Leica TPS400 Series User Manual Version 5.
Electronical Total Station Symbols used in this manual Congratulations on your purchase of a new Leica Geosystems Total Station. The symbols used in this User Manual have the following meanings: This manual contains important safety directions as well as instructions for setting up the product and operating it. Refer to "Safety Directions" for further information. Read carefully through the User Manual before you switch on the product.
Trademarks • Windows is a registered trademark of Microsoft Corporation All other trademarks are the property of their respective owners. 3 TPS400-5.0.
Validity of this manual Description General This manual applies to all TPS400 Series instruments. Where there are differences between the various models they are clearly described. Telescope • When measuring distances to a reflector with EDM mode "IR" this telescope type uses a wide visible red laser beam, which emerges coaxially from the telescope's objective. • Instruments that are equipped with a reflectorless EDM additionally offer the EDM modes "RL" and "RL-Prism".
Contents - Overview Contents - Overview........................... 5 System Info ..................................... 113 Contents.............................................. 6 Instrument Protection with PIN ..... 114 Introduction ........................................ 9 Care and Storage ............................ 115 Operating the product...................... 18 Safety Directions ............................ 122 Measuring Preparation / Setting up 26 Technical Data .........................
Contents Introduction .................................................... 9 Menu tree........................................................ 25 Special features ............................................. 10 Important parts............................................... 11 Technical terms and abbreviations ............ 12 Area of applicability ....................................... 15 PC Program Package Leica Geo Office Tools (LGO-Tools) ......... 15 Measuring Preparation / Setting up ..
FNC Key.......................................................... 43 Construction ................................................... 80 COGO (optional) ............................................ 82 Reference Plane (optional) ............................ 88 Coding ............................................................. 91 Light On /Off ................................................... 43 Level/Plummet ............................................... 43 IR/ RL Toggle ..............................
Technical Data........................................... 143 Shipping ....................................................... 116 Storage.......................................................... 116 Atmospheric correction .............................. 149 Batteries ....................................................... 117 Cleaning ....................................................... 118 Checking and adjusting .............................. 119 Tripod .............................................
Introduction The Leica Geosystems TPS400 is a high-quality electronic total station. Its innovative technology makes the daily surveying jobs easier. The instrument is ideally suited for simple construction surveys and setting out tasks. The easy operation of the instrument functions can be learned without problems in no time. Introduction 9 TPS400-5.0.
Special features • • • • • • • Easy and quickly to learn ! Interactive keys; with large and clear LCD. Small, light-weight and easy-to-use. Measurements without reflector with the integrated visible laser beam (TCR instruments). Additional trigger key on side cover. Continuous drives for horizontal and vertical angles (tangent screws). With laser plummet as standard. TPS400-5.0.
Important parts 1) 2) 3) 4) 5) 6) 7) 8) 9) 10) 11) 12) Instrument with EGL Introduction 13) 14) 15) 16) 17) 18) Instrument without EGL 11 Optical sight Integrated guide light EGL (optional) Vertical drive Battery Battery stand for GEB111 Battery cover Eyepiece; focussing graticule Focussing telescope image Detachable carrying handle with mounting screws Serial interface RS232 Foot screw Objective with integrated Electronic Distance Measurement (EDM); Beam exit Display Keyboard Circular level On/Off ke
Technical terms and abbreviations ZA = Line of sight / collimation axis Telescope axis = line from the reticle to the centre of the objective. SA = Standing axis Vertical rotation axis of the telescope. KA = Tilting axis Horizontal rotation axis of the telescope (Trunion axis). V = Vertical angle / zenith angle VK = Vertical circle With coded circular division for reading the V-angle. Hz = Horizontal direction HK = Horizontal circle With coded circular division for reading the Hzangle. TPS400-5.0.
Plumb line / Compensator Direction of gravity. The compensator defines the plumb line within the instrument. Standing axis inclination Angle between plumb line and standing axis. Standing axis tilt is not an instrument error and is not eliminated by measuring in both faces. Any possible influence it may have on the Hz-direction resp. Vangle is eliminate by the dual axis compensator. Zenith Point on the plumb line above the observer.
hr hi E0 N0 H0 E N H TPS400-5.0.1en 14 Indicated meteorological corrected slope distance between instrument tilting axis and centre of prism/laser spot (TCR). Indicated meteorological corrected horizontal distance. Height difference between station and target point.
