mode when measuring the distance with high accuracy for the stationary prism 1 D HR 294 57 50 V 0 097 PSM imm TURN Pl s meas move turn J PPM ppm Roughly collimate the target prism using V H jog shuttle Refer to Section 3 3 Range of Laser for Auto tracking and Auto collimating Press the star X key to set the star key mode Press the Auto tracking icon The mode will be automatic tracking mode The instrument searches the prism and tracks it automatically Choose measuring modes by pressing the operation keys Measuring starts When you wish to cancel the automatic tracking mode press the star X again and then press the Auto tracking icon 65
28. Collimate the center of a prism by prism mode The buzzer will sound 5 the HOLD key to hold the quantity of EDM CHECK the light 65 21 10 HR 90 20 30 SA LEVEL EDM MODE PRISM Qo The mark will appear on the right side of the signal level indicator 65 21 10 HR 90 20 30 SA LEVEL EDM MODE PRISM 116 7 CHECK AND ADJUSTMENT H direction confirmation Do not move V direction 6 Turnthe horizon jog counter clockwise move the collimating point to the left side of prism gradually until buzzer sound stops Prism Reticle 7 Turn the horizontal jog clockwise slowly and move the collimating point to the prism center gradually until at the position buzzer starts Confirm the level of the signal light quantity level in display to adjust at the level of one to two as shown in below by turning the horizontal jog Prism Reticle 65 21 10 HR 90 20 30 SA LEVEL MM EDM MODE PRISM Quantity level two 8 Note the horizontal angle displayed 9 Turnthe horizon jog clockwise move the collimating point to the right side of prism gradually until buzzer sound stops Prism Reticle 10 Move the collimating point to the center of prism gradually until buzzer sound starts Turning the horizontal jog to be one to two level of SIG value to adjust the collimating point same as step 7 procedure 11 Note horizontal angle same as step 8 procedur
29. HL mode switches Reference How to Collimate 1 Point the telescope toward the light Turn the diopter ring and adjust the diopter so that the cross hairs are clearly observed Turn the diopter ring toward you first and then backward to focus Aim the target at the peak of the triangle mark of the sighting collimator Allow a certain space between the sighting collimator and yourself for collimating Focus the target with the assist focus key or focus jog shuttle If parallax is created between the cross hairs and the target when viewing vertically or horizontally while looking into the telescope focusing is incorrect or diopter adjustment is poor This adversely affects precision in measurement or survey Eliminate the parallax by carefully focusing and using diopter adjustment For more information about assist focus function see section 1 13 Focus Function 76 4 STANDARD MEASUREMENT MODE 4 2 3 Measuring from the Required Horizontal Angle 1 Setting by Holding the Angle Make sure the mode is angle measurement 1 2 3 H ANGLE HOLD 4 HR 90 2030 SET 0 0 0 1 return to the previous mode press the NO key 2 Setting a Horizontal Angle from the Keys Make sure the mode is angle measurement 1 2 3 4 HR 1 With wrong input value for example 70 setting will not be completed Input again from step 3 Set the required horizontal angle using Horizontal jog shuttle Example 90 20
30. Locking the Tribrach Fixing lever The tribrach fixing lever can be locked from being moved accidentally This is useful if the upper instrument section is not being detached very often Simply tighten the securing screw on the fixing lever with the accessory screw driver 149 13 SPECIAL ACCESSORIES 13 SPECIAL ACCESSORIES RC 3H Remote Control System RC 3 Using together with RC 3R makes it possible to optical communication between the IS series and RC 3H This gives easy operation for one man surveying Tribrach TR 5 This is detachable tribrach having tribrach fixing screw Trough compass Model 6 Shock proof construction No clamp is necessary when carrying the instrument Diagonal eyepiece Model 10 Observation in an easy posture will be provided up to the zenith position 150 Optical plummet tribrach TR 5P This is detachable tribrach having built in optical plummet telescope Compatible with Wild Solar filter Model 6 A filter designed exclusively for direct collimation of the sun Solar filter of flap up type Solar reticle Model 6 A reticle designed for collimation of the sun Can be used together with Solar Filter 1 SPECIAL ACCESSORIES Prism unit case Model 6 Prism unit case Model 3 Fixed 9 prisms unit or tilting 3 prisms unit can be This is the plastic case to store and carry various stored in this case Especially this is a very easy case sets o
31. Measurement 9 Oollimate target K Vertical angle VA and Vertical distance VD Input Prism Height by Manual will be shown ESC YES No esc Meas Ground Ground IMAGE VA 36 56 00 VD 3 970 m ao 101 5 PROGRAM MODE 5 3 Missing Line Measurement MLM The Missing Line Measurement program calculates the horizontal distance dHD slope distance dSD and elevation dVD between two target prisms The instruemt can accomplish this in two ways MLM Method A B A C Measurement is A B A C A D MLM Method A B B C Measurement is A B B C C D Prism A Prism B Instrument Prism C Example MLM Method A B A C Procedure of MLM Method A B B C is completely same as Method A B A C Method 1 Press the MLM icon 2 Selectthe A B A C button 3 Oollimate prism A 4 Pressthe MEAS key Horizontal distance between the instrument and prism A will be shown Direction 102 NUT Line Measurement a D HEA Ha den Direction Missing Line Measurement MLM B A C HD 950 0 599 284 5 15 053 e Direction HL dD 950 Direction 2643135 5 PROGRAM MODE 5 Collimate prism B and press the MEAS key Horizontal distance between the instrument and prism B will be shown And then the horizontal distance dHD relative el
32. Speed Press the Enter key 71 4 STANDARD MEASUREMENT MODE 4 STANDARD MEASUREMENT MODE STANDARD MEASUREMENT STANDARD MEASUREMENT MODE Angle measurement Distance measurement Coordinate measurement Press the MEAS icon 4 1 Screen Displays In the standard measurement mode the collimation screen is displayed on the display device except during collimation with the telescope The images include a telescopic image and a wide angle image e Telescopic image An image similar to that obtained by collimation with the telescope is displayed e Wide angle image An image with a wide angle is displayed 4 1 1 Switching between Telescopic Image and Wide Angle Image When numeric key 1 is pressed a telescopic image appears When numeric key 2 is pressed a wide angle image appears See section 1 8 1 Operating Key It is also possible to switch between a telescopic image and a wide angle image by tapping the screen The focus of telescopic images is adjusted with the telescope focusing knob Displays the current mode TELE Telescopic image WIDE Wide angle image 72 4 STANDARD MEASUREMENT MODE 4 1 2 Changing the Image s Magnification When the cursor key is pressed magnification decreases When the cursor key is pressed magnification increases Displays the current magnification There are 4 magnifications 0 5 1 0 2 0 4 0 and 8 0 4 1 3 Adjusting the Image s Brightness
33. be incomplete if you upgrade OS version 1 4 1 Execute the Backup Function Make sure the mode is Windows CE mode 1 Press the icon Start Settings Control Panel Backup Bluetooth Certificates Date Time Device x v 9 Dialing Display Input Panel Internet Options gt a e s _ hoar Mouse Network and Owner 9 39 1 12 B You can see the RAM Backup screen Display 2 Press the RAM data backup key RAM Backup Restore Data restoration after hard reset You can see the Confirmation screen on display 22 1 NOMENCLATURE AND FUNCTIONS 3 Press the YES key RAM Backup Backing up data board Mouse Network and Owner Return to RAM Backup screen automatically when the data back up has been completed 4 Press the OK key on title bar After that RAM Backup screen will close automatically Backing up data may be incomplete if remaining capacity of Internal Disk is not enough Please make sure the remaining capacity of Internal Disk before proceeding to the data back up Restoration will be impossible if you delete the Backup folder in the Internal Disk 23 1 NOMENCLATURE AND FUNCTIONS 1 4 2 Set the Automatic Backup for Every Suspension 1 Onthe RAM Backup Screen please check it ON the RAM data will be backed up before suspension Factory setting is ON as default RAM Backup Restore Data restoration af
34. cancel If your Windows CE device is not responding properly to your taps you may need to recalibration involves tapping the center of a target If you miss the center keep the stylus on the screen slide it over the target s center and then litt the stylus To start tap Recalibrate 1 NOMENCLATURE AND FUNCTIONS 4 Using the stylus pen press the center of the targets on the screen 5 After pressing all targets 5 points press the ENT key or tap the display 6 Pressthe OK key The display returns to previous menu 27 1 NOMENCLATURE AND FUNCTIONS 1 8 Operating Panel Key To operate the keys on the screen touch them lightly with either the accessory stylus pen or your finger Use either the stylus pen or your finger Do not use a ballpoint pen or a pencil 1 8 1 Operating Key ENDE 2 En a e 57 Donon 2 6 Light sensor MICIODHOBS adjust backlight Name of Key Entering numerals Numeric key Switching between wide angle and telescopic images Keys 1 and 2 Switching the cross hairs ON black ON white OFF Key 9 Alpha key Entering Alphabets EM Escape key Returning to the previous mode or display Star key Star key mode is used for each presetting or displaying The stylus pen is stored beside the display Enter key Press at the end of inputting values Tab key Moves the cursor to the right or downwards Back space key When inputting numbers or chara
35. e Please refer to the IS Series Interface Manual sold separately for details about connection to the instrument 44 1 NOMENCLATURE AND FUNCTIONS 1 17 Using the USB Port Type miniB Active Sync Type A USB Memory e Using ActiveSync For Type mini B refer to Chapter 2 9 Active Sync e Using a USB memory 1 Open the USB connector cover 2 Insert a USB memory into the Type A side 3 Confirm that the USB memory has been recognized B When using the USB port mini B Type A do not rotate the instrument It will cause damage to the instrument USB memory or F 25 cable 45 2 PREPARATION FOR MEASUREMENT 2 PREPARATION FOR MEASUREMENT 2 1 Power Connection Obtain power from BT 65Q battery or an external battery e When using the BT 65Q leave the power of the instrument switched ON 26 External battery lt a mg rd E e Selecting an external battery When using an external battery select the battery type either Li ion or 12V BATTERY Regarding operating procedures refer to Chapter 6 PARAMETERS SETTING MODE EXTERNAL BATTERY 46 2 PREPARATION FOR MEASUREMENT 2 2 Setting Instrument Up For Measurement Mount the instrument to the tripod Level and center the instrument precisely to insure the best performance Use tripods with a tripod screw of 5 8 in diameter and 11 threads per inch such as the Type E TOPCON wide frame wooden tripod Reference Leve
36. may cause radio interference in which case the user may be required to take adequate measures 168 3 Bluetooth Bluetooth and the Bluetooth logos are trademarks owned by Bluetooth SIG Inc and licensed to Topcon Corporation CORPORATION 75 1 Hasunuma cho Itabashi ku Tokyo 174 8580 Japan www topcon co jp 2009 TOPCON CORPORATION ALL RIGHTS RESERVED
37. of till of the vertical axis and the target These factors are related by the following formula 2 V sina tanh where v tilt of axis in arcseconds a azimuth angle between vert axis direction and target h elevation of target HZerr error in horizontal angle Example When the vertical axis is tilted by 30 arcseconds the target is 10 above the horizon and rotated 90 in azimuth from the direction of the vertical axis error HZerr 30 sina tan10 Hze 30 1 0 176326 5 29 From the above example it can be seen that horizontal angle errors will increase with steeper vertical sights tangent will increase as vertical angle increases and will be at a maximum when the target is at right angles sin 90 1 to the direction of the vertical axis error Errors will be at a minimum when the sights are nearly horizontal h2O tanO 0 and in the same direction as the vertical axis error 0 sin0 0 Please refer to the table below to see the relationship between axis tilt v and elevation h and the error in horizontal angles which results from these factors 1 APPENDIX It is clear from the table that dual axis compensation has the most benefit when the elevation of the target is greater then 30 and the axis is tilted more than 10 The entries indicated in bold in the table show in fact that for many common surveying applications i e target elevation lt 30 and axis error lt 10 virtually no correcti
38. on the telescope eyepiece side for key operation If you use the operation keys on the objective lens side an error will be displayed and the laser pointer will not turn on This prevents the laser beam from hitting the eyes of the operator Turn the auto tracking ON OFF Press the Auto tracking icon to start auto tracking See Section 3 1 Automatic Tracking Turn the auto collimating ON OFF Press the Auto collimating icon to start auto collimating See Section 3 2 Automatic Collimation e Set the parameters for the auto tracking A proper setting for each parameter such as tracking pattern tracking range waiting time tracking speed and tracking sensitivity See Section 3 4 Setting Parameters for Auto Tracking e Auto Inversion Pressing the Auto Inversion icon causes the instrument to reverse and turn the telescope and instrument automatically See Section 1 14 Rotating Method To stop auto rotating in case of emergency press any keys except POWER key During auto rotation do not disturb the instrument Stopping the rotation with a touch of the hand Such action may cause trouble or harm to instrument or operator Prism mode non prism mode non prism long mode To switch the prism mode non prism mode non prism long mode press the Prism Non prism Non prism long switching icon For more information see Chapter 1 11 1 Switching Measurement Distance Modes e Prism constant value Atmospherioc co
39. remote object Target K VD PrismP Il Prism height N Instrument 1 With prism height input 1 Press the REM icon 2 Select the YES button 3 Input the Prism Height Example 1 000m 4 memorize the prism height press the SET Prism Height Lon 7 000 Meas Prism 99 5 PROGRAM MODE Remote Elevation Measurement Input Prism Height by Manual Storing OK Remote Elevation Measurement nput Prism Height by Manual I VES Cuno Prism Height 1 000 REM Measure Prism Remote Elevation Measurement Input Prism Height by Manual VES C NO 1 000 m SET 100 Prism Height MA Vp 66 40 10 2 809 m 5 ESC Storing the Current Refrector Height E ESC MAGE CTL 5 Press the YES key 6 Collimate prism 7 the Meas Prism key 8 Press the SET key To measure the distance again press the RE TRY key 9 Oollimate target K Vertical angle VA and Vertical distance VD will be shown 5 PROGRAM MODE 2 Without prism height input 1 Pressthe REM icon Select the NO button Collimate prism Press the Meas Prism key Press the SET key TE Collimate ground point G N O OG A Q DN Press the Meas Ground key Remote Elevation Measurement 8 Press the SET key REM Measure Ground Point Colimation OK 93 00 00 Remote Elevation
40. 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 for prism constant it is retained after power is OFF Note Confirm the non prism constant value is set at when measuring target such as walls in Non prism mode Non prism long mode Prism name Prism constant value Prism constant correction value m Example How to Set Prism Constant Value 1 Turnthe power switch on 2 Pressthe key J Pressthe Prism constant value Atmospheric correction icon 4 Pressthe Prism constant value icon Non Prism constant value icon 138 8 SETTING THE PRISM NON PRISM CONSTANT CORRECTION VALUE There are two ways to enter a prism constant ENTER key correction value as described below Directly entering the prism constant correction value 5 Press the prism selection switch and select Manual 6 Enter the prism constant correction value 1 Example 14mm When the prism constant value is 14mm the prism constant correction value will be 14mm 1 Input range 99 9mm to 99 9mm 0 1mm step Pressthe ENTER key The prism constant correction value has been set Selecting prism to use Example Selecting prism unit A5 8 Press the prism selection switch and select A5 2 9 Pressthe ENTER key The prism constant correction value will be set automatically 2 Th
41. 0 aA AAU ADR RY ALIIS AAT TRAD A AREA AR AA AL a AARE BEREA IN LNIN RON NIN KON YE AAA ESO iT RENE ENDE TO NN SNR ANNA AREI NS NX DER E 110 1050 M SDRC AE RN DEE LN RI RN REY PCNA NOUNLCNDENUN AER ALG BIA AA ep NADAL AAT NER ERA A PRIN RAL RATA AL AT ARON REN RENE RENE ENRE SRA ES RADAR AD RIAD AT RROA WARRIOR A AL JAAR ATRIA AAR ATL AU AUDA AREA RECREA RECARE RERA RAA NN SADA RIAD RTA A AAD SAIL PLE AACA AAAI OB TAY TANANAN ARI A A A BASY 1000 ce c e ce Lea c La ce eT e oo equ amssard ataydeomyy Tau TOO 9 110 120 150 7H 100 50 0 10 Temperature E 144 Atmospheric pressure in He all i EH 28 28 EBEN 27 E 26 25 24 23 22 H al 10 0 10 E 30 a0 R Re EKER E all 60 Temperature F 70 9 SETTING ATMOSPHERIC CORRECTION 0 2 000 1000 E T 6 000 8 000 10 000 al 100 110 120 130 145 10 CORRECTION FOR R
42. 30 Press the HOLD key Collimate the target 1 Press the YES key to finish holding the horizontal angle The display turns back to normal angle measurement mode Collimate the target Press the HSET key Input the required horizontal angle For example 70 20 30 Input 70 2030 Press the SET key 1 When completed normal measuring from the required Horizontal angle is possible T 4 STANDARD MEASUREMENT MODE 4 2 4 Vertical Angle Percent Grade Mode Make sure the mode is angle measurement 1 Press the P1 key to get on the page 2 2 Pressthe V 96 key 1 1 Every time pressing the V 26 key the display mode switches 78 4 STANDARD MEASUREMENT MODE 4 2 5 Automatic Rotation to a Required Horizontal and Vertical Absolute Angle The IS series can be rotated to a required horizontal and vertical absolute angle by direct key input Example Both vertical and horizontal angle 1 Atangle measuring mode Page 3 press the TURN key 2 Selectitem to rotate Example V H ANGLE V ANGLE H ANGLE 3 Input angle For example 50 20 30 Input 50 2030 4 Press the SET key Rotation will begin After completing the rotation it will return to the previous mode C 1 Setting range for rotation is 0 00 00 s V lt 360 00 00 0 00 00 lt HR lt 360 00 00 2 Press any key except power key to stop rotating in emergency during operation 3 You can select a