For the installation call program "setup.exe" in the directory \LGO-Tools on the CD-ROM and follow the input instructions of the installation program. Area of applicability This User Manual is valid for all instruments of the TPS400 Series. Program content After successful installation the following programs appear: PC Program Package Leica Geo Office Tools (LGO-Tools) Tools The program package LGO-Tools is used for the data exchange between the Total Station and the PC.
Not using the correct upload Software can permanently damage the instrument. ) Before the Software Upload, always insert a charged battery into the instrument. • Format Manager For creating of own, special formatted data output files. • Configuration Manager Import/Export as well as creating of instrument configuration. ) For more information about LGO-Tools refer to the comprehensive Online Help. TPS400-5.0.
1 2 3 Power Supply Use the Leica Geosystems batteries, chargers and accessories or accessories recommended by Leica Geosystems to ensure the correct functionality of the instrument. Power for the instrument can be supplied either internally or externally. An external battery is connected to the instrument using a LEMO cable. • Internal battery: One GEB111 or 121 battery fit in the battery compartment. • External battery: One GEB171 battery connected via cable.
Operating the Instrument The On / Off key is located on the side cover of the TPS400. 1) Focus Actively measured field. 2) Symbols 3) Fixed keys Keys with firmly assigned functions. 4) Navigation keys Control of input bar in edit and input mode or control of focus bar. 5) Function keys Are assigned the variable functions displayed at the bottom of the screen. 6) Softkey bar Displays functions that can be called up with the function keys. ) All shown displays are examples.
Fixed keys [PAGE] [MENU] [USER] [FNC] [ESC] Trigger key Scrolls to next page when a dialogue consists of several pages. Accesses programs, settings, the data manager, adjustments, communications parameters, system information and data transfer. Key, programmable with function from the FNC menu. Quick-access to measurementsupporting functions. Quit a dialog or the edit mode with activation of the "previous" value. Return to next higher level. Confirm an input; continue to the next field.
Distance measurement A laser distancer (EDM) is incorporated into the instruments of the TPS400 series. In all versions, the distance can be determined by using a laser beam which emerges coaxially from the telescope objective. ) Measurements to strongly reflecting targets such as to traffic lights in Reflector EDM mode without prism should be avoided. The measured distances may be wrong or inaccurate.
Reflectorless ) Be sure that the laser beam is not reflected by anything close to the line of sight (e.g. highly reflective objects). ) When a distance measurement is triggered, the EDM measures to the object which is in the beam path at that moment. In case of temporary obstruction (e.g. a passing vehicle, heavy rain, fog or snow) the EDM may measure to the obstruction.
Red laser to prisms ) Accurate measurements to prisms should be made with the standard program (Reflector EDM mode). Red laser to reflector tape The visible red laser beam can be used to measure to reflective foils, also. To guarantee the accuracy the red laser beam must be perpendicular to the reflector tape and it must be well adjusted (refer to the chapter "Checking and adjusting"). ) Make sure the additive constant belongs to the selected target (reflector). TPS400-5.0.
General softkeys: [ALL] Starts distance and angle measurements and saves measured values. [DIST] Starts distance and angle measurements without saving measured values. [REC] Saves displayed values. [ENTER] Deletes current value in the display and is ready for the input of a new value. [ENH] Opens the coordinate input mode. [LIST] Displays the list of available points. [FIND] Starts the search for the point entered. [EDM] Displays EDM settings.
Status symbol "EDM type" Symbols Reflector EDM mode for measuring to prisms and reflective targets. Reflectorless EDM for measuring to all targets. Depending on software version different symbols are displayed indicating a particular operating status. A double arrow indicates choice fields. Status symbol "Battery capacity" The battery symbol indicates the level of the remaining battery capacity (75% full shown in the example). Using the navigation keys the desired parameter can be selected.
Menu tree —— File Management —— Job —— Fixpoints —— Measurements —— Codes —— Initialize Memory —— Memory Statistic Menu —— Calibrations —— Hz-Collimation —— V-Index —— View Calibration Data —— Communication Parameters —— Baudrate —— Databits —— Parity —— Endmark —— Stopbits —— Data Transfer —— Job —— Data —— Format —— System Info —— Battery —— Instrument temperature —— Date —— Time —— Start-up sequence [MENU] > Confirm menu selection. [PAGE] Scroll to next page.