43. Battery Power Off Backlight Status Main Batteries Backup Batteries Good Good You can see the Key Light screen on Display 2 Select a Radio button Factory setting is Key light synchronizes with backlight as default Power Properties ey light is always on ey light synchronizes with backlight 118 S 10 22 E G8 3 Press the OK key on title bar After that Power Properties screen will close automatically Power Properties Key light is always on Key light synchronizes with backlight S 10 22 2 84 21 1 NOMENCLATURE AND FUNCTIONS 1 4 RAM Data Backup If your device had not recharged during several days the battery will be running down and you would lose all of data on the device other than that in the Internal Disk internal micro SD card In addition you might perform hardwarereset by the hardware problem or software problem In this case you would lose all data same as the above You can use Backup function of the instrument in order to evade such kind of uneasiness Your data will be restored to latest condition 1 automatically when rebooting by using the Backup function The Backup function saves all data files of RAM except for OS files registry file and additionally installed programs into named Backup folder in the Internal Disk 1 The conditions that you executed the backup function last B Restoring former backup data may
44. Chapter 7 CHECK AND ADJUSTMENT e e e e e PARAMETERS SETTING MODE This mode is used for follows e Setting measurement e Setting communication e Value input e Setting unit The PARAMETERS SETTING MODE settled is memorized even power is off see Chapter 6 PARAMETERS SETTING STANDARD MEASUREMENT MODE This mode is used for follows Angle measurement Distance measurement Coordinate measurement see Chapter 4 STANDARD MEASUREMENT 1 NOMENCLATURE AND FUNCTIONS 1 2 2 Measurement Menu Example Distance Mode V angle V 88 44 25 y H angle HR 169 48 45 Horizontal distance HD 4 411m Relative elevation VD 0 097m Operation keys 1 2 3 Display Marks LV Vae Memrut LV Fest uni HR rangle ight Fine modes HL angie arse mode Reiveskwaion R Repeat measurement SD S Sngemesswemen Nexwdmae N N mesmeasuement LE Ecorae PPM Rimospherio correction value Z Zcowdmae PSM Prism constant correction value og EDM working NPM Non Prism constant correction value Battery Level Indicator Hefer to see Chapter 2 4 Battery Power Remaining Display for further information Non prism mode Rotation Indicator Refer to Section 1 14 Rotating Method Non prism long mode for further information FS Laser emitting mark Setting Non
45. Chapter 7 5 2 Showing Compensation Systematic Error of Instrument POWER ON MODE ANGLE DIST Select the measuring mode when the power is on to angle mm measurement or distance measurement After turning on the power select the same measuring mode DIST MODE FINE CRS cRS FINE CRS CRS10mm as when distance measurement was initially carried out After turning on the power select the same measuring mode DIST DISPLAY HD amp VD SD HD amp VD SD as when distance measurement was initially carried out V ANGLE Z0 HO Select the vertical angle reading for Zenith or Horizontal DIST MEAS After turning on the power select the same measuring mode REPEAT N TIME REPEAT N TIME as when distance measurement was NUMBER NER initially carried out Select the display format in the coordinate measurement NEAN ENZ mode for NEZ or ENZ Select the coefficient correction for refraction and earth W CORRECTION OFF 0 14 0 20 curvature Selections for the refraction coefficient are OFF No correction K 0 14 or K 0 20 S A BUZZER OFF ON Select the Audio tone OFF or ON for the Set Audio Mode MEASUREMENT2 TURN FINE NORMAL Select the stopping accuracy of automatic rotation to required COARSE angle FINE 3 NORMAL 5 COARSE 10 AUTO AIM Select the accuracy of automatic collimation NORMAL START MODE STD MEAS Select the start mode after hardware reset or software reset Ext Link This setting does not effect the resume mode
46. EFRACTION AND EARTH CURVATURE 10 CORRECTION FOR REFRACTION AND EARTH CURVATURE The instrument measures distance taking into account correction for refraction and earth curvature 10 1 Distance Calculation Formula 146 Distance Calculation Formula with correction for refraction and earth curvature taken into account Follow the Formula below for converting horizontal and vertical distances Horizontal distance D or Vertical distance Z BC a or D L cosa 20 y sina Z L sina 0 y cosa L coso 2H Earth curvature correcting item Atmospheric refraction correcting item K Lcosa 2R K 0 14 or 0 2 Coefficient of refraction R 26372km Radius of earth Altitude angle Slope distance Radius of earth R 6372Km e The conversion formula for horizontal and vertical distances is as follows when correction for refraction and earth curvature is not applied D L cosa Z L sina The coefficient of the instrument has been set at 0 14 before shipment 0 14 if the K value is to be changed refer to 6 PARAMETERS SETTING MODE 5 11 11 POWER SOURCE AND CHARGING POWER SOURCE AND CHARGING 11 1 On board Battery BT 65Q To remove 1 Pull the battery cover lever and open the battery cover 2 Remove the battery POWER LED CHARGE LED To charge Connect the AC DC converter AD 12 and AC Cab
47. IC COLLIMATION 64 3 1 AULOMALIC Tracking 2 2 3 34 eo acr ate Y deo a hid Se EE a eS 65 3 2 Automatic diu deed oda oe P dona eee C Pe wed Mea 67 3 3 Range of Laser for Auto tracking and Auto collimating 68 3 4 Setting Parameters for 69 om Ma ES T CEP a a eee hie ile pee ea aes 69 3 4 2 How to set the parameters 71 4 STANDARD MEASUREMENT 72 4 1 Screen Displays wei ote x eir eh CERO Re CR a See eee ae SRSA 72 4 1 1 Switching between Telescopic Image and Wide Angle Image 72 4 1 2 Changing the Image s 73 4 1 3 Adjusting the Image s Brightness 73 4 1 4 Switching the Cross Hairs On and Off 74 42 Angle WICASUIEINGINN ie te oe had don tee eee as Sene der dU Ded ee em ee 75 4 2 1 Measuring Horizontal Angle Right and Vertical Angle 75 4 2 2 Switching Horizontal Angle 76 4 2 3 Measuring from the Required Horizontal Angle 77 4 2 4 Vertical Angle Percent Grade Mode 78 4 2 5 Automatic Rotation to a Required Horizontal and Vertical Absolute Angle
48. Note Confirm that Non prism correction value is set at zero before measurement target such as a wall in Non prism mode 4 3 3 Setting Measurement distance range of Non prism long mode To set measurement distance range carry out the following operating procedure 1 Press the star key 2 Pressthe NP P key 3 the LNP DIST RANGE key NP NORMAL 82 4 STANDARD MEASUREMENT MODE 4 Inputthe distance range by pressing the numeric key 1 LNP DIST RANGE FR MN NE NUNE Example 10m LNP DI oT RANGE 5 Press the J ENTER LNP DIST RANGE The display returns to the star key mode 1 Input range 5 m 1 800 m 17 ft 5 900 ft 83 4 STANDARD MEASUREMENT MODE 4 3 4 Distance Measurement Continuous Measurement Make sure the mode displays angle measurement 1 Collimate the center of prism 2 Press the Zl key 1 2 Example Horizontal distance Relative elevation mode OSET HOLD The result shown 3 7 88 44 25 HD 4_ 11 gt 169 48 45 097 1 2 1 The following characters will be shown on the 4th line right hand of the display to represent measurement mode F Fine C Coarse1mm c Coarse10mm R Continuous Repeat S Single N N times When EDM is working the mark appears in the display The result is shown with b
49. RCH RANGE 10 in horizontal 5 in vertical Search range Point where prism lost Setting Search range requires consideration The items to think about optical path interrupted by other objects collimated point from IS series to prism is shifted after Turning and Searching Command possible other prisms targets or other objects to interfere with tracking the desired prism and many other examples all play a role in determining the search range Note This search range is only for auto tracking function The search range of auto collimating is fixed as x5 in both directions horizontal and vertical 3 Wait Time The time the prism is lost before IS series starts the searching Setting time is 1 step maximum 60 minutes If the mode is set to HOLD mode will not change to searching 4 Tracking Speed Choose the mode of Survey or Machine Control according to the purpose of measurement In case requiring auto aiming in high accuracy to the prism which is still Suitable for fixed point observation management of landslides surveying displacement of dam When beginning auto tracking the instrument needs to collimate stable prism SURVEY Suitable for controlling of construction machinery or real time surveying of variety MACHINE traveling objects CONTROL When beginning auto tracking the instrument can track a prism even if the prism is moving Note If the Machine Control mode is chosen the IS ma
50. SB cable F 25 d lt gt LSSI LEST eS o 2o d IZZI LEIS QA ELSI XY Ep y LY The instrument will give the prompt Conneting to Host The PC will prompt you to set up a partnership or set up as a guest Select the NO key to setting up as a guest oO Oc A Q Press the Next key Once a connection has been established the ActiveSync window will appear on your PC 7 Click the Explorer icon You will then see the IS file structure 2 10 Confirming the Bluetooth Device Address and Setting the PIN code You can confirm the Bluetooth address and set the PIN code Refer to Chapter 6 PARAMETERS SETTING MODE Chapter 6 1 2 Communication To communicate between the instrument and some other Bluetooth enabled instrument it is necessary to make the PIN codes of both instruments identical If two PIN codes don t coincide the two instrument cannot communicate each other For setting the PIN code of other Bluetooth enabled instrument see the instrument s instruction manual 2 PREPARATION FOR MEASUREMENT 2 11 Setting up wireless LAN It is possible to connect to a wireless network using the wireless LAN function 2 11 1 Turning on the power for wireless LAN File View 1 Pressthe icon in the following order Start Setting Control Panel WLan Power ma of J F Start gH H Owner Password PC Connection 959 Regional Remove Storage Settings Programs 2
51. SPLAY The display returns to previous menu YES 0 23 14 HCO 0 00 00 HAX 0 00 00 135 7 CHECK AND ADJUSTMENT 7 6 Self Checking Mode Self checking option The self checking function is to check internal communication and tilt sensor offset value When ambient temperature is changed or the instrument is not balanced by its internal battery is attached or detached the self checking is recommended Confirm the battery power remaining on the display Replace with charged battery or charge when battery level is low 1 the instrument is leveled VANGLEOADIUST 2 Press SELF CHECK key INST CONSTANT 3AXIS COMPENSATION _ Self checking mode will display Self Check Start To skip the self checking press EXIT key Levelthe instrument by turning the leveling Screws When the leveling is within 30 and stable the self checking will start SELF CHECK 0 00 00 0 00 03 136 SELF CHECK Self Checking 7 CHECK AND ADJUSTMENT The instrument will turn automatically and the tilt sensor offset value will be measured and memorized To cancel turning the instrument press EXIT key After checking the ADJUST MPDE menu will be shown 137 8 SETTING THE PRISM NON PRISM CONSTANT CORRECTION VALUE 8 SETTING THE PRISM NON PRISM CONSTANT CORRECTION VALUE The prism constant value of Topcon is set to
52. accuracy of the actual stopping angular positions Refer to Chapter 6 PARAMETERS SETTING MODE 79 4 STANDARD MEASUREMENT MODE 4 3 Distance Measurement 80 Note Those distance shorter than 1m and 400m or more will not be displayed in Non prism mode Those distance shorter than 4 5m and 2010m or more will not be displayed in Non prism long mode Prism mode and Non prism mode In IS series the distance measurement will be done using invisible pulse laser beam emitted from pulse laser diode You can select measurement mode between Prism mode which collimating a prism and Non prism mode Non prism long mode that is collimating a target object except prism For measurement with a prism be sure to measure with the prism mode If you measure with the non prism mode and non prism long mode accuracy cannot be guaranteed Non prism mode and non prism long mode enable all distance measurements such Distance measurement Coordinate measurement Offset measurement and Layout To switch over Prism mode to Non prism mode or Non prism long mode press the NP P operation key in each measurement display NP of Non prism mode indicator will be shown at the right corner of the display in Non prism mode measurement or LNP of Non prism long mode indicator will be shown Changing mode shall be done before measurement Example Distance measurement mode Coordinate measurement mode Non prism mode indicator When using a reflecti
53. amount of deviation between vertical and horizontal directions of the tracking axis is calculated 8 Pressthe YES key Compensation value is set up and recorded in the instrument Return to Main Menu e The display shows Adjust Axis range Error 1 when the calculated compensation value is exceeded than limited value If the distance between the instrument and the prism is not enough to adjust the display shows Adjust Axis dist Error 2 The distance between the instrument and prism should be more than 35m If the difference of the measured data between in normal position and in inverted position is exceeded than limited value the display shows Adjust Axis f r diff Error 3 If the measuring is unstable when the atmospheric condition is bad or the optical path is interrupted the display shows Adjust VAxis std div Error 4 Adjust HAxis std div Error 5 To cancel the compensation press the EXIT key 123 7 CHECK AND ADJUSTMENT 7 3 Checking Adjusting Each Function e Pointers on the Adjustment 1 Adjust the eyepiece of the telescope properly prior to any checking operation which involves sighting through the telescope Hemember to focus properly with parallax completely eliminated 2 Carry out the adjustments in the order of item numbers as the adjustments are dependent one upon another Adjustments carried out in the wrong sequence may even nullify previous adjustment 3 Always conclude adjustments by tig
54. anatory Label Each label is differed by the market Symbol Mark while the Laser is Emitting These symbol marks will come on while the laser is working Auto collimating Auto tracking Waiting Searching Class 1 CLASS 1 Laser Optical communication Class 2 CLASSI I Laser Auto collimating Auto tracking t eal When distance is being measured Class 1 CLASS 1 Laser When Laser Pointer light is ON Class 2 CLASS II Laser Contents FOREWORD Edu RE xU PIRE ee ee eee ae 1 General Handling Precautions 2 Display for Sale USE ise oct ate EE re es eo De OS a Am 3 vci Aere C a ene ee ee ee ee ee ane 3 css sucio evi tea as ace UD Dad aM eee T 6 Exceptions from lt 51 5 6 Laser susurro eu aT Edd s Dee a a ed tre Sas Fried Is 7 Elo M CT P ICI te ee ee 7 Symbol Mark while the Laser is Emitting lille 8 COMMING CT TERT 9 1 NOMENCLATURE AND 12 11 E 1001186210 Cmm 12 12 MU rrr 14 1 2 1 Menu Contas s s eaa dri EO swede owed d EI 14 1 2 2 Measurement Menu 15 1 2 9 Display Marks i etx eS EHE ERE T ated esteem dcr Cot
55. asing distance 3 range mm Inclined angle degree Inclined angle degree Prism type or 5 Prism unit A2 A3 A6 Distance Measuring error Angle measuring error Increasing distance range mm Inclined angle degree Inclined angle degree Example In case Prism constant value C Omm Prism inclination 20 Measuring distance 100m by Prism type 2 e Distance error is From the graph prism type 2 the distance error shows in increasing range quantity 2 5mm along curved line of when prism inclination is 20 e Angle error is From the graph prism type 2 along curved line of 0 with prism inclination of 20 find angle error quantity 14 2mm and calculate angle error by the following formula 4 Angleerror range Angle error tan 4 142 io em 29 63 AUTOMATIC TRACKING AUTOMATIC 3 AUTOMATIC TRACKING AUTOMATIC COLLIMATION N WARNING e Cause eye injury or blindness Do not stare into beam N CAUTION Let the laser beam reach the aimed object or the target without anybody else in the laser beam path In case you operate laser beam open avoid radiating laser beam to the height of man s head It is quite possible for the beam to enter into one s eyes and it is possible to lose visual sight temporarily and lose one s caution and awareness of other dangers avoid glaring beam 64 3 1 3 AUTOMATIC TRACKING AUTOMATIC
56. at time of numerical value input Input exact numerical value V angle O set is over V Angle OSet Error Step1 in normal telescope V angle O set is over Confirm the operation procedure is V Angle OSet Error Step2 in reverse telescope correct and adjust again V angle O set is over V Angle OSet Over Total in normal and reverse telescope V Angle Range Over V angle range is over Adjust again from the beginning V Angle Offset Range Over V angle offset range is over V Angle Tilt Offset Range Over V angle tilt offset range is over Collimation constant Range Over Collimation constant range is over Level the instrument properly and adjust again TM Select communication channel for Please change to PRISM mode Please change to PRISM mode d Ine mode l EDMIOERISM The range for adjusting the cross hairs has You have gone beyond the range in Check the procedure then carry out been exceeded which the cross hairs can be adjusted adjustment again Horizontal angle axis constant Range Over Aa angie axis 155 17 MESSAGE ERROR DISPLAYS 17 2 Error Data Read Error 01 to 27 The data could not be loaded Close the program and restart the in Data Set Error 01 to 17 The data could not be set strument EDM Offset Read Error The EDM offset could not be loaded If this error code continues to be dis played repair is required EDM Offset Set Error The EDM offset could not be set The external communication could
57. ation operation will automatically be suspended Power OFF When turning off the power be sure to turn off the IS s power switch Do not turn off the power by removing the battery Before removing the battery press the power switch and confirm that the power is off Then remove the battery While using the external power source do not turn off the IS with the switch on the external power source If the above mentioned operating procedure is not followed then the next time that power is turned on it will be necessary to reboot the IS Maintenance for driving parts Every 4 000 5 000 hours operation in total change grease of driving parts Contact your dealer or TOPCON Head Office for the maintenance External power source Use only recommended batteries or external power source Use of batteries or an external power source not recommended by us may result in equipment failure For further information see Chapter 14 BATTERY SYSTEM Display for Safe Use In order to encourage the safe use of products and prevent any danger to the operator and others or damage to properties important warnings are put on the products and inserted in the instruction manuals We suggest that everyone understand the meaning of the following displays and icons before reading the Safety Cautions and text N WARNING Ignoring or disregard of this display may lead to the danger of death or serious injury A CAUTION Ignoring or disregard of this di
58. ation on the device you are connecting to in the same manner as the IS Network name Authentication Encryption Connection setting is complete 61 2 PREPARATION FOR MEASUREMENT 2 12 Inclination of Prism and Measuring Error For the best results aim or point prisms in the direction of the IS series so that maximum signal can be returned to the instrument Sighting prism obliquely because of inclined settings may result in measuring errors These errors will be proportional to the misalignment as showing in following graphs The more misalignment of the prism the more error in measurement Measured data can be different according to the prism constant value This can occur when a prism is moving Pin pole prism set L1 for one person surveying and pin pole prism holder L1 for fixed point observation are designed to minimize measuring error in such case Make the best use of them In case you are forced to use the normal prism in inclined state because there is no other way possible we recommend to use switching holder prism constant value or 30mm and set to 30mm Compensation value of 30mm Prism constant value 0mm Prism Inclined angle Sessel ee Instrument EL c point er SENE xc i s s Measuring gt 1 S 62 2 PREPARATION FOR MEASUREMENT e Prism type 2 Normal prism Distance Measuring error Angle measuring error Incre
59. coordinate 54 321m E coordinate 12 345m 1 Press the BS icon Program Made 97 98 5 PROGRAM MODE r 2 Input N and E coordinate of occupied point Setting a Direction Angle m Example N coordinate 5 321m Units ESC E coordinate 8 345m Occupied PT kan M 5 321 3 345 Example N coordinate 54 321m Backsight PT E coordinate 12 345m M 4 321 4 Tomemorize the occupied point press the E 12 345 1 SET OCC key ET 3 Input N and E coordinate of backsight point A 5 Press the YES key Setting a Direction Angle 6 Pressthe SET key Setting a Direction Angle Units im 7 COollimate the backsight Occupied PT M 5 321 p 345 Backsight PT M 4 321 12 345 8 Press the YES key Setting a Direction Angle The display returns to Program mode menu Setting A Direction Angle HR 4 40 01 Colimation OK 5 PROGRAM MODE 5 2 Remote Elevation Measurement REM The Remote Elevation program calculates the vertical distance height of a remote object relative to a prism and it s height from a ground point without a prism height When using a prism height the remote elevation measurement will start from the prism reference point If no prism height is used the remote elevation will start from any reference point in which the vertical angle is established In both procedures the reference point should be perpendicular to the
60. crew Leveling screw A 9 e Adjustment 1 Adjust the level adjustment capstan screw with the accessory adjusting pin and return the bubble towards the center of the plate level Correct only one half of the displacement by this method 2 Correct the remaining amount of the bubble displacement with the leveling screws 3 Rotate the instrument 180 or 200G around the vertical axis once more and check bubble movement If the bubble is still displaced then repeat the adjustment Level adjustment p Let capstan screw Half amount of displacement 7 3 2 Checking Adjusting the Circular Level Adjustment is required if the axis of the circular level is also not perpendicular to the vertical axis Check 1 Carefully level the instrument with the plate level only If the bubble of the circular level is centered properly adjustment is not required Otherwise proceed with the following adjustment e Adjustment 1 Shift the bubble to the center of the circular level by adjusting three capstan adjustment screws on the bottom surface of the circular level with the accessory adjusting pin Capstan adjustment Screws Circular level 125 7 CHECK AND ADJUSTMENT 7 3 3 Adjustment of the Vertical Cross hair 126 Adjustment is required if the vertical cross hair is not in a place perpendicular to the horizontal axis of the telescope since it must be possible to use any point on the hair for measuring horizontal angles or r
61. cters return the cursor to the left Shift key Used with other keys Refer to 1 2 5 Shortcut Keys Control key Used with other keys Refer to 1 2 5 Shortcut Keys Alt key Used with other keys Refer to 1 2 5 Shortcut Keys Function key Used with other keys Refer to 1 2 5 Shortcut Keys Alphabet key Switches the keys to alphabet input mode Moves the selected item or the cursor laterally and vertically Cursor Changes the image s magnification Left and Right keys Changes the image s brightness Up and Down keys Input panel key Displays the software input panel EN K N E E R Ew EN pre 1 NOMENCLATURE AND FUNCTIONS 1 8 2 Turning OFF the Touch Panel Function To wipe away tarnish and dirt on the touch panel while the power is turned ON you can shut down the touch panel function according to the following directions e Turning OFF the touch panel function 1 Press the 41 key while holding down the Func key The touch panel function will shut down Turning ON the touch panel function 1 Press the Esc key The touch panel function will resume operation 1 9 Power OFF When turning off the power be sure to turn off the IS s power switch Do not turn off the power by removing the battery Before removing the battery press the power switch and confirm that the power is off While using the external power source do not turn off the IS with the switch on the external power source If the abo
62. ding even when the index is improperly adjusted the same is not true for horizontal angles Since the vertical axis error is fixed for a given setup its effect cannot be removed by averaging two readings For this reason it is extremely important to maintain the vertical indexing adjustment to insure proper correction of the horizontal angles 165 20 INDEX 20 INDEX A Automatic Collimation 67 Automatic Tracking 65 Active SYNC onsec ciere ec Pe EM 58 Angle Angle measuring mode 31 Auto Power Ol 38 PRULOMAUICS 65 BATTERY SYSTEM 152 Backlight Adjustment 17 Battery Power Remaining Display 49 C CHARGING Cu VR FAR 147 CHECK AND ADJUSTMENT 115 Coordinate Measurement 89 Coordinate measuring mode 31 correction for earth curvature 146 correction f r refraction 146 D Date OUIDUL 93 94 Distance Measurement 80 Distance measuring mode 31 E ERROR DISPLAYS issued ete Raten 155 F Focus Function elfe sued 40 H Hardware Reset ient b reset 25 How to Enter Numerals and Alphabet Le
63. dless of whether the battery or the external power source is used If the battery cover is opened while the instrument is in operation operation will automatically be suspended 25 1 NOMENCLATURE AND FUNCTIONS 1 7 Touch Panel Calibration If your instrument is not responding properly to your taps you may need to calibrate the touch panel 26 e How to calibrate the touch panel File View VJ 9 Password PE Regional Connection Settings e Remove Storage System Programs Manager valume amp mds 279 Stylus Properties Double Tap Calibration Double tap this grid to set the double tap sensitivity for both the speed and physical distance between taps Double tap this icon to test your double tap settings If this icon doesn t change adjust your settings using the grid above If your Windows CE device is nat responding properly to your taps you may need to involves tapping the center of a target If you miss the center keep the stylus on the screen slide it over the arget s center and then lift the stylus To start E ate 1 the icon Start Settings Control Panel Stylus You can see the Stylus Properties screen on Display 2 Pressthe tab Calibration 3 the Recalibrate key Carefully press and briefly hold stylus on the center of the target Repeat as the target moves around the screen Press the Esc key to
64. e 117 7 CHECK AND ADJUSTMENT 12 Calculate the horizontal angle of center of the prism by step 8 and 11 Example Step 8 0 01 20 Step 11 0 09 40 Calculated value 0 05 30 13 Collimate to the center of prism Compare the reading horizontal angle and calculated average value in step 12 Example Horizontal angle of the center of the prism 0 05 50 Difference of Average value and Horizontal reading of the center of the prism 20 If the difference is within 2 no problem for use e Vertical direction confirmation Do not move Horizontal direction 14 Carry out as Horizontal direction confirmation Compare the reading vertical angle of center of prism and calculated average value If the difference is within 2 no problem for use Prism Reticle Example Lower side of prism 90 12 30 Upper side of prism 90 04 30 Average 90 08 30 Reading to prism center 90 08 50 Difference 20 If the difference is more than mentioned value contact with your Topcon dealer or Topcon e For non prism mode If the instrument is in the hold mode press the HOLD key to release the hold mode 118 V 44 06 40 HR 90 20 30 SA LEVEL EDM MODE NONPRI EDM CHECK V 44 06 40 HR 90 20 30 SA LEVEL EDM MODE NONPRI 15 16 17 18 7 CHECK AND ADJUSTMENT Press the NP P key to change the non prism mode Collimate the center of the prism P
65. e If you rotate the shuttle through large angles the focus changes quickly If you rotate it through small angles the focus changes slowly Focus jog The focus jog is used to focus more precisely fine focus Focus shuttle Focus jog 1 13 2 Assist Focus The focus is always adjusted with software This is a convenient function for confirming the collimated image on display or when focusing on a moving object When using focus jog shuttle the assist focus mode will end Note The assist focusing may be completed roughly when the contrast with the target and its circumference is low In this case focus the target manually by turning the focusing jog shuttle If there is an object that has higher contrast than a prism or a target near the horizontal hair line in the field of view the instrument may focus to that object If a strong light comes into the eyepiece the assist focusing may not be completed Before operating the diopter adjustment should be done by turning the diopter ring so that the cross hairs are clearly observed If parallax is created between the cross hairs and the target focusing is incorrect This adversely affects precision in surveying Eliminate the parallax by turning the focusing knob or using the diopter adjustment 1 NOMENCLATURE AND FUNCTIONS 1 13 3 Setting Focus Function Example e Assist focus Turn the power switch on Press the key Use the sighting colli
66. e Shift 0 9 keys perform uppercase character 55 2 PREPARATION FOR MEASUREMENT e Invoke the software input panel 1 the key or press keyboard icon on tad the task bar and select Keyboard Internet Standard Computer Explorer Meas You can see the software input panel on display 2 v E Recycle Bin Microsoft WordPad Documents Ke You can input data as if you were typing on your PC keyboard My Internet Standard Computer Explorer Meas al a E Recycle Bin Input Panel ese 1 2 3 4 5 6 7 8 9 0 1 1 shift jx tN E E amp B To change the keyboard P Internet Standard Press the CAP key or the au key Computer Explorer Meas ail E Recycle Bin Iriput Panel Esc Y jm amp fol j amp C 3 Del mang EA S D FJG H J KIL j Smmz x c v BJNJM X Hattie Je Internet Standard Computer Explorer Meas a tf Recycle Bin 2 Tohide the software input panel press the e key or press keyboard icon on the task bar and select Hide Input Panel 56 2 PREPARATION FOR MEASUREMENT 2 8 Data Memory Card How to insert a data memory card CF card gt D TOPCON Card guide Card cover ata memory card Card cover 0 lever 000 1 Push up the card cover lev
67. e be ea Ee ds 15 124 DISDIaV KEY Sirs 8 cea ut qo Du der Seehof gru 16 1 2 5 SBOFICUE OUS uet E rar Sd hoe NOE RP beret d oix 16 1 3 Backlight Key Light Adjustment 0 0000 eee 17 1 3 1 How to Adjust Reducing Time of Backlight 17 1 3 2 Adjust the Backlight Brightness by 19 1 3 3 Selecting the Automatic Lighting 20 1 3 4 Selecting the Key Light Option 21 14 FAM Date s Mw e eio coe ew e E RERO Rar BOR e E 22 1 4 1 Execute the Backup 22 1 4 2 Set the Automatic Backup for Every Suspension 24 1 4 3 Set the Restoration after Hardware Reset 24 LS HardWeare HesOeL 35 3 24 0 479 RS wee ae ee eek est de ub ac Orta ero d d a ei 25 1 5 GOVE SENSO xa cx sod eter cod ar aries d puc aus Dar ascen ee ea y ose Re ees 25 1 7 Touch Panel Calibration 26 1 8 Operating Panel 28 tS Operating Key v qur Dun ew SCR SUME tapes ew ecient 28 1 8 2 Turning OFF the Touch Panel Function 29 FO POWSI OPE ascent ena go Tara i spa uidi epiac hast aad we 29 1 10 Operation Key Touch
68. e mode This is a normal distance measuring mode Measurement time 0 2mm mode approx 3 seconds 1 mm mode approx 1 2 seconds The unit to be displayed is 0 2mm or 1mm 0 001ft or 0 005ft Coarse 1mm mode This mode measures in shorter time than in fine mode Use this mode for the objects which may be slightly unstable Measurement time approx 0 5seconds The unit to be displayed is 1mm 0 005ft Coarse 10mm mode This mode measures in shorter time than in fine mode Use this mode for stake out measurement It is very useful when tailing the moving object or carrying out stake out work Measurement time approx 0 3 seconds The unit to be displayed is 10mm 0 02ft Non Prism Mode Fine mode This is a normal distance measuring mode Measurement time 0 2mm mode approx 3 seconds 1 mm mode approx 1 2 seconds The unit to be displayed is 0 2mm or 1mm 0 001ft 0 005ft Coarse 1mm mode This mode measures in shorter time than in fine mode Use this mode for the objects which may be slightly unstable Measurement time approx 0 5seconds The unit to be displayed is 1mm 0 005ft Coarse 10mm mode This mode measures in shorter time than in coarse 1mm mode Use this mode for stake out measurement It is very useful when tailing the moving object or carrying out stake out work Measurement time approx 0 3 seconds The unit to be displayed is 10mm 0 02ft Non Prism Long Mode Fine mode This is a no
69. e prism constant correction values automatically set according to the selected prism are as listed below Pinpole prism set L1 139 9 SETTING ATMOSPHERIC CORRECTION 9 SETTING ATMOSPHERIC CORRECTION The velocity of light through air is not constant and depends on the atmospheric temperature and pressure The atmospheric correction system of this instrument corrects automatically when the correction value is set 15 C 59 F and 1013 25hPa 760mmHg 29 9 inHg is as a standard value for Oppm in this instrument The values are kept in the memory even after power is OFF 9 1 Calculation of Atmospheric Correction The followings are the correction formulas Unit meter 6 Ka Atmospheric correction value Ka 279 85 9 585 x P 10 P Ambient atmospheric pressure hPa 2f 9 5 4 t Ambient Atmospheric temperature The distance L m after atmospheric correction is obtained as follow L 1 1 Measured distance when atmospheric correction is not set Example In case Temperature 20 Air pressure 847hPa 21000 m 79 585 x 847 196 Ka LE A du 3 50 10 50 ppm L 1000 1 50x10 1000 050 140 9 SETTING ATMOSPHERIC CORRECTION 9 2 Setting of Atmospheric Correction Value How to Set Temperature and Pressure Value Directly Measure the temperature and air pressure surrounding the instrument beforehand e Example Temperature 15 Pressure 1013 3 hPa
70. e time when EDM is cut off from distance measurement is completed can be changed EDM OFF TIME SET 0 99 0 After completing distance measurement EDM is cut off 1 98 EDM is cut off after 1 98 minutes 99 EDM is always switched ON 6 1 4 Unit TEMP Celsius Fahrenheit Select the temperature unit for the atmospheric correction PRESS hPa mmHg inHg Select the air pressure unit for the atmospheric correction ANGLE deg gon mil Select degree 360 gon 400G or mil 6400M for the measuring angle unit to be shown on the display DIST m ft Select the distance measuring unit Meter or Feet shown on the display Select the meter feet conversion factor US US survey feet FEET INTERNATIONAL 1 M 3 280833333333333 ft International feet 1m 3 280839895013123 113 6 PARAMETERS SETTING MODE 6 2 Setting Parameters Example setting S A BUZZER OFF 1 Press the SETUP icon STANDARD MEASUREMENT SETUP MODE 2 Press the MEASUREMENT key CCVERSUREMENID 3 Press the MEASUREMENT 1 key COMMUNICATION 4 Press the NEXT key three times VALLE INPUT LINIT 5 Select the OFF button of S A BUZZER 1 6 When the SET key is pressed the setting will be set and the SETUP MODE screen will reappear 1 To return to the SETUP MODE screen press the EXIT key 114 7 7 1 7 1 7 CHECK AND ADJUSTMENT CHECK AND ADJUSTMENT Checking and Adjusting of Instrument Constant Each of the Prism mode No
71. ection Type Method Compensating Range Correction unit Computer unit Microprocessor Processor speed Operating system Memory Display LCD Touch panel Bluetooth Unit Bluetooth Communication distance Bluetooth 9 Transmitting Bluetooth 9 Standard Wireless LAN Function Communication distance Transmission output Transmission method Transmission specifications Access method Antenna Security Frequency range SS Wireless Function Communication distance Transmission output Transmission method Frequency range 0 3mgon 3 1 0mgon 5 1 5mgon 71 mm Automatic vertical and Horizontal index Liquid type 6 1 0 1mgon Intel PXA255 400MHz Microsoft Windows 9 CE NET 4 2 128MB RAM 2MB Flash ROM 1GB micro SD Card 3 5 inch TFT color LCD 240x320 dots Electrical analog resistor thin film system About 5m The range will be different by a condition Class2 10mW or less V1 2 About 250m While in communication with FC 200 The range will be different by a condition 30mW Direct sequence spread spectrum DS SS communication IEEE802 11b g Infrastructure mode adhoc mode Diversity method built in WEP 128 64bit TKIP 2 4GHz 2 412 2 462MHz 1 11ch About 1000m While in communication with RS 1 accessory to FC 200 Distance may vary due to obstruction between the communication instruments or commun