Measuring Preparation / Setting up 1) Data cable (optional) 2) Zenith eyepiece or eyepiece for steep angles (optional) 3) Total station 4) Removable tribrach (optional) 5) Battery charger and accessories (optional) 6) Adjustment tools 7) Battery GEB111 (optional) 8) GAD105 Mini prism adapter (optional) 9) Battery GEB121 (optional) 10) Tip for mini prism (optional) 11) Spacing bracket GHT196 for height meter (optional) 12) Height meter GHM007 (optional) 13) Protective cover / Lens hood 14) Mini prism rods 15
2. Remove battery. Inserting / Replacing Battery 3. Insert battery into battery holder. 1. Remove battery holder. 4. Insert battery holder into the instrument. ) Insert battery correctly (note pole markings on the inside of the battery holder). Check and insert battery holder true to side into the housing. • To charge the battery refer to chapter "Charging the batteries". • For the type of battery refer to chapter "Technical data". Measuring Preparation / Setting up 27 TPS400-5.0.
) ) When using the GEB121 battery, remove the spacer for the GEB111 from the battery compartment. ) • • • • Charging / first-time use The battery must be charged prior to using for the first time because it is delivered with an energy content as low as possible. For new batteries or batteries that have been stored for a long time (> three months), it is effectual to make 3 - 5 charge/discharge cycles. The permissible temperature range for charging is between 0°C to +35°C / +32°F to +95°F.
External power supply for total station To meet the conditions stipulated for electromagnetic acceptability when powering the TPS400 from an external source, the supply cable used must be equipped with a ferrite core. ) The Lemo plug with the ferrite core always has to be attached at the instrument side. For assembling open up one ferrite core and clip it around the supply cable, about 2cm away from the Lemo plug, before using the supply cable for the first time together with a TPS400 instrument.
1. Loosen the clamping screws on the tripod legs, pull out to the required length and tighten the clamps. 2. In order to guarantee a firm foothold sufficiently press the tripod legs into the ground. When pressing the legs into the ground note that the force must be applied along the legs. Setting up the tripod ) When setting up the tripod pay attention to a horizontal position of the tripod plate. Slight corrections of inclination can be made with the foot screws of the tribrach.
Instrument Setup Description This topic describes an instrument setup over a marked ground point using the laser plummet. It is always possible to set up the instrument without the need for a marked ground point. ) • Careful handling of tripod • Check all screws and bolts for correct fit. • During transport always use the cover supplied. • Use the tripod only for surveying tasks.
3. Turn on the instrument and switch on the laser plummet and electronic level by pressing [FNC] > [Level/Plummet]. 4. Move the tripod legs (1) and use the tribrach footscrews (6) to centre the plummet (4) over the ground point. 5. Adjust the tripod legs to level the circular level (7). 6. By using the electronic level turn the tribrach footscrews (6) to precisely level the instrument. Refer to "Levelling up with the electronic level step-by-step" for more information. 7.
rotating the footscrews. When the electronic level is centred the arrows are replaced by checkmarks. Levelling up with the electronic level step-by-step The electronic level can be used to precisely level up the instrument using the footscrews of the tribrach. 1. Turn on the instrument and switch on the electronic level by pressing [FNC] > [Level/ Plummet]. 2. Centre the circular level approximately by turning the footscrews of the tribrach.
Laser intensity Hints for positioning Changing the laser intensity External influences and the surface conditions may require the adjustment of the intensity of the laser. The laser can be adjusted in 25% steps as required. Positioning over pipes or depressions Under some circumstances the laser spot is not visible (e.g. over pipes). In this case, the laser spot can be made visible by using a transparent plate so that the laser spot can be easily aligned to the centre of the pipe. TPS400-5.0.
Input mode - method 1 Input mode - method 2 In entry mode, enter text or numeric values. In entry mode, enter text or numeric values. PtId: F1 F2 F3 F4 [INPUT] [>>>] - [ESC] 1. Delete entry, display numeric/ alphanumeric softkey bar. The cursor indicates that the instrument is ready for input. 2. Selection of range of characters/ range of numbers. Additional characters/ numbers. 3. Select the desired character. Character shifts to the left. 4. Confirm entry.