72. emaining Display will decrease or increase two steps momentarily because of the accuracy of the battery checking system is rough It is not trouble with the instrument 49 2 PREPARATION FOR MEASUREMENT 2 5 Vertical and Horizontal Angle Tilt Correction When the tilt sensors are activated automatic correction of vertical and horizontal angle for mislevelment is displayed To ensure a precise angle measurement tilt sensors must be turned on The display can also be used to fine level the instrument If the TILT OVER display appears the instrument is out of automatic compensation range and must be leveled manually Zenith Standing axis Zenith Standing axis gt Inclination of the standing Inclination of the standing axis in the Y direction axis in the X direction eue GE Hor i Trunnion axis orizonta ED Wr 01 01 H c ogg29 eee FS E C T 1S compensates both the vertical angle and the horizontal angle readings due to inclination of the standing axis in the X and Y directions e For more information about dual axis compensation see Chapter 19 APPENDIX When the instrument is out of compensation TILT OVER NPM rm PPM ppm Standing Axis in the X direction Standing Axis in the Y direction Standing Axis in the X and Y out of range out of range direct
73. en one time the instrument is normal If the difference is never the range of x10mm contact TOPCON or your TOPCON dealer Non prism long mode 1 Set a prism 30 to 50 meter apart from the instrument and measure the distance to the prism by prism mode 2 Take off the prism and set a white board 3 Change the mode to the non prism long mode and measure the distance to the board 4 Repeat above procedure and measure some points If the difference of the prism mode and non prism long mode is the range of x20mm even one time the instrument is normal If the difference is never the range of x20mm contact TOPCON or your TOPCON dealer 115 7 CHECK AND ADJUSTMENT 7 2 Checking the Optical Axis 7 2 1 Checking the optical axis of EDM and theodolite Check each of the optical axis of EDM and theodolite about prism mode and non prism mode in order In non prism long mode Check the same way in non prism mode To check if the optical axis of EDM and theodolite are matched follow the procedure below It is especially important to check after adjustment of the eyepiece reticle is carried out 1 Position a prism about 50 to 100m apart from IS series Press the ADJUST icon No ADJUST MODE 3 Press the EDM CHECK key V ANGLE Q amp DJILIST In non prism long mode The unit can not switch into EDM check mode INST CONSTANT In EDM check mode The unit can not switch into star key mode 4
74. er to open the card cover 2 Insert a data memory card Please make sure you have the front and back of the CF cards facing correctly when inserting into the card slot If you forcibly insert the card incorrectly the pin at the card slot may be damaged and cause a breakdown fo ME Front of the card Please insert straight up into the card slot If you forcibly insert the card at an angle the pin at the card slot may be damaged and cause a breakdown Close the card cover How to extract a data memory card 1 Push up the card cover lever to open the card cover 2 Pulldown the card guide Note Hold the card with your hand to protect the card against falling 3 Extract the card 4 Close the card cover 57 58 2 PREPARATION FOR MEASUREMENT 2 9 Active Sync Microsoft ActiveSync is the data synchronization software It synchronizes data between Windows CE devices such as the IS and PCs Using ActiveSync the IS can exchange data to a PC via USB cable To establish a connection between the instrument and your PC you first need to install ActiveSync in your PC For downloading ActiveSync access the following website http www microsoft com windowsmobile 2 9 1 Getting Connected 1 Install ActiveSync in your PC if it is not already installed 2 Connect the instrument to your PC with an interface cable F 25 as shown below PC USB Port A Interface U
75. ether the bubble is correctly centered for all four points 5 Centering by Using the Optical Plummet Telescope Adjust the eyepiece of the optical plummet telescope to your eyesight Slide the instrument by loosening the tripod screw place the point on the center mark and then tighten the tripod screw Sliding the instrument carefully not to rotate that allows you to get the least dislocation of the bubble Point Center mark 6 Completely Leveling the Instrument Leveling the instrument precisely in a similar way to 4 Rotate the instrument and check to see that the bubble is in the center of the plate level regardless of telescope direction then tighten the tripod screw hard 47 2 PREPARATION FOR MEASUREMENT 2 3 Power Switch Key ON STATION r C 2007 TOPCON All Rights Reserved Internet Standard computer Explorer Meas T 4 T 59 Recycle Bin Microsoft WordPad Documents F 2 46PM B Main menu STANDARD MEASUREMENT MEAS SETUP ADJUST Battery Power Remaining Display Confirm the instrument is leveled Turn the power switch ON Progress bar will be displayed during reloading the Operating System after you turn the instrument on at the first time or perform hardware reset You will see the Desktop display of Windows CE with Standard Meas icon Press the Standard Meas icon The main menu will be displayed e Confirm the battery power remaining
76. evation dVD and slope distance dSD between prism A and B will be shown 6 measure the distance between points A and C repeat procedure 5 To confirm the previous data press the lt or gt key To clear all data press the RESET key 103 5 PROGRAM MODE 5 4 Repetition Angle Measurement REP 104 Program Mode Repetition Angle Measurement program calculates horizontal angles and shows the total angle Ht and the mean Hm of all the angles measured The program also keeps track of the amount of complete sets of horizontal angles measured Repetition Angle Measurement program can be done by horizontal angle right measurement mode 1 Press the REP icon 2 Oollimate the first target A H Angle 170 11 00 i E 3 Press the MEAS key Total Angle Mean Angle Diff Angle 4 Collimate the second target 1 5 Press the MEAS key Total Angle Mean Angle Diff Angle Repetition Angle Measurement H Angle 7 55 10 Total Angle SSS F7 Mean Angle sqm a Diff Angle 1 iSight the 1st target RESET then press Meas button Horizontal angle will be released IMAGE NP a Horizontal angle can be accumulated up to 99 times To clear all data press the RESET key 5 PROGRAM MODE The total of angle and the mean of angle are shown Repeat procedure 2 5 to measure the desired number of repetitio
77. f prisms to carry Soft material is used The case covers one of the following prism sets e External dimensions e Tilt single prism set 250 L x120 W x400 H mm e Weight 0 5kg Tilt single prism set with a target plate Fixed triple prism unit Fixed triple prism unit with a target plate Prism unit case Model 5 External dimensions 1 prisms unit or fixed 3 prisms unit can be stored in 427 L x254 W x242 H mm this case Especially this is a very easy case to carry Weight 3 1kg Soft material is used e External dimensions 200 L x200 W x350 H mm e Weight 0 5kg Gadget case Model 1 Back pack Model 2 A case to store and carry accessories Convenient for use in mountainous terrain e External dimensions 300 L x145 W x220 H mm e Weight 1 4kg Aluminum extension leg tripod TP 110 Wide frame extension leg tripod DW 1 e Flat head 5 8 11 threads with adjustable legs Flat head 5 8 x 11 threads with adjustable legs Power cord PC 21 e External battery cord Imput voltage DC12V 151 14 BATTERY SYSTEM 14 BATTERY SYSTEM In case of On board battery In case of External battery External battery connector BT 65Q IS series Charging Battery Charging time Charger Quick charge for AC100V 240V use Approx 5h Use batteries made by Topcon Use of other batteries will cause malfunction 152 15 PRISM SYSTEM 15 PRISM SYSTEM Arrangeme
78. fter the battery is charged it causes deterioration of the battery in rare cases The charger may develop heat while charging there is no problem of it Recharging should take place in a room with an ambient temperature range of 10 to 40 C 50 F to 104 F If charging is done at high temperature charging time of the battery may take longer Exceeding the specified charging time may shorten the life of the battery and should be avoided if possible The battery source will discharge when stored and should be checked before using with instrument If the instrument is not used over an extended period of time store in a place at 30 or below in a 5096 charged state Over discharge will lower performance and a full charge may become impossible Please charge once every few months 148 12 DETACH ATTACH TRIBRACH 12 DETACH ATTACH OF TRIBRACH The instrument is easily detached or attached to the tribrach Tribrach fixing screw Tribrach alignment groove Securing screw Alignment piece Tribrach alignment groove e Detachment 1 Loosen the tribrach fixing screw 2 Loosen the tribrach fixing lever by turning counterclockwise 3 Lift the instrument straight upwards and off e Attachment 1 Coincide the alignment piece on the lower part of the instrument with the tribrach alignment groove 2 Tighten the tribrach fixing lever firmly by turning clockwise 3 Tighten the tribrach fixing screw e
79. he Instrument constant which is obtained in section 7 1 Checking and Adjusting of Instrument Constant follow as below 1 Press the ADJUST icon from the main menu 2 Pressthe INST CONSTANT key ADJUST MODE v ANGLE ADIST 5 COMPENSATION ADJUST AXIS 3 Press the PRISM key NP NORMAL NP LONG LNP DIST RANGE LNE INSTRUMENT CONSTANT 4 Input value 1 5 the SET key The display returns to previous menu Please Input 1 To cancel the setting press the EXIT key 132 7 CHECK AND ADJUSTMENT 7 5 Compensation Systematic Error of Instrument 7 5 1 Adjustment of Compensation Systematic Error of Instrument 1 Error of vertical axis X Y tilt sensor offset 2 Collimation error 3 Error of vertical angle 0 datum 4 Error of horizontal axis The above mentioned errors will be compensated by software which calculated internally according to each compensation value Also these errors can be compensated by software collimating one side of the telescope that is carried out to delete the error by turning in normal and reverse both sides of telescope so far 1 Levelthe instrument properly with the plate level 2 Pressthe ADJUST icon from the main menu ADJUST MODE 3 the SAXIS COMPENSATION key ADJUST AXIS SELF CHECK 4 Press the ADJUST key 5 Oollimate target A around 0 in horizontal within 3 in normal telescope set
80. hed on at the operation C The backlight is switched an at the operation The liaht is switched on with an illuminameter Bc e S 10 21 am 84 1 NOMENCLATURE AND FUNCTIONS 1 3 2 Adjust the Backlight Brightness by Manual 1 On the Backlight screen please check it OFF An illuminometer is used Factory setting is ON as default Power Properties Time until it switches off a backlight Time until it reduces a backlight 3 minuti gt amp ihtness iurninometer is used Bright Automatic RH gt The backlight is nat switched on at the operation C The backlight is switched on at the operation The light is switched on with an illuminometer 3 10 22 AM The Brightness adjusting slide bar will be appeared on Display 2 Adjust the brightness by pressing Dark Bright button Power PFODOCHOS Time Trenti it it switches off a backlight Time until it reduces a backlight x Brightness An iluminometer is used Automatic lighting The backlight is not switched on at the operation C The backlight is switched on at the operation The liaht is on with an 3 Time unti it switches off bs EFE Time until it reduces a backlight E TIU yj Brightness illuminiometer is used A C Ie grant Automatic lighting The backlight is nat switched on at the operation The backl
81. htening the adjustment screws securely but do not tighten them more than necessary as you may strip the threads twist off the screw or place undue stress on the parts Furthermore always tighten by revolving in the direction of tightening tension 4 The attachment screws must also be tightened sufficiently upon completion of adjustments 5 Always repeat checking operations after adjustments are made in order to confirm results e Notes on the Tribrach Note that the angle measuring precision may be effected directly if the tribrach has not been installed firmly 1 Ifthere is any slack between the leveling screws and the base loosen the set screw of the holding ring and tighten the holding ring with adjusting pin until it is properly adjusted Re tighten the set screw on completing the adjustment Leveling screw Holding ring Set screw 124 7 CHECK AND ADJUSTMENT 7 3 1 Checking Adjusting the Plate Level Adjustment is required if the axis of the plate level is not perpendicular to the vertical axis e Check 1 Place the plate level parallel to a line running through the centers of two leveling screws say A and B Use these two leveling screws only and place the bubble in the center of the plate level 2 Rotate the instrument 180 or 200G around the vertical axis and check bubble movement of the plate level If the bubble has been displaced then proceed with the following adjustment Plate level Leveling s
82. ible to output the result of measurement by pressing the REC key Example Distance measurement mode MEASUREMENT COMMUNICATION 22 VALUE INPUT DATA OUT D HE 165 3 40 Y 0 105 MPM imm Pe uu i 94 With the SETUP mode set the communication parameters Refer to Chapter 6 PARAMETERS SETTING MODE After setting the communication parameters select the distance measurement mode Press the REC key Measurement will be started After the measurement press the Yes key The data will be transferred to the Data Collector 4 STANDARD MEASUREMENT MODE 4 7 Data output of IS series The information of IS series regarding tracking auto tracking are added to the protocol of Topcon Total Station system so far Also you can add utility information such as battery remaining EDM mode auto tracking mode normal reversed face information Tilt information if you like For selecting refer to Chapter 6 PARAMETERS SETTING During an utility function selection measurement will be continued whenever tilt over The tilt over will not be compensated here In case tilt over the tilt information will be displayed on the right lower screen as the following marks during the utility function is selected Under tilt compensation Tilt Over Tilt OFF Tilt information e Control by interface for Topcon AP L1A system see Chapter 5 5 AP L1A Communication Emulator
83. ication status 100mW or less DS FH hybrid SS method 2 4GHz 2 412 2 462MHz 161 18 SPECIFICATIONS Interface Based on RS 232C 6 pin Based on CompactFlash Type 1 11 CompactFlash is a trademark of SanDisk corporation USB Others Instrument height Level sensitivity Circular level Plate level Optical Plummet Telescope Magnification Focusing range Image Field of view Laser pointer Light source Wave length Out put Laser class Optical communication Laser class Dimension Weight Instrument not including battery and tribrach 0 2 kg 0 8 kg 4 5 kg Battery BT 65Q Tribrach Carrying case Durability Protection against water and dust Ambient Temperature Range External Battery Input voltage miniB Rev 1 1 Active Sync Type A Rev 2 0 USB Memory 196mm 7 7in Base unit detachable Height from the tribrach dish to the center of telescope 10 2mm 20 2 mm IS 201 30 2 mm IS 203 30 2 mm IS 205 0 5m to infinity Erect 4 LD Visible laser 690nm 1mW maximum Class 2 IEC Publication 825 Class II FDA BHR 21 CFR 1040 CLASS 2 Class 1 laser product 338 x 220 W x 185 L mm 13 3 H x 8 6 W x 7 2 L in 6 2 kg 13 6 1 5 0 4 Ibs 1 7 Ibs 9 9 Ibs snm MP cm cd IP54 Based on the standard IEC60529 20 C to 50 4 F to 122 F DC12 V Rechargeable Battery BT 65Q This ba
84. ified NEMA configuration and the other end is provided with a moulded on female connector body with a specified IEC non industrial type configuration Battery can cause outbreak of fire Do not use any other type of charger other than the one specified Risk of fire Do not use any other power cable other than the one specified The short circuit of a battery can cause a fire Do not short circuit battery when storing it Risk of medical equipment malfunction Do not use the instrument in hospitals Risk of accident due to malfunction caused by radio waves affecting auto matic control operations Do not use the instrument near automatic control equipment such as automatic doors Risk of airplane instrument malfunction Do not use the instrument on airplanes Risk of implantable cardiac pacemaker malfunction caused by radio waves Ensure that the instrument is 22cm or farther away from implantable cardiac pacemakers N CAUTION Do not connect or disconnect equipment with wet hands you are at risk of electric shocks if you do Use of controls or adjustment or performance of procedures other than those specified herein may result in hazardous radiation exposure the laser beam reach the aimed object or the target without anybody else in the laser beam path In case you operate laser beam open avoid radiating laser beam to the height of man s head It is quite possible for the beam to ente
85. ight haze with visibility about 20km 12 5miles moderate sunlight with light heat shimmer Condition 2 No haze with visibility about 40km 25 miles overcast with no heat shimmer e Non prism mode Atmospheric conditions Target In low light condition and without sun glare on target Kodak gray card White surface 1 5m to 250 m 5 to 820 ft e long mode Atmospheric conditions Target In low light condition and without sun glare on target Kodak gray card Gray surface A square 5 to 700 m 16 4 to 2296 ft wall with sides of 0 5 meter Kodak gray card White surface A square 5 to 2000 m 16 4 to 6561 ft wall with sides of 1 meter 159 18 SPECIFICATIONS Measurement accuracy Least Count in Measurement Measurement Time e Prism mode D Measuring distance Least Count Measurement Measurement mode Measurement accuracy 1 in Measurement Time 0 2mm Approx 3 sec 0 001 ft Initial 4 sec 0 2mm mode 2mm 2ppm x D m s e 1mm Approx 1 2 ae 0 005ft Initial 3 sec 1mm Approx 0 5 sec Fe PPM NS 0 005ft Initial 2 5 sec Coarse 10mm Approx 0 3 sec A Omm EPRIN KDN Se 0 02ft Initial 2 5 sec e Non prism mode Diffusing Surface D Measuring distance Least Count Measurement Measurement mode Measurement accuracy in Measurement Time 2 0 2mm Approx 3 sec 0 001 ft Initial 4 sec Fine 5mm m s e Coarse 10mm m s e e Non prism long mode e 4
86. ight is switched on at the operation The liaht is on with an illuminometer S ioe 19 1 NOMENCLATURE AND FUNCTIONS 1 3 3 Selecting the Automatic Lighting Option 1 On the Backlight screen select a Radio button from Automatic lighting column Factory setting is The light is switched on with an illuminometer as default Power Properties Battery Power Off Backlight key Light Time until it switches off a backlight Time until it reduces backlight minuti gt Brightness An illuminometer is used ot C ACC n Ie erint he backlight is not switched on at the operation he backlight is switched on at the operation Time until it switches off a backlight Time until it reduces backlight 3 minuti Brightness An illuminometer is used t Ie gin Automatic lighting The backlight is nat switched on at the operation The backlight is switched on at the operation 1 The liaht is switched on with an illuminometer 3 10 22 AM 1 switched on with illuminometer option is selected E The Time until it switches off a backlight time menu is not activate if The light is 20 1 NOMENCLATURE AND FUNCTIONS 1 3 4 Selecting the Key Light Option The Key Light option Key light is always off Key light is always on Key light synchronizes with backlight 1 Press the tab Key Light Power Properties