Erasing characters Edit mode 1. Place cursor on character to be deleted. 2. Pressing the navigation key deletes the relevant character. 3. Confirm input. Existing characters are changed in the edit mode. Info4: PREP Info4: PROP [ESC] 1. Start edit mode. Vertical edit bar is positioned flush right. Edit bar is positioned flush left. - 2. Select range of characters/ range of numbers. Additional characters / numbers. - 3. Overwrite existing characters.
Inserting characters If a character was skipped (e.g. -15 instead of -125) you can insert it later. 1. Place cursor on "1". 2. Inserts an empty character on the right of "1". - 3. Select range of characters /range of numbers. - 4. Select relevant character. 5. Confirm input. Measuring Preparation / Setting up 37 TPS400-5.0.
Numerical input Numerical and Alphanumerical input Input is made with the softkey bar and the assigned function keys. Position the marker in the relevant field. [INPUT] 1. Calls up the input dialogue. [>>>] 2. Select range of characters /range of numbers. Additional characters / numbers. 3. Confirm input. ) Alphanumerical input Selection is limited to valid digits for entries, that due to their display characteristics, fall into a certain range (e.g. angles in degrees). TPS400-5.0.
Character set Entry mode contains the following characters for numeric and alphanumeric input. Numerical "+" "-" "." "0-9" (ASCII 43) (ASCII 45) (ASCII 46) (ASCII 48 - 57) The character entry "*" can be used in data fields where point numbers or codes can be searched for. Signs +/- In the alphanumeric character set "+" and "-" are treated as normal alphanumeric characters with no mathematical function. Alphanumerical " " "!" "#" "$" "%" "&" "(" ")" "*" "+" "," "-" ".
Pointsearch Pointsearch is a global function used by applications to e.g. find internally saved measured or fixed points. It is possible for the user to limit the point search to a particular job or to search the whole storage. The search procedure always finds fixed points before measured points that fulfill the same search criteria. If several points meet the search criteria, then the points are listed according to their age. The instrument finds the most current (youngest) fixed point first.
Wildcard search The Wildcard search is indicated by a "*". The asterisk is a place holder for any following sequence of characters. Wildcards are always used if the point number is not fully known, or if a batch of points is to be searched for. *1 All points of any length with a "1" as the second character are found (e.g.: A1, B12, A1C). A*1 All points of any length with an "A" as the first character and a "1" as the third character are found. (e.g.: AB1, AA100, AS15). Starts point search.
Example of a possible measuring display: Measuring After switching on and setting up correctly, the total station is immediately ready for measuring. In the measurement display it is possible to call up fixed keys and function keys, as well as trigger keys and their functions ) All shown displays are examples. It is possible that local software versions are different to the basic version. - TPS400-5.0.1en 42 Calling up the assigned function.
FNC Key IR: Distance measurements with prisms. RL: Distance measurements without prisms. Find more information in chapter "EDM Settings". Under [FNC] several functions can be called up. Their applications are described below. ) ) Functions can also be started directly from the different applications. Laser Pointer Each function from the FNC menu can be assigned to the [USER]-key (see chapter "Settings"). Switches on or off the visible laser beam for illuminating the target point.
Delete Last Record Target Offset This function deletes the last recorded data block. This can be either a measurement block or a code block. If it is not possible to set up the reflector directly, or it is not possible to aim the target point directly, the offset values (length, cross and/or height offset) can be entered. The values for the angle and distances are calculated directly for the target point.
distance measurement has been triggered or exists. Enter offset values! The period of applicability can be set as follows: Trav. Offset: 0.600 m Length Offset: 0.800 m Height Offset: 0.500 m Mode : Reset after REC RESET CYLNDER The offset values are reset to 0 after the point is saved. Permanent The offset values are applied to all further measurements. ) The offset values are always reset to 0 when the application is quit. OK Procedure: 1.
Procedure: R α HzL CYLINDRICAL OFFSET Hz Left : 120.4361 Hz Right : 141.4435 V : 99.4658 : 15.398 Hz : 0.0000 PrismOffset: 0.030 P1 d HzR P0 TPS800_Z158 HZL: HZR: d: Horizontal angle to a point on the left side of the object Horizontal angle to a point on the right side of the object Distance to the object in the middle between HZL and HZR HzLeft HzRight 1 2 3 4 TPS400-5.0.1en 46 ALL g g g m g m EXIT Enter the prism offset.
5 [ALL] Completes the measurement and displays the results. That is the coordinates of the centre point of the cylindrical object and its radius. Height Transfer Example: Cylinder Offset Measure PtID : POINTNUMBER Description: ----North : 638073,456 m East : 436102,123 m Height : 168,789 m Radius : 44,350 m PREV 1) 2) 3) 4) FNC Key 47 Reflector 1 Reflector 2 Reflector 3 Instrument TPS400-5.0.
This function determines the height of the instrument from measurements to a maximum of 5 target points, with known heights, in two faces. With measurements to several targets, the improvement is indicated in the "delta" value. Procedure: 1. Select known point and input reflector height. 2. After triggering the measurement with [ALL], the calculated height H0 is displayed. [AddPt] Add another height of a known point. [FACE] Measure to the same target in second face. 3.
2. [All] Starts measurement and proceeds to the Result dialog. 3. Result is displayed. Procedure: 1. Measure to first prism (P1). [All] Starts measurement and proceeds to step 2. [ROD] Allows you to define the rod and the EDM-Settings. HIDDEN POINT RESULT PtID : 12 Desc. : GR East : 110.871 m North : 99.991 m Heigth : 102.884 m Rod Length Total length of hidden-point rod. Dist. R1-R2 Spacing between the centers of reflector R1 and prism R2. Meas.
Programs [ ] Settings not made. Application pre-settings ) Find further information about individual start-up programs on the subsequent pages ! These are programs that precede the application programs and are used to set up and organize data collection. They are displayed after selecting an application. The user can select the start programs individually. Setting job All data is saved in JOBS, like directories. Jobs contain measurement data of different types (e.g.
Setting Station Known Point Each coordinate computation relates to the currently set station. At least plan coordinates (E, N) are required for the station. The station height can be entered if required. The coordinates can be entered either manually or read from the internal memory. 1. Select a PtID stored in internal memory. 2. Input instrument height. [OK] Sets the station. Set manually 1. [ENH] Calls up manual point input dialogue. 2. Input PtID and coordinates. 3. [SAVE] Saves station coordinates.
Orientation Method 2: with coordinates With the orientation, Hz-direction can be input manually or points with known coordinates can be set. To determine the orientation, a target with known coordinates can also be used. 1. As orientation with coordinates. 2. Input of the orientation point number and to determine the point found. 3. To input and confirm the reflector height. For determining the orientation a maximum of 5 target points with known coordinates can be used. Method 1: Manual input 1.
Orientation coordinates can be either obtained from the internal memory or entered manually. The workflow is similar to Free Station workflow. After each measurement you are asked wether to proceed or not. Answering with yes brings you back to the Measurement dialog, to take an additional measurement. Answering with no brings you to the Result dialog. [COMPUTE] Calculates and displays the orientation results. [NextPt] Input another backsight point.
Displaying residuals [RESID] Display of residuals. 1) Actual 2) Design SH: Height correction S : correction of the horizontal distance SHz: Correction of Hz-angle. TPS400-5.0.
Useful information • • • If the orientation is only measured in telescope position II the Hz-orientation is based on telescope position II. If measured only in telescope position I or mixed the Hz-orientation is based on telescope position I. The prism height may not be changed during measurements in the first and second telescope position. If a target point is measured several times in the same telescope position the last valid measurement is used for the computation.
[MENU] Applications 1. Press the [MENU] fixed key. 2. Selecting the "Program" option. Introduction - Applications are predefined programs, that cover a wide spectrum of surveying duties and facilitate daily work in the field. 3. Calling up applications and activating start programs. [PAGE] Scroll to next page.
Surveying With the program Surveying the measurement of an unlimited number of points is supported. It is comparable to "Meas & Rec", but includes stationing, orientation and coding. Two coding methods are available: 1. Simple coding = remark: Input a code/remark in the relevant field. These text is stored with the corresponding measurement with [ALL]. The code is not related to a codelist, it is just a simple remark. A codelist on the instrument is not necessary. 2.
Stake out Polar Stake out This program calculates the required elements to stakeout points from coordinates or manually entered angles, horizontal distances and heights. Setting out differences can be displayed continuously. Normal indication of polar stake out offsets SHz, S ,S . Setting out coordinates from memory Procedure: Select the point. Starts measurement and calculation of the stake-out elements. [REC] Saves the displayed values. [B&D] Input direction and Hz-distance of stake out point.