87. illuminometer You can adjust the settings of this function to conserve more battery power or set your liking 1 Press the icon Start Settings Control Panel Power Keyboard Mouse Network and W Password PC Regional Connection Settings ee 2 9 2 Storage System You can see the Power Properties screen on Display 2 Press the tab Backlight Power Properties Status Main Batteries Backup Batteries Good Good l J L J uy iron 1 Lo Loy You can see the Backlight screen on Display 17 18 1 NOMENCLATURE AND FUNCTIONS 3 Press the time menu down arrow to select the reducing time Factory setting is 3 minutes as default Power Properties Time until it switches off a backlight Time until it reduces a backlight 3 minuti v Brightness An illuminometer is used AUR minutes P Automatic lighting The backlight is nat switched on at the operation 5 The backlight is switched on at the operation The light is switched on with an illuminometer 4 Press the OK key on title bar After that Power Properties screen will close automatically Power Properties Battery Power Off Backlight Key Light Time until it switches off a backlight 50 Time until it reduces a backlight B minuti Brightness v iluminometer is used Automatic lighting The backlight is nat switc
88. ions 1 This device may not cause harmful interference and 2 this device must accept any interference received including interference that may cause undesired operation NOTE This equipment has been tested and found to comply with the limits for a Class A digital device pursuant to part 15 of the FCC Rules These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instruction manual may cause harmful interference to radio communications Operation of this equip ment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense WARNING Change or modifications not expressly approved by the party responsible for compliance could void the user s authority to operate the equipment Specified cables must be used for connection to host computer and or peripherals in order to meet FCC emission limits Declaration of Conformity Model Number IS 201 15 203 IS 205 Trade Name TOPCON CORPORATION Manufacture Name TOPCON CORPORATION Address 75 1 Hasunuma cho Itabashi ku Tokyo 174 8580 JAPAN Country JAPAN U S A Representative Responsible party TOPCON POSITIONING SYSTEMS INC Address 7400 National Drive Livermore CA94551 U S A
89. ions out of range e The display of Vertical or Horizontal angle is unstable when instrument is on an unstable stage or a windy day You can turn off the auto tilt correction function of V H angle in this case To set TILT correction mode ON OFF refer to section 2 5 1 Setting Tilt Correction by Operation Key or Chapter 6 PARAMETERS SETTING MODE 50 2 PREPARATION FOR MEASUREMENT 2 5 1 Setting Tilt Correction by Operation Key Example Setting Tilt OFF 1 the P1 key to get the page 2 2 Pressthe TILT key Current setting is displayed TILT COMPENSATION 3 OPEL 4 Press EXIT key State The display returns previous mode 0 00 01 0 00 32 e setting performed here will be interlocked with setting in Chapter 6 PARAMETERS SETTING MODE 2 5 2 Correction of a Tilt Sensor setting error An error in setting up the Tilt Sensor can be automatically corrected with the Self Checking function See Chapter 7 6 Self Checking Mode 51 2 PREPARATION FOR MEASUREMENT 52 2 6 Compensation of Systematic Error of Instrument 1 Error of vertical axis X Y tilt sensor offset 2 Collimation error 3 Error of vertical angle O datum 4 Error of horizontal axis The above mentioned errors can be compensated by software which calculated internally according to each compensation value Also these errors can be compensated by software collimating one side of the telescope that is ca
90. ithin the frame its coordinates will be displayed Can t change image after meas Is it all Following measurement the magnification and the right camera mode cannot be changed To change them press the CLEAR key Please specify within the limit Tap inside the frame If message code still persist after attempting to clear them contact your local Topcon dealer or Topcon head office 109 6 PARAMETERS SETTING MODE 6 PARAMETERS SETTING MODE PARAMETERS SETTING MODE In this mode setting of parameters regard with measuring and communications will be done When a parameter is changed and set the new value is stored into the memory MEASUREMENT2 EXTERNAL BATTERY EXIT SETUP MODE COMM PARAMETER SET MEASUREMENT COMMUNICATION SS WIRELESS VALLIE INPLIT Bluetooth Exit EDM OFF TIME Fahrenheit PRESS hPa QOmmHg inHg ANGLE deg Ogon DIST EXIT m ft FEET eu INTERNATIONAL 110 6 PARAMETERS SETTING MODE 6 1 Parameter Setting Options 6 1 1 Measurement Factory default settings are indicated with underlines Select the error correction ON or OFF for collimation and error adjustment 3AXIS Perform this item after complete Chapter 7 5 Compensation CONPENSATION Systematic Error of Instrument For more information refer to Chapter 7 3 7 Adjustment of Vertical Angle O Datum and
91. key e During auto rotation don t disturb the instrument Stopping the rotation with a touch of the hand Such action may cause trouble or harm to instrument or operator For further instructions See Section 1 11 Star Key Mode 1 14 3Rotating automatically to a required Horizontal and Vertical angle In Standard Measurement Modes the instrument can be rotated automatically by input a required horizontal and or vertical angle For further instructions see Section 4 2 5 Automatic Rotation to a Required Horizontal and Vertical Absolute Angle 42 1 NOMENCLATURE AND FUNCTIONS 1 15 Using together with RC 3 Remote Control System Using together with RC 3 Remote Control System makes it possible to optical communicate between the instrument and remote controller RC 3 the prism side This gives easy operation by one man surveying in applying programs Also connecting data collector to remote controller you can manage communication reciprocally between the instrument and direct to data collector Turn round function You can turn the IS series round to the remote controller side easily by Turn round key of the remote controller This function helps to increase one man surveying efficiency See to 5 PROGRAM MODE and 6 PARAMETERS SETTING MODE for further information e Set the transmit channel same as the remote controller side 43 1 NOMENCLATURE AND FUNCTIONS 1 16 Using connecting with Personal Computer PC
92. le to the charger 1 Plug the AC Plug into the outlet The POWER LED will light Attach the battery in the charger Charging will start The CHARGE LED will Orange Charging will take approximately 5 hours per battery The CHARGE LED will Green If two batteries are attached to the charger it will take about 10 hours to charge them completely If battery power is at a very low level when beginning charging such as after the instrument has been in storage over an extended period of time in a discharge state a full charge may not be possible with a single charging In such a case recharge a second time After charging remove the battery from the charger Remove the charger from the outlet The POWER LED Red ON Power is The CHARGE LED will indicate charging status 1 2 OFF Wait for charging Orange ON Charging Green ON Charging completed Orange Flashing Charging error CHARGE LED will flash when the battery life is over or the battery is broken down Replace the battery to new one 1 Always use the AC DC converter provided with the product To install Place the battery to the instrument Shut the battery cover until click sound can be heard 147 11 POWER SOURCE AND CHARGING Do not charge continuously otherwise the battery and the charger may be deteriorated If charging is necessary use the charger after stopping charge for approximately 30 minutes Do not charge the battery in right a
93. ling and Centering the Instrument 1 Setting up the Tripod First extend the extension legs to suitable lengths and tighten the screws on their midsections 2 Attaching the Instrument on the Tripod Head Place the instrument carefully on the tripod head and slide the instrument by loosening the tripod screw If the plumb bob is positioned right over the center of the point slightly tighten the tripod screw 3 Roughly Leveling the Instrument by Using the Circular Level 1 Turn the leveling screws A and B to move the bubble in the circular level The bubble is now located on a line perpendicular to a line running through the centers of the two leveling screws being adjusted Leveling screw C B mm Leveling screw B Leveling screw A 2 Turn the leveling screw C to bring the bubble to the center of the circular level 4 Centering by Using the Plate Level 1 Rotate the instrument horizontally by using the Horizontal motion clamp screw and place the plate level parallel with the line connecting leveling screws A and B and then bring the bubble to the center of the plate level by turning leveling screws A and B Leveling screw A AS 4 Leveling screw B 2 Rotate the instrument 90 100g around its vertical axis and turn the remaining leveling screw or C to center the bubble once more K x Leveling screw C 3 Repeat the procedures 7 and 2 for each 90 100g rotation of the instrument and check wh
94. m or under bad weather condition for example when the heat shimmer is generated in a great degree or when visibility is poor The above caution mark will be displayed after 10 seconds and the auto collimating will be finished e Use the operation keys on the telescope eyepiece side for key operation If you use the operation keys on the objective lens side an error will be displayed and auto collimation will not start 67 3 AUTOMATIC TRACKING AUTOMATIC COLLIMATION 3 3 Range of Laser for Auto tracking and Auto collimating The range of laser at the long distance is within 30 as shown below So you had better collimate the prism so that the prism may be located within this range of laser in the first step As for it rapid automatic collimating and automatic tracking becomes possible If the target prism is out of this range time for searching mode will be necessary to take a longer time for automatic collimating tracking Field of view of telescope Range of tracking laser beam about 30 gt The range of the laser beam for auto tracking in a short distance is almost the same as a telescopic filed of view Therefore quick starting of auto tracking and auto collimating are possible if the prism is contained in the telescopic field of view 68 3 AUTOMATIC TRACKING AUTOMATIC COLLIMATION 3 4 Setting Parameters for Auto Tracking A proper setting for each parameter are necessary for custom use The set
95. mator to aim the target roughly Press the MF icon The icon will change to AF and the instrument will enter assist focus mode Focus adjustment is automatically done 5 Ifyou press the AF icon again or turn the focus jog shuttle the assist focus mode will end A CQ The instrument is currently in manual focus mode Press the icon and mode will switch to assist focus mode The instrument is currently in assist focus mode Press the icon and mode will switch to manual focus mode 41 1 NOMENCLATURE AND FUNCTIONS 1 14 Rotating Method This mark will appear while the instrument is rotating automatically 1 20 03 5 MPM mm P3 1 14 1 Rotating by H V Shuttle and H V Jog H V shuttle or H V jog can be used to rotate the instrument manually The shuttle movement or displacement is proportional in speed and size of angle desired A small slow turn of the shuttle will result in a slow small angle displaced Likewise a larger abrupt turn of the shuttle will result in a coarse angle displacement H V jog can be used for accurate collimating of the target much like a standard tangent screw 1 The mark will not appear 1 14 2Auto Inversion Pressing the Auto Inversion icon in Star Key mode causes the instrument to reverse and turn the telescope and instrument automatically e To stop auto rotating by auto inversion key in case of emergency press any keys except POWER
96. may result in a reduction of measuring distance range i e when taking the instrument out from a heated vehicle When opening the carrying case and taking out the instrument place the case horizontally then open the case When returning the instrument to its case be sure to match the white positioning marks provided with the case and place the instrument For transportation provide dampening or a cushion appropriately to avoid sudden shock or vibration For cleaning the instrument after use remove dust using a cleaning brush then wipe off with a cloth 10 For cleaning the lens surface use a cleaning brush to remove the dust then use a clean lintless cotton cloth Moisten it with alcohol or mixture with ether to wipe gently in a rotational motion from the center out 11 Even if any abnormality occurs never attempt to disassemble or lubricate the instrument yourself Always consult with TOPCON or your dealer 12 To remove the dust on the case never use thinner or benzine Use a clean cloth moistened with neutral detergent 13 Check each part of the tripod after extended use Parts screws or clamps may work themselves free 17 MESSAGE ERROR DISPLAYS 17 MESSAGE ERROR DISPLAYS 17 1 Message Message code Description Countermeasures No value was entered at time of Please Input Value numerical value input Input numerical value A value outside permissible range was Please Input Exact Value input
97. measured pressure is 1014 hPa The measured temperature is 26 C There fore The correction value is 10ppm Example ur an 0 CORA ARCATA 2h AONE s A ACCENT ROCA RCT S ROOT e ACER REAR s SCART PATRIA ATED Lah TURAN A E ACCA e ANOS SENAYEE NURSES VENIR AER UU ENTERA REN ERN B AAT kh Ti ARE RA ERE ROTATOR CAO e E E P EREE EREA EAR A A AR REIR S rr d 110 tT tT D e c c c c Lia c Lid c Td Td el e equ amesaid atraydeomyy 143 Temperature C 9 SETTING ATMOSPHERIC CORRECTION N E li M ll ig i N B 8 N E a E 8 a RE M li J Lf er 024 0 cl X E E E B E B g q ES E E N E E d E ogena H 41000 1500 2000 TN TIS ER PASEAN TST a T a EE NIA NLIS INN NONE NORTE RTRIRE SAR PA CREB EN ELT ALP RD eH Ww amesard atatydeomyy Temperature C x Ur ogena H 500 1 000 200 2 000 rd 2 2000 3 00
98. n on the screen The tracking indicator status will be changed according to the type of auto tracking mode and its conditions A man from the prism side can recognize the status of instrument When angle measuring value turns stable during tracking still object the tracking indicator changes from quick continuous flashing to quick intermittent flashing So you can decide from the sign of flashing for recording data timing at one person surveying Tracking indicator icon lt Meaning of Tracking Indicator or Flashing function of the Tracking Indicator will be used as a guide to know the status of IS series from the prism side This is not a function to determine precise collimating for measuring e he quality of its results will depend on the weather conditions and the use s eyesight Sometimes happens difficulty of seeing the tracking indicator because too much bright of the beam for tracking e Using Tracking Indicator mode will result shorter in reduced time out of the battery 33 1 NOMENCLATURE AND FUNCTIONS e Signal mode The light acceptance quantity level Signal level is displayed in this mode When reflected light from the prism is received a buzzer sounds This function is good for easy collimation when the target is difficult to find The received return signal level is displayed with bar graph as follows e Reticle illumination Select the brightness by sliding
99. n prism mode and Non prism long mode has instrument constant You must obtain the instrument constant of the prism mode If you change the instrument constant of the prism mode be sure to change the instrument constant of the non prism mode and the instrument constant of the non prism long mode by the same amount Normally the instrument constant does not have discrepancy It is recommended you measure and compare with an accurately measured distance at a location where the precision is specifically monitored on a consistent basis If such a location is not available establish your own base line over 20m when purchasing the instrument and compare with the data measured with newly purchased instrument In both cases note that the setup displacement of the instrument position over the point the prism baseline precision poor collimation atmospheric correction and correction for refraction and earth curvature determine the inspection precision Please keep in mind these points Also when providing a base line in a building please note that the difference in temperature greatly changes the length measured in the building If the difference between the measured length of the baseline and the actual length exceeds the range of the nominal accuracy change the instrument constant of the prism mode according to the following procedure 1 Ona basically horizontal line of about 100 meters line AB establish point C Measure each dista
100. nce AB AC and BC about 10 times and calculate the average value for each 2 Repeat Step 1 several times Then calculate the variance with the current instrument constant AK AB AC BC 3 Calculate the new instrument constant according to the formula below Then reset the instrument constant according to Section 7 4 How to Set the Instrument Constant Value New instrument constant current instrument constant AK 4 Once again measure the baseline and compare the results to the baseline s actual length If the difference between the two is within the range of the nominal accuracy change the instrument constant of the non prism mode and the instrument constant of the non prism long mode according to the formula in Step 3 5 If the results of the measurement conducted in Step 4 exceed the range of the nominal accuracy contact TOPCON or your TOPCON dealer 1 Checking of the accuracy of the non prism mode non prism long mode If you reset the instrument constant you must check the accuracy of the non prism mode non prism long mode Non prism mode 1 Set a prism 30 to 50 meter apart from the instrument and measure the distance to the prism by prism mode 2 Take off the prism and set a white board 3 Change the mode to the non prism mode and measure the distance to the board 4 Repeat above procedure and measure some points If the difference of the prism mode and non prism mode is the range of x10mm ev