Orthogonal Stake out Cartesian Stake out The position offset between measured point and stake out point is indicated in a longitudinal and transversal element. Setting out is based on a coordinate system and the offset is divided into a north and east element. 1) Actual 2) Point to be stake out SL: Longitudinal offset: positive if nominal point further away. ST: Transversal offset, perpendicular to line-of-sight: positive if nominal point is to the right of measured point.
The following measurements sequences to target points are possible: 1. Hz- and V-angles only (resection) 2. Distance and Hz- and V-angle (3 point resection) 3. Hz- and V-angles to some point(s) and Hz- and V-angle plus distance to other point(s). Free Station The application "Free Station" is used to determine the instrument position from measurements to a minimum of two known points and a maximum of five known points.
Measuring facilities Computation procedure Single face I or II or dual face I + II measurements are always possible. No specific point sequence or specific face sequences are required. Gross errors checks are made for dual face measurements to ensure the same point(s) are sighted with the other face. The measuring procedure automatically determines the method of evaluation, e.g. resection, 3 point resection, etc.
Procedure: Here you can enter a limit for the standard deviation values. If your computed deviation exceeds the limit a warning dialog appears, where you can decide wether to proceed or not. 1. Input of the name of the station and the height of the instrument. 2. Input of the target PtID and the reflector height. Enables you to define an accuracy limit. [ALL] [REC] TPS400-5.0.1en 62 Triggers angle and distance measurement (3 point resection). Saves Hz-direction and V-angle (resection).
[AddPt] [COMPUTE] 3/I 3/I II Input another backsight point. Calculates and displays the station coordinates, if at least 2 points and a distance were measured. Indicates that the third point in telescope position I was measured. Indicates that the third point in telescope positions I and II. Results Displays calculated station coordinates: STATION COORDINATES Station hi EO NO HO PREV [PREV] [RESID] [StdDev] [OK] Programs 63 : : : : : RESID 100 1.500 100.506 100.040 99.
) This dialog shows the computed residuals: Residual = Calculated value - Measured value If the instrument height was set to 0.000 in the setup screen, then the station height refers to height of trunnion axis. Displays standard deviations: STATION TARGET RESIDUALS 3/3 STANDARD-DEVITION Std.Dev.EO : Std.Dev.NO : Std.Dev.HO : Std.Dev.Ang: PtID Hz 0.027 0.013 0.000 +0.0121 PREV PREV [PREV] OK Std.Dev E0, N0, H0 Standard deviation of the station coordinates Std.
[Disable]/[Enable] Excludes/includes the displayed point from/in the calculations. Recalculates the free station and displays the station standard deviation. Press [PREV] to display the new station coordinates. [StdDev] Displays standard deviation. With the function keys, scroll between the residuals of the individual backsight points. Programs 65 TPS400-5.0.
Warnings / Messages Important messages Meaning Selected point has no valid data ! This message occurs if the selected target point has no easting or northing coordinate. Max 5 points supported ! If 5 points have already been measured and another point is selected. The system supports a maximum of 5 points. Invalid data - no position computed ! The measurements may not allow final station coordinates (Eastings, Northings) to be computed.
[ENH] [LIST] Reference Line This program facilitates the easy stake out or checking of lines for buildings, sections of road, simple excavations, etc. A reference line can be defined by referencing a known base line. The reference line can be offset either longitudinally, in parallel or vertically to the base line, or be rotated around the first base point as required. Manually input coordinates. Displays the list of available points. Analogue procedure for the second base point. Procedure: 1.
2. Shifting/Rotating the Base line The base line can be offset longitudinally, parallel and vertically or rotated. This new line is called the reference line. All measured data refers to the reference line. BL RL BP2 Off: L: R: Parallel offset Longitudinal offset Rotation parameter Input of the parameters: Use the navigation keys to select the shifting and rotation parameters of the reference line.
3. Selecting the subapplication REFERENCE LINE - MAIN 1/2 Length : 14.872 m Enter values to shift line: Offset : 1.000 m Line : 0.500 m Height : 0.900 m Rotate : 25.0000 g NewBL MEASURE STAKE [MEASURE] [STAKE] 4. "Line & Offset