101. ns 105 5 PROGRAM MODE 5 5 AP L1A Communication Emulator With IS Series it is possible to execute AP L1A communication emulation Set up for use of remote control system is also done here 5 5 1 Activate AP L1A communication Emulator 1 Press Ext Link icon Program Made AP L1A Communication Emulator program Ext Link will activate 106 5 5 2 Setup for Communication 5 PROGRAM MODE This section describes how to set up parameters to execute communication Example Set up RC parameter EXTERNAL LINK SS WIRELESS Bluetooth Eat CTT RC PARAMETER SET BEC TYPE QREC A REC B TERMINATE ETX ETX CR ETX CR LF CHANNEL 1 e To cancel the setup press the EXIT key Follow the steps described in 5 5 1 Activate AP L1A communication Emulator and activate AP L1A communication emulator program Ext Link Press the Setting key Press the RC key Setup RC parameters Example REC TYPE REC B TERMINATE EXT CHANNEL 1 Press the Set key The RC parameter has been set 107 5 PROGRAM MODE 5 6 Edge Abstraction Mode In this mode the edges of structures and other objects whose distance cannot be directly measured are detected using image processing and the coordinates are then easily measured Program Mode 1 Press the EDGE icon Ext Link Edge Extraction Measurement 2 Collimate the target object OPCON Ear T
102. nt according to your needs is possible Target pole 2 not used with 9 prisms 09 Prism 2 9 prism holder 2 with target plate 2 Tribrach adaptor S2 i Tribrach Pole adaptor A Pole adaptor F2 Tribrach Optical plummet tribrach Tilt single prism unit Prism unit AGR A6S Prism unit A7R Prism unit A7S Tripod e Use the above prisms after setting them at the same height as the instruments To adjust the height of prism set change the position of fixing screws Plug 3 is necessary for the tribrach adaptor 2 tribrach adaptor S2 and pole adaptor F2 to coincide with the height of IS series e TR 5or TR 5P tribrach should be used for prism side when the traverse surveys is performed 153 16 PRECAUTIONS 16 PRECAUTIONS 154 1 2 For transportation hold by the handle or yoke of the instrument Never hold by the lens barrel as it can affect the fixing bracket inside and reduce the accuracy of the instrument Never expose the instrument without a filter to direct sunlight It may damage the components inside the instrument Never leave the instrument unprotected in high temperature The temperature inside instrument may easily reach up to 70 C or above and will reduce the service life When a high degree of precision is required for measurement provide shade against direct sunlight for the instrument and tripod Any sudden change of temperature to the instrument or prism
103. nt to be faulty Carrying the instrument Always carry the instrument by its handgrip Exposing the instrument to extreme heat Do not leave the instrument in extreme heat for longer than necessary It could adversely affect its performance Sudden changes of temperature Any sudden change of temperature to the instrument or prism may result in a reduction of measuring distance range i e when taking the instrument out from a heated vehicle Let instrument acclimate itself to ambient temperature Battery level check Confirm battery level remaining before operating Memory back up The back up battery built in the instrument needs to be charged approximately 24hrs before using it for the first time after purchase Connect the fully charged battery to the instrument in order to charge the back up battery Taking the battery out Leaving the instrument without the battery for more than an hour will cause the memorized data to be lost due to low voltage of the back up battery Connect the battery as soon as possible or execute RAM back up No responsibility TOPCON Corporation has no responsibility for loss of data stored in the memory in case unexpected accidents Battery cover Completely close the battery cover before using the IS If the battery cover is not completely closed the IS will not operate normally regardless of whether the battery or the external power source is used If the battery cover is opened while the IS is in oper
104. o the wall behind the object is about 700m input 400m and measure between 400m and 600m This will eliminate the wall 700m ahead About 700m About 500m SN _ E 400m 600m SV 4 Measuring range To set measurement distance range see Section 4 3 3 Setting Measurement distance range of Non prism long mode lt 36 1 11 2Setting by Using Star Key Example Switch on the laser pointer 7 3 8 ge fl as I uno Gron 3 1 NOMENCLATURE AND FUNCTIONS Turn the power switch on Press the key Press the Laser pointer icon The laser pointer will be turned on 37 1 NOMENCLATURE AND FUNCTIONS 1 12 Auto Power Off To save battery power the IS would automatically turn the power off Suspend by itself when it s not in use You can adjust the settings of this function e How to adjust the settings of auto power off function Regional Settings B s Remove Storage System Programs Manager Main Batteries Backup Batteries Good Good Li Quy E L Very L very Low Percentage of power left in main 100 Power Properties 3 10 20 am 2 Battery Power Backlight Save battery power and prevent unauthorized use fin conjunction with a password by having your device turn aff when nat in use On battery power suspend after 10 minutes v Enable suspend while on
105. on sheet measure with the prism mode It is possible to set Non prism mode or Non prism long mode for distance measurement during the power on time If happened collimating the near distance prism in Non prism mode or Non prism long mode measurement will not be done because of too much light 4 STANDARD MEASUREMENT MODE Precautions for Use of Non prism long mode IS series made non prism measurement possible to reach the distance that had never been achieved before In the non prism long mode the following attentions need to be paid because the farther the target object be the weaker the reflection from the target and the larger the beam diameter become 1 3 Measurement Time In the non prism long mode the measuring time largely depends on a distance to the target object and the color or reflectance of the object Especially when the measurement distance is far or when the reflectance of the measured surface is low measuring time will become longer Beam Diameter Beam diameter becomes large in the long distance Try to bring as much beam as possible to the measured surface If the beam is not lased rightly as in the cases below may cause incorrect measurement In such cases collimate the position where the beam is not fallen besides the measured surface set measurement distance range Chapter 4 3 3 Setting Measurement distance range of Non prism long mode e g 1 the beam also reaches the wall either before
106. on the display Replace with charged battery or charge when battery level is low see section 2 4 Battery Power Remaining Display 48 2 PREPARATION FOR MEASUREMENT 2 4 Battery Power Remaining Display Battery power remaining display indicates the power condition Battery Power Remaining Display Measurement is possible The power is poor The battery should be recharged or replaced with a fully charged battery Measurement is impossible need to recharge or replaces the battery Note The battery operating time will vary depending on the environmental conditions such as ambient temperature charging time the number of times of charging and discharging etc It is recommended for safety to charge the battery beforehand or to prepare spare full charged batteries For general usage of the battery see Chapter 11 POWER SOURCE AND CHARGING The battery power remaining display shows the power level regarding to the measurement mode now operating The safety condition indicated by the battery power remaining display in the angle measurement mode does not necessarily assure the battery s ability to be used in the distance measurement mode It may happen that the mode change from the angle mode to the distance mode will stop the operation because of insufficient battery power for the distance mode which consumes more power than angle mode When the measurement mode is changed it rarely may happen that the Battery Power R
107. on the opposite side by an equal amount which will leave the tension of the adjustment screws unchanged Revolve in the counterclockwise direction to loosen and in the clockwise direction to tighten but revolve as little as possible 7 3 7 Adjustment of Vertical Angle 0 Datum If when measuring the vertical angle of target A at telescope position normal direct and reverse settings the amount of normal and reverse measurements combined is other than 360 ZENITH O half of the difference from 360 is the error amount from corrected O setting Carry out adjustment As adjustment for vertical angle O setting is the criteria for determining instrument coordinate origin use special care for adjustment SETUP ADJUST 1 nm PROG 34215 COMPENSATION EDM CHECK ADEST AXIS SHFCHEC NEXT V 90 00 00 e No 5 7 CHECK AND ADJUSTMENT Level the instrument properly with the plate level Press the ADJUST icon Press the V ANGLE 0 ADJUST key Collimate target A from the telescope properly in normal setting Press the SET key 6 Collimate target A in reverse telescope setting Press the SET key Measured value is set and carry out adjustment mode Check that the total amount of normal and reverse angular travel is 360 collimating the target A by normal and reverse positions 131 7 CHECK AND ADJUSTMENT 7 4 How to Set the Instrument Constant Value To set t
108. on would be required Dual axis compensation is especially suited then for applications where the sights are very steep Even though the compensators can correct horizontal angles for vertical axis errors it is still important to use care in setting up the instrument Centering error for instance cannot be corrected by the compensators If the vertical axis is tilted by 1 with the instrument 1 4 meters above the ground a centering error of approx 0 4mm will result The maximum effect of this error at 10m is about 8 of horizontal angle error In order to maintain the increased accuracy possible through dual axis compensation it is necessary to keep the compensators in proper adjustment The compensators must agree with the actual level condition of the instrument Through various environmental stresses the agreement between the level condition sensed by the compensators and the true level condition of the instrument may be disturbed In order to reestablish the correct relationship between the compensator and the true level condition of the instrument it is necessary to carry out the vertical indexing procedure listed on Section 7 3 7 Adjustment of Vertical Angle 0 Datum This adjustment will both reset the vertical index cause a direct indirect zenith reading to the same elevation to equal 360 and zero the level reference for the horizontal compensator While correct vertical angles can be obtained by averaging direct and indirect rea
109. or behind the object d C e g 2 the beam reaches the wall behind due to the size of the object Co Co SS e g 3 the beam is thrown on the ground before the object Cutoff during Measurement While in the Non prism long mode you had better use the instrument in the place where the light path may not be cut off by cars or people You may not be able to collect accurate figures if it is often cut off Re measuring When the reflectance of the measured surface drastically changes as in the case of looking quickly from the white object to the black object or when the distance to the object changes a lot you may face a temporary suspension If you cannot measure even after a while press MEAS or MODE key to restart measurement 81 4 STANDARD MEASUREMENT MODE 4 3 1 Setting of the Atmospheric Correction When setting the atmospheric correction obtain the correction value by measuring the temperature and pressure Setting the atmospheric correction see Chapter 9 SETTING ATMOSPHERIC CORRECTION 4 3 2 Setting of the Correction for Prism Constant Topcoat s prism constant value is 0 Set correction for prism at 0 If the prism is of another manufacture the appropriate constant shall be set beforehand Setting the prism non prism constant value see Chapter 8 SETTING THE PRISM NON PRISM CONSTANT CORRECTION VALUE The setting value is kept in the memory even after power is off
110. or key operation If you use the 66 3 AUTOMATIC TRACKING AUTOMATIC COLLIMATION 3 2 Automatic Collimation The function enables the instrument to search and collimate automatically the center of the prism when the telescopic is aimed at a prism roughly in the range of approx 5 Use this mode for the object which is stable e You can select Fine or Course mode for the distance measurement in auto collimation 1 Collimate the target prism roughly using V H jog shuttle N Press the Auto collimating icon The automatic collimation mode is set The instrument searches the prism and when it is found Pi is heard The automatic collimation is completed 3 Choose measuring modes by pressing the operation keys Measuring starts Sample Horizontal distance measuring 23 20 15 PSM rem OSET f HOLD f HSET P1 eser m PPM ppm e It is possible to use the auto collimation during the star key mode In case the instrument could not find the prism during auto collimating the instrument returns to normal mode after displaying the mark as follows If any key is pressed during auto collimating the auto collimating mode is ended and the instrument returns to normal mode After auto collimating is finished the instrument does not track the prism even if the prism is moved The auto collimating can not be done correctly in the time of shaking pris
111. prism long range 15 1 NOMENCLATURE AND FUNCTIONS e The symbol marks for Auto tracking and Auto collimating Auto collimating Auto tracking Laser is emitting Laser is emitting The instrument is in auto collimating The instrument is in auto tracking status status Searching Laser is emitting The instrument is searching a Waiting Laser is emitting The instrument is in waiting status prism Failure in auto collimating Laser is off The instrument could not find the target prism during auto collimating 1 2 4 Display keys Name of Key Auto b Turn the collimating ON OFF Angle 71 be angle measuring mode Distance measuring key To be distance measuring mode Coordinate measuring key To be coordinate measuring mode REC key Result of measurement is transferred 1 2 5 Shortcut Keys Windows Start Menu Ctrl ESC Continue tapping on an item Shortcut Commands or Alt Tap on an item Windows CE Alt TAB Task Manager to switch to another active program or to END Task on running pro gram s 16 1 NOMENCLATURE AND FUNCTIONS 1 3 Backlight Key Light Adjustment 1 3 1 How to Adjust Reducing Time of Backlight To conserve battery power this instrument would automatically turn the backlight off or reduce the backlight brightness by itself when it s not in use In addition the instrument can control the backlight brightness automatically by an equipped
112. r into one s eyes and it is possible to lose visual sight temporarily and lose one s caution and awareness of other dangers avoid glaring beam Risk of injury by overturn the carrying case Do not stand or sit on the carrying cases Please note that the tips of tripod can be hazardous be aware of this when setting up or carrying the tripod Risk of injury by falling down the instrument or case Do not use a carrying case with a damaged which belts grips or latches Do not allow skin or clothing to come into contact with acid from the batteries if this does occur then wash off with copious amounts of water and seek medical advice A plumb bob can cause an injury to a person if used incorrectly It could be dangerous if the instrument falls over please ensure you attach a handle to the instrument securely Ensure that you mount the tribrach correctly failing to do so may result in injury if the tribrach were to fall over It could be dangerous if the instrument falls over please check that you fix the instru ment to the tripod correctly Risk of injury by falling down a tripod and an instrument Always check that the screws of tripod are tightened Risk of injury from rotation of the telescope Do not look into the telescope while wireless communication is in progress User 1 This product is for professional use only The user is required to be a qualified surveyor or have a good knowledge of s
113. raining E and MadMIBE A00 7 Coo h MEAG LEAR EXIT F 3 Switch to the telescopic mode and press the Edge Extraction Measurement MEAS Measurement cannot be conducted unless you switch to the telescopic mode Telescopic numeric key 1 Wide angle numeric key 2 4 Pressthe YES key Can t change image after meas Is it all righ 5 PROGRAM MODE Following the completion of measurement the Edge Extraction Measurement screen will become set To release it click the CLEAR key Measurement results N E and Z will be displayed these points indicating the abstracted edge If edge abstraction is unsuccessful a message to that effect will be displayed If you tap inside the frame the coordinates of the oo TELE 2 00 point tapped will be displayed M 4333 Z 0 942 E 10 981 MEAS NP mmm You can also display the coordinates of any point when extraction has been successfully carried out e When you measure unclear images or the images of complex shapes there may be times when measuring precision decreases or when measurement is impossible 5 6 1 Displayed Messages Message code Countermeasures Please Mode change to narrow angle Switch to telescopic display then conduct measure ment Corner detection has not been performed Edge extraction was unsuccessful but measurement was completed If you tap a point w
114. rd cover Hardware reset switcl Inside the cover Laser aperture Card cover lever Optical plummet telescope USB connector Base Leveling screw Tribrach fixing lever 12 1 NOMENCLATURE AND FUNCTIONS Handle fixing screw Focus shuttle Focus jog Telescope grip Vertical shuttle Vertical jog Telescope eyepiece Instrument height mark Power switch Plate level Horizontal jog Horizontal shuttle Display window Operation keys ao Mr Battery cover J D _ CREE CRM Sei Cover sensor ES Inside the cover Battery cover lever Circular level Stylus pen Serial Signal Connector Po beak for circular level Power supply connector 13 1 NOMENCLATURE AND FUNCTIONS 1 2 Display 1 2 1 Main Menu Contains The main menu contains as following items Select the menu by pressing icons STANDARD MEASUREMENT 14 Display icon PROGRAM MODE e Setting a direction angle for backsight orientation e Remote elevation measurement e Missing line measurement e Repetition angle measurement e Setting AP L1A communication see Chapter 5 PROGRAM ADJUSTMENT MODE This mode is used for checking and adjustment e Error of vertical angle 0 datum Setting instrument constant value Compensation systematic error of Instrument Checking the optical axis of EDM Adjustment of optic axis for auto tracking Self check Checking Adjusting the Cross Hairs on Images see
115. rement mode 1 Pressthe LZ key 2 Pressthe P1 key 3 Press the OCC key The previous data will be shown MPM rmm 89 4 STANDARD MEASUREMENT MODE 4 the N key Input the N coord Press the SET key 1 OCC POINT Press the E key Input the E coord OCC POINT 4N Press the SET key 1 Please Input Press the Z key KD Input the Z coord Press the SET key 1 EXIT Press the EXIT key The display returns to coordinate measurement mode 1 To return to the previous mode press the EXIT key 90 4 STANDARD MEASUREMENT MODE 4 4 2 Setting of the Instrument Height Reflector Prism Height Measure the coordinates by entering the instrument height reflector height coordinates of unknown point will be measured directly Example Instrument height Confirm the angle measurement mode 1 Press the 14 key 2 Pressthe P1 key to get on page 2 3 Press the INSHT key The previous data will be shown MPM imi WM insu Doce E S PPM ppm INSTRUMENT HEIGHT 4 the INPUT key INST HT 0 000 5 Input instrument height and press SET key 1 6 Pressthe EXIT key INSTRUMENT HEIGHT INSTRUMENT HEIGHT The display returns to coordinate Please Input measurement mode qd 7 1 To return to the previous mode press the EXIT key 91 4 STANDARD MEASUREMENT MODE 4 4 3 Execution of Coordinate Measuring Meas
116. ress the HOLD key to hold the quantity of the light The mark 7 will appear on the right side of the signal level indicator Hepeat the previous procedure 6 to 14 in the same way in the non prism mode If the difference is within 2 no problem for use If the difference is more than mentioned value contact with your Topcon dealer or Topcon 119 7 CHECK AND ADJUSTMENT 7 2 2 Checking the optical axis of Laser pointer 120 Check whether the optical axis of the laser pointer coincides with the optical axis of the telescope by carrying out the following steps The laser pointer indicates the approximate collimation position of the telescope It does not indicate the exact collimation position Therefore it is not failure of the IS although it may shift to 6mm by the optical axis and laser point onthe target about 10 meters from the IS 1 On the center of a piece of graph paper or white paper draw a target in the form of a vertical line and an intersecting horizontal line 2 Set up the target about 10 meters from the IS and collimate the instrument to the point of intersection of the two lines 3 Turn on power to the instrument press the star key mode and then press the L P key lighting up the laser pointer Target About10m Checking of laser pointer s optical axis 4 With the instrument collimated to the point of intersection of the two lines check whether the center of the laser pointer is within abo
117. rmal distance measuring mode Measurement time approx 1 5 6 seconds The unit to be displayed is 1mm 0 005ft Coarse 5mm mode This mode measures in shorter time than in fine mode Use this mode for the objects which may be slightly unstable Measurement time approx 1 3 seconds The unit to be displayed is 5mm 0 015ft Coarse 10mm mode This mode measures in shorter time than in coarse 5mm mode Use this mode for stake out measurement It is very useful when tailing the moving object or carrying out stake out work Measurement time approx 0 4 seconds The unit to be displayed is 10mm 0 02ft In the non prism long mode the measuring time largely depends on a distance to the target object and the color or reflectance of the object Especially when the measurement distance is far or when the reflectance of the measured surface is low measuring time will become longer 86 4 STANDARD MEASUREMENT MODE select distance measurement mode Confirm the distance measurement mode 1 the center of prism 2 Pressthe MODE key 3 Select the measurement mode by pressing the FINE CRS or CRS key 2 The mode is set and distance measuring mode reappears 1 The following characters will be shown on the 4th line right hand of the display to represent measurement mode F Fine C Coarse CRS c Coarse 10mm CRS 2 To cancel the setting press the ESC key 4 3 7 Stake Out
118. rrection Switch the prism constant value and atmospheric correction For more information see Chapter 8 SETTING THE PRISM NON PRISM CONSTANT CORRECTION VALUE Chapter 9 SETTING ATMOSPHERIC CORRECTION e Focus function Switch the manual focus assist focus For more information see Chapter 1 13 Focus Function The instrument is now in The instrument is now in manual focus mode assist focus mode 35 1 NOMENCLATURE AND FUNCTIONS 1 11 1 Switching Measurement Distance Modes Pressing the Prism Non prism Non prism long icon displays the following screen Each mode can be switched by using the buttons as shown below NP NORMAL APNG all LNP DIST RANGE Setting Measurement distance range of Non prism long mode It is possible to measure long distance in the Non prism Long mode However not all beams can be thrown onto the target object since the diameters become bigger at long distance In such a case the beam may also reach behind or front the object and the measurement may cause inaccuracies See Precautions for Use of Non prism long mode on page 81 If there is a certain distance between the object and its rear or front the correct measurement can be obtainable by setting the measuring range Input range 5m 17ft 1 800m 5 900ft Measuring range from the distance you input to 200m backward e g When the distance to the target object is about 500m and when the distance t
119. rried out to delete the error by turning in normal and reverse both sides of telescope so far To adjust or reset the above compensation value see Chapter 7 CHECK AND ADJUSTMENT Enable you to stop this function see Chapter 6 PARAMETERS SETTING MODE or Chapter 7 CHECK AND ADJUSTMENT 2 PREPARATION FOR MEASUREMENT 2 How to Enter Numerals and Alphabet Letters This instrument supports two ways to enter numerals and alphabet letters One is by physical hardware keyboard that is similar to cellular phone method Three alphabet characters are assigned to one numeral key The other is by using the software input panel Press the e key or press keyboard icon on the task bar will invoke the software input panel e Example Enter job 104 as the New Folder name by physical hardware keyboard Make sure the mode is Windows CE desktop screen Recycle Bin Inbox je 2 CE Recycle Bin Recycle Bin Inbox Internet Explorer 277 Microsoft WordPad 4 7 Documents e Internet Explorer Er oe Internet Explorer p My Documents Standard Meas Standard Meas Hd Standard Meas Ex 12 15 PM 1 Press and hold the background of Desktop for two seconds You can see the Pull down menu on Display Select New Folder You can see the New Folder waiting a new name inputting on Display o3 2 PREPARATION FOR MEASUREMENT 4B M
120. s not sent again OFF Omit the ACK ON Standard Sets communication channel of RC 3H parameter Selecting the vertical range for searching a prism when using RC CHANNEL I with RC 3H V SEARCH 15 30 15 15 30 30 when collecting measurement data with a computer SS WIRELESS When communicating to an external device the protocol for handshaking can omit the ACK coming from the external ACK MODE OFF ON device so data is not sent again OFF Omit the ACK ON Standard CR LF OFF ON Select the option OFF or ON for carriage return and line feed NE when collecting measurement data with a computer Sets communication channel when using WIRELESS modem CHANNEL SET 1 20 If the lines get crossed while using multiple systems in the same area select a different channel from 11 to 20 for each System 12 6 PARAMETERS SETTING MODE Bluetooth CR LF OFF ON Select the option OFF or ON for carriage return and line feed UE when collecting measurement data with a computer PIN CODE Setting between 0 9999 Factory default setting 1111 PIN CODE EN E CH CKOFF ON PIN CODE CHECK OFF ON Select PIN CODE check will or will not be executed when Bluetooth is used 6 1 3 Value Input N times measurement set DIST MEAS 0 99 Set N number of times for times of distance measurement COUNT SET When setting number of times as 1 or O it is single measurement Th
121. ser beam for auto tracking optical communication The IS series products are manufactured and sold in accordance with Radiation Safety of Laser Products Equipment Classification Requirements and User s Guide IEC Publication 60825 1 or Performance Standards for Light Emitting Products FDA BRH 21 CFR 1040 provided on the safety standards for laser beam As per the said standards IS series is classified as Class 2 CLASS II Laser Products The laser beam belongs not very dangerous type but we request you to keep and understand Safety standard for users as mentioned in the manual instruction In case of any failure do not disassemble the instrument Contact TOPCON or your TOPCON dealer Laser class of each mode is as follows E EN Labels Find the labels which describes the caution and safety about the laser beam as follows in IS series We request you to replace it one anytime the caution labels are damaged or lost and paste a new one at the same place You can get the labels from Topcon or your dealer AVOID EXPOSURE LASER LIGHT IS EMITTED FROM THIS APERTURE Warning Label Aperture Label CAUTION e B LASER RADIATION eam aperture DO NOT STARE INTO BEAM D OR WAVELENGTH 650 830nm ae 1mW MAXIMUM OUTPUT Pl A DIODE LASER CLASSII LASER PRODUCT 0 000000 LASER RADIATION Qm mms DO NOT STARE INTO BEAM ee Maximum output 1mW Wave length 650 830nm CLASS 2 LASER PRODUCT Expl
122. splay may lead to personal injury or phys ical damage Injury refers to hurt burn electric shock etc Physical damage refers to extensive damage to buildings or equipment and furniture Safety Cautions A WARNING There is a risk of fire electric shock or physical harm if you attempt to disassemble or repair the instrument yourself This is only to be carried out by TOPCON or an authorized dealer only Cause eye injury or blindness Do not look at the sun through a telescope Laser beams can be dangerous and can cause eye injury s if used incorrectly Never attempt to repair the instrument yourself Cause eye injury or blindness Do not stare into beam High temperature may cause fire Do not cover the charger while it is charging Risk of fire or electric shock Do not use damaged power cable plug and socket Risk of fire or electric shock Do not use a wet battery or charger ignite explosively Never use an instrument near flammable gas liquid matter and do not use in a coal mine Battery can cause explosion or injury Do not dispose in fire or heat Risk of fire or electric shock Do not use any power voltage except the one given on manufacturers instructions To reduce the risk of hazards use only CSA UL certified power supply cord set cord is Type SPT 2 or heavier minimum No 18 AWG copper one end is provided with a moulded on male attachment plug cap with a spec
123. st Instrument searches in up down direction gradually from the point where the prism is lost PATTERN 1 The searching is arranged to 2 times until the prism is found The auto tracking mode changes to manual mode when the reflector could not found out within 2 times searching and returns to the point where the reflector is lost This pattern can be selected to search for the prism The search pattern tries to locate the prism in a very short time PATTERN 2 The searching is arranged to 2 times until the reflector is found The auto tracking mode changes to manual mode when the reflector could not found out within 2 times searching and returns to the point where the reflector is lost e Things like heat haze might interfere with the tracking system in the long distance near limit of auto tracking range in search mode e Reaction by rotating of instrument in search mode is serious Be sure of each connection part of the tribrach or tripod are firmly 69 AUTOMATIC TRACKING AUTOMATIC 2 Search Range The search range is the area to searched for the prism by rotating the telescope and body in Searching The Search range is decided from the point where the prism lost and the values will be set to plus and minus directions in horizontal and vertical Select search pattern first and set the search range to the selected search pattern Also it is enable to set each search pattern separately Example SEA
124. strument height will be calculated as when the instrument height is not entered The reflector height will be calculated as O when the reflector height is not set 2 Refer to section 4 2 3 Measuring from the Required Horizontal Angle 92 4 STANDARD MEASUREMENT MODE 4 5 Data Output Result of measurement is transferred from the IS series to Data Collector Example Distance measurement mode 1 With the SETUP mode set the communication parameters SETUP MODE MEASUREMENT Refer to Chapter 6 PARAMETERS SETTING um COMMUNICATION 3 MODE E VALUE INPUT 2 After setting the communication parameters select the distance measurement mode J Operate the data collector to measure the distance Measurement will be started After the measurement the result will be shown and transferred to the Data Collector Yes g HR 14 D 169 48 45 0 097 PSM imm TURN unn ES Dp 1 The following data will be output at each mode Angle mode V HR or HL V in percent V HR or HL Horizontal distance mode V HR HD VD V HR HD VD Slope distance mode V HR SD V HR SD HD Coordinate mode N E Z HR e The display and the output at the coarse mode are the same as the contents above e Output at the tracking mode is displayed as distance data only HD VD or SD 93 4 STANDARD MEASUREMENT MODE 4 6 Data Output by REC Key It is also poss
125. telescope collimate target point A located at a distance of at least 15 meters Check that the telescopic image magnification of 4 is displayed If the cross hairs are centered on point A adjustment is not necessary If they are off center perform adjustment as follows e Adjustment Prior to adjustment carry out section 7 3 4 Collimation of the Instrument 1 With the telescope collimate target point A E located at a distance of at least 15 meters tH 2 Pressthe ADJUST key SETUP 3 Press the NEXT key 4 Pressthe CMOS SENSOR ADJUST key CMOS SENSOR OFFSET ADJUST WET TELE Telescopic WIDE Wide angle Magnification Explanation of Keys W T key Switches between wide angle and telescopic Z IN key Increases the magnification Z OUT key Decreases the magnification OSET In this mode the magnification of wide angle and telescopic images cannot be changed with the numeric keys Checking wide angle Image Offset line 3 Intersection point B Horizontal line Vertical line ite PSM imm PL E PPM 7 CHECK AND ADJUSTMENT In the telescopic mode set the magnification on 4 and display target point A Using the UP LEFT RGT and DWN keys adjust the cross hairs so that they are centered on point A Once again with the telescope collimate point and confirm that the cross hairs are centered Press
126. ter hard reset RAM data backup C M data will be backed up before suspension 2 Press the OK key on title bar After that RAM Backup screen will close automatically 1 4 3 Set the Restoration after Hardware Reset 1 Onthe RAM Backup Screen check it ON the Data restoration after hard reset Factory setting is ON as default RAM Backup ata restoration after hard reset Backup RAM data backup RAM data will be backed up before suspension 2 Press the OK key on title bar After that RAM Backup screen will close automatically 24 1 NOMENCLATURE AND FUNCTIONS 1 5 Hardware Reset If your instrument not responding or an application hangs please try to perform a software reset first Still when useless please perform hardware reset You will lose all of data on the device other than that in the Internal Disk after hardware reset and will need to reinstall the applications and the data you install on your instrument Card cover lever Pull the card cover lever to open the card cover 2 Insert the stylus into the unit of hardware reset switch Stylus pen Press the switch for two seconds The instrument will reboot Hardware reset switch 1 6 Cover Sensor Completely close the battery cover before using the instrument Battery cover Battery Cover sensor If the battery cover is not completely closed the instrument will not operate normally regar
127. the SET key n case you return to the previous screen press the EXIT key In case you go beyond the adjustment range a message to that effect will be displayed In such a case please contact TOPCON or your local Topcon dealer Draw a thick vertical line and horizontal line through the center of a sheet of graph paper or white paper Then draw a thick offset line 45 mm above the horizontal line Level the main unit Arrange the telescope so that it is in its normal position and horizontal Set up the target prepared in Step 7 ata distance of about 5 meters from the telescope With the telescope collimate the point where the vertical and horizontal lines intersect intersection point B Check that the wide angle image magnification of 4 is displayed If the vertical cross hair coincides with intersection point B and the horizontal cross hair coincides with the offset line adjustment is not necessary Otherwise adjust the horizontal cross hair so that it coincides with the offset line The method of adjustment is the same as that for adjusting the cross hairs on a telescopic image horizontal cross hair on the wide angle image does not coincide with the target collimated with the telescope but this is not a problem e When the telescope is in the normal position the horizontal cross hair will deviate from the collimated target in the opposite direction from when the telescope is in the reverse position
128. the laser pointer The laser pointer will not be emitted if the operation keys are placed on the objective lens side 121 7 CHECK AND ADJUSTMENT 7 2 3 Inspection and Adjustment of Optic Axis for Auto Tracking Activates auto tracking to the prism Confirm if the center of telescope reticle and the center of the prism is coincided Any error between them requires adjustment according to the following procedure Prism center Prism center Telescope reticle center Telescope reticle center Normal position Centers of prism and telescope is shifted e Position a prism around 0 in horizontal and more than 100m 328ft apart from the IS series e Take care not to be interrupted the optical path during measurement 1 Press the ADJUST icon MEAS 2 Press the ADJUST AXIS icon V ANGLE ADJUST INST CONSTANT 3AXIS COMPENSATION EDM CHECK Adjust Axis 3 Operate H V jog shuttle and collimate prism center with telescope 4 Press the MEAS key 00000 H 00000 ai 122 7 CHECK AND ADJUSTMENT Measurement will begin Adjust Axis 1 2 00000 00000 Measuring RESET Meas ExT 5 After the measurement is completed at the normal position press the TURN key Reverse and turn the telescope and instrument 6 Operate the H V jog shuttle and collimate prism center with telescope Pressthe MEAS key Measured data will be checked inside the instrument and the
129. ting 6 Pressthe SET key ten times ADJUST MODE The number of measurements is displayed at TILT ADJUST the top right of the display 1 R FRONT 10 V 0 00 31 LEVEL 0 NEAR 133 7 CHECK AND ADJUSTMENT ADJUST MODE TILT ADJUST R REVERSE 1 10 V 180 00 23 LEVEL 0 NEAR d ADJUST MODE HORIZONTAL ADJUST L REVERSE 1 10 Y 1 149 49T45 LEVEL 10 or more ADJUST MODE HORIZONTAL ADJUST L FRONT 10 Yo iO bg tdg LEVEL 10 or more 10 11 12 13 14 Turn the telescope in reverse telescope setting Collimate target A Press the SET key ten times The number of measurements is displayed at the top right of the display Collimate target B more than x10 from the level in reverse telescope setting Press the SET key ten times The number of measurements is displayed at the top right of the display 1 Turn the telescope in normal telescope setting Collimate target B Press the SET key ten times Then the display returns to 3AXIS compensation menu 1 Pressing the SKIP key enables to set next step without changing the last compensated value 134 7 CHECK AND ADJUSTMENT 7 5 2 Showing Compensation Systematic Error of Instrument 1 Press the ADJUST icon from the main menu 2 Press the SAXIS COMPENSATION key ADJUST MODE 3 Press the CONSTANT DISPLAY key 3AXIS COMPENSATION ADJUST MODE 4 Press the EXIT key 3AXIS CONSTANT DI
130. ting of the parameters can be done in the star key mode The setting here will be stored in the memory after the power is turned OFF 3 4 1 Setting Items ee ons SEARCH PATTERN 1 The search range is the area to searched for the prism by rotating PATTERN PATTERN 2 the telescope and body in searching SEARCH V O to 90 The search range is the area to searched for the prism by rotating RANGE H 0 to180 the telescope and body in searching The SEARCH range is decided from the point where the prism lost and the values will be set to plus and minus directions in horizontal and vertical Also it is enable to set each search pattern separately WAIT TIME 0 00 to1 00 00 The time the prism is lost before IS series starts the searching If the 1sec step mode is set to HOLD mode will not change to searching HOLD TRACKING SURVEY Select SURVEY usually Speer MACHINE CONTROL REFLECTOR PRISM The type of the reflector can be selected TYPE REFLECTOR TAPE PREDICTION 0 5sec 1sec After the instrument loses a prism the time prediction operation CTRL TIME 2sec 3sec 4sec time for the instrument to continue moving operation can be set up 5sec 1 Search Patterns The search pattern is the rotating method of telescope and instrument to find the target prism in search mode Search pattern includes the following 2 ways that can be selected This pattern can be selected to search the prism at the point where the prism is lo
131. tters 53 How to Set the Instrument Constant Value 132 Instrument Constant eene 115 L Laser Pointer iistrcteccecaavsccrncteananitntamnares 35 120 M Main Menu Contains eene 14 Memory Card dud ni Qa A Operator ste CO Ned PEE UE 30 Operating Panel Key 28 Optical Plummet Telescope 130 P PARAMETERS SETTING MODE 110 POWER SOURCE AND CHARGING 147 Power OPE RM DDR IIT es 29 PRISM NON PRISM CONSTANT VALUE 138 Prism mode and Non prism mode 80 R Reticle ees ees eee ce 34 RAM Data Backup eene 22 S Set audio mode S A mode 34 SETTING ATMOSPHERIC CORRECTION 140 Shortcut Keys 16 166 Sotware Heset xiii smt cds 16 Stake OUt S O ouis vix Hen EE OO n nrc inre 87 Star Key 32 T Task Manager 16 Touch Panel Calibration 26 uice afe M INGICALON OTT E OT 33 WRIBRACH erpen AA 149 V Vertical Angle Percent Grade Mode 78 Regulatory Information The following sections provide information on this product s compliance with government regulations FCC Compliance This device complies with Part 15 of the FCC Rules Operation is subject to the following two condit
132. ttery does not contain mercury Output voltage Capacity DC7 4 V 5000mAh Maximum operating time at 20 C 68 F when not using assist focus Normal use When using SS wireless Normal use When using wireless LAN Continuous Scanning Scanning mode is used for TopSURV Angle measurement and Distance measurement Approx 3 0 hours 1 Approx 2 7 hours 1 Approx 3 0 hours 2 Approx 3 5 hours 2 1 Continuous double face observations using automatic collimation 2 When not using wireless LAN and SS wireless e Battery using time will vary depending on environmental conditions and operations done with IS series 18 SPECIFICATIONS Battery Charger BC 30D with AC DC converter AD 12 and AC cable Input voltage AC 100 240V Frequency 50 60Hz Recharging time at 20 C 68 F Battery BT 65Q 5 hours 1 battery Operating temperature 10 C to 40 C 50 F to 104 F Charging signal Orange charge lamp should glow Finishing signal Green charge lamp should glow Weight with AC DC converter 0 4kg 0 8 Ibs 163 APPENDIX 19 APPENDIX 1 164 Dual Axis Compensation Inclination of the vertical axis with respect to true vertical will result in incorrectly measured horizontal angles The extent of the error in horizontal angle measurement due to axis tilt depends on three factors e the amount of the tilt of axis e the elevation of the target e the horizontal angle between the direction
133. tting of Atmospheric Correction Value 141 10 CORRECTION FOR REFRACTION AND EARTH CURVATURE 146 10 1 Distance Calculation 146 11 POWER SOURCE AND 147 Viet On board Battery BT 65Q s mex a nee x NES Ee 147 12 DETACH ATTACH OF TRIBRACH 149 13 SPECIAL ACCESSORIES esee hh nnn 150 I4 BATTERY SYSTEM 342 rar a ok Be ates bleed al ieee bare ee 152 15 PRISM SYSTEM 2 oe ve ae ee wee ees 153 16 PRECAUTIONS eh SE PE Dae edu da Ea a ei ees 154 17 MESSAGE ERROR 155 TZ 1 IMGSSAGC cs dade ue de dus Same ds Suida quls cars Cube Lu f eek 155 Uca occ LP 156 19 SPECIFICATIONS Jv arcae aat Eu arie de x ro C Cl DEP 158 TS APPENDIX cee gd ue euh d de we 164 Dual Axis Compensation 000 cc ers 164 20 INDEX dba dco sod Se qued ic COUR OB ECHO Gro ucc xo a uh ee ocu ee 166 11 1 NOMENCLATURE AND FUNCTIONS 1 NOMENCLATURE AND FUNCTIONS 1 1 Nomenclature Antenna for Wireless LAN SS Wireless Carrying handle Sighting collimator Tracking indicator Camera wide Laser aperture for Optical communication Instrument T center mark Objective lens Camera telescope Laser pointer Ca
134. unning lines e Check 1 Set the instrument up the tripod and carefully level it 2 Sight the cross hairs on a well defined Point A at a distance of at least 50 meters 160ft and clamp horizontal motion 3 Next swing the telescope vertically using the vertical jog and check whether the point travels along the length of the vertical cross hair 4 Ifthe point appears to move continuously on the hair the vertical cross hair lies in a plane perpendicular to the horizontal axis and adjustment is not required 5 However if the point appears to be displaced from the vertical cross hair as the telescope is swung vertically then proceed with the following adjustment e Adjustment 1 Unscrew the cross hair adjustment section cover by revolving it in the counterclockwise direction and take it off This will expose four eyepiece section attachment screws Eyepiece section Eyepiece section attachment screws attachment screws Eyepiece 2 Loosen all four attachment screws slightly with the accessory screw drive while taking note of the number of revolutions Then revolve the eyepiece section so that the vertical cross hair coincides to Point Finally re tighten the four screws by the amount that they were loosened 3 Check once more and if the point travels the entire length of the vertical cross hair further adjustment is not required Perform following adjustment after completing the above adjustment Section 7
135. ure the coordinates by entering the instrument height and reflector height coordinates of unknown point will be measured directly e When setting coordinate values of occupied point see section 4 4 1 Setting Coordinate Values of Occupied Point e When setting the instrument height and reflector height see section 4 4 2 Setting of the Instrument Height Reflector Prism Height The coordinates of the unknown point are calculated as shown below and displayed Coordinates of occupied point No E9 Zo Instrument height INST HT Reflector height R HT Vertical distance Relative elevation z Coordinates of the center of the reflector originated from the center point of the instrument n e z Coordinates of unknown point N4 E4 Z4 N4 No n E Ep e Z42Zg lNST HT z R HT Coordinates of the center of the reflector originated from the center point of the instrument n e z Center point of the instrument No Eo Zo INST HT Unknown point 1 E1 21 Occupied point No Eo Zo Origin o Confirm the angle measurement mode 1 coordinates values of occupied point and instrument reflector height 1 Set the direction angle of known point A 2 Collimate the reflector Press the LZ key Measuring starts Aa QN 1 In case the coordinate of occupied point is not entered 0 0 0 will be used as the default for the occupied point The in
136. urveying in order to understand the user and safety instructions before operating inspecting or adjusting 2 Wear the required protectors safety shoes helmet etc when operating Exceptions from Responsibility 1 The user of this product is expected to follow all operating instructions and make periodic checks of the product s performance 2 The manufacturer or its representatives assumes no responsibility for results of a faulty or intentional usage or misuse including any direct indirect consequential damage and loss of profits 3 The manufacturer or its representatives assumes no responsibility for consequential damage and loss of profits by any disaster an earthquake storms floods etc A fire accident or an act of a third party and or a usage any other usual conditions 4 The manufacturer or its representatives assumes no responsibility for any damage and loss of profits due to a change of data loss of data an interruption of business etc caused by using the product or an unusable product 5 The manufacturer or its representatives assumes no responsibility for any damage and loss of profits caused by usage except for explained in the user manual 6 The manufacturer or its representatives assumes no responsibility tor damage caused by wrong movement or action due to connecting with other products Laser Safety IS series uses the invisible laser beam to measure the distance IS series uses the visible la
137. ut 6 mm of the point of intersection Note If you look through the telescope at this time you will not be able to see the laser pointer Therefore conduct this check with the naked eye viewing the target and the laser pointer from the side of or from above the IS 5 Ifthe center of the laser pointer is within about 6 mm of the point of intersection there will be no problems with using the instrument If the distance is greater than 6 mm carry out the following steps to align the center of the laser pointer with the point of intersection and to align the laser pointer s optical axis with that of the telescope e Adjusting the laser pointer s optical axis 6 As shown in the drawing remove the 3 rubber caps on top of the instrument revealing the adjustment screws 7 Using the accessory hexagonal wrench adjust each of the screws A B and C thereby moving the laser pointer so that it coincides with the point of intersection 7 CHECK AND ADJUSTMENT About30 The direction of the laser pointer As seen from above C Adjustment screws When screws A B and C are turned clockwise the direction for tightening them the laser pointer as seen on the target from the standpoint of the IS will move in the direction shown in the drawing Tighten the 3 screws so that they are equally tight Do not lose the rubber caps of the adjustment screws Place the operation keys on the telescope eyepiece side and then turn on
138. uzzer sound Measurement may repeat automatically if the result is affected by shimmer etc To change single measuring press the MEAS key To change SD HD amp VD press the Zl key To return to the angle measurement mode press the ANG key 2 9 4 5 6 7 7 84 4 STANDARD MEASUREMENT MODE 4 3 5 Distance Measurement Single N times Measurement When presetting the number of times the instrument measures the distance as the setting times and the average distance will be displayed When presetting the number of times as 1 or 0 it does not display the average distance because of single measurement It has been set at single measurement at factory 1 Setting the number of times Refer to Chapter 6 PARAMETERS SETTING MODE 2 Measuring Method Confirm the angle measurement mode 1 Collimate the center of the prism 2 Selectthe measurement mode by pressing the Al key Example Horizontal distance Relative elevation mode N times measurement starts The average value is displayed following with buzzer sound 46 50 HD HR 15H E j YD 13 4 MEAS mone TURM E Eee ki i 4 1 The following characters will be shown on the 4th line right hand of the display to represent measurement mode R Continuous Repeat S Single N N times 85 4 STANDARD MEASUREMENT MODE 4 3 6 Fine Coarse Measuring Mode Prism Mode Fin
139. ve mentioned operating procedure is not followed then the next time that power is turned on it will be necessary to reboot the IS If you turn off the power in measuring mode the instrument goes into the suspend mode then when you restart the screen may be dark for a few seconds 29 1 NOMENCLATURE AND FUNCTIONS 1 10 Operation Key Touch panel Functions can be switched using the operation keys at the bottom of the screen for each of the following modes Angle measuring mode Page 1 Angle measuring mode Page 2 Angle measuring mode Page 3 HR 05 HOLD Distance measuring mode Page 1 Distance measuring mode Page 2 Coordinate measuring mode Page 1 Coordinate measuring mode Page 2 30 1 NOMENCLATURE AND FUNCTIONS Angle measuring mode a Angle of horizontal is set to 0 00 00 Pr The uncon foperatonkeys annex page P Sets the tilt function ON OFF If ON the display shows tilt correction value 2 P1 Switches the vertical angle and percent grade Switches R L rotation of horizontal angle The function of operation keys on next page P3 TURN Turns the instrument The function of operation keys on next page P1 Distance measuring mode MEAS Distance measuring starts 1 MODE Sets to the mode for Fine Coarse or Coarse 10mm TURN Turns the instrument The function of operation keys on next page P2 To be stake out measurement mode The function of operation ke
140. y computer i el Recycle Bin My computer va a E Recycle Bin Computer i 2l E Recycle Bin Inbox 54 e Internet Explorer a Microsoft WordPad 47 My Documents Internet Explorer Fa Microsoft WordPad 17 Documents Internet Explorer Microsoft WordPad Standard Stan Meas ae Standard Documents Press the C key to be entering alphabet letter mode Alphabet letter mode indicator will be appeared on the task bar Enter Alphabets Input j Press 4 JKL key then the sub window featuring j character will appear on the display which indicate a entering character Then j will be displayed Input o Press 5 MNO 5 5 The character in the sub window will be altered m n o Then o will be appended after Input b Press 7 ABC 7 The character in the sub window will be altered a b Then b will be appended after jo Input Press 3 YZ_ 3 3 The character in the sub window will be altered y 7 a Then _ will be appended after job 2 PREPARATION FOR MEASUREMENT 8 Press the key to be returning numeric mode Alphabet letter mode indicator will be disappeared on the task bar 9 Input 104 Press 1 0 4 Then 104 will be appended after job_ 10 Press the ENT key In alphabet letter mod
141. y incorrect track the headlight of a car etc temporarily 5 Reflector type You can choose a reflector type according to reflective objects such as Prism 2 or reflector tape This setting will reduce incorrect tracking 70 3 AUTOMATIC TRACKING AUTOMATIC COLLIMATION 6 Prediction operating time After the instrument loses a prism the time prediction operation time for the instrument to continue moving operation can be set up During auto tracking operation when auto tracking axis between the instrument and a prism is intercepted by a tree etc the moving is continued supposing a motion prediction of the prism till then It is effective in auto tracking operation after the prism is intercepted with the obstacle by this function When an obstacle is large the prediction operation time should be set up long Moreover when you want to terminate auto tracking operation immediately at the point which missed the prism and to be changed into a search state Prediction operation time should be set up short Settable time 0 5sec 1sec 2sec 3sec 4sec 5sec 3 4 2 How to set the parameters Sample setting Reflector Type Prism Prediction Ctrl Time 5 sec Track Speed Survey 1 Press star key to set the star key mode 2 Pressthe Auto tracking parameters set icon 3 the Track Setting key 4 Select the Reflector Type 5 Select the Prediction Ctrl Time 6 Select the Track Speed e H Track
142. ys next page 1 Coordinate measuring mode MEAS Coordinate measuring starts 1 MODE Sets to the mode for Fine Coarse or Coarse 10mm TURN Turns the instrument pu The function of operation keys on next page P2 P1 INSHT Sets an Instrument Height by input value Sets an occupied point by input values The function of operation keys on next page P1 Sets a Reflector Height by input value 2 31 1 NOMENCLATURE AND FUNCTIONS 1 11 Star Key Mode Press the star key to view the instrument options The following instrument options can be selected from the star key Auto tracking icon Auto collimating icon Auto Inversion icon Auto tracking parameters set icon Signal level icon Electric circular level icon Point guide icon or Tracking indicator icon Focus icon Prism Non prism Non prism long switching icon Laser pointer icon Prism constant value Atmospheric correction icon Reticle illumination icon e Electric circular level Electric circular level can be displayed by graphic This function is good for level the instrument when the circular level is difficult to see directly Rotate the leveling screws while observing the display 32 1 NOMENCLATURE AND FUNCTIONS e Tracking Indicator A man who is staying on line with the direction of IS series or automatic tracking status by emitted LED light orange color from IS series Operation Pressing Tracking indicator ico
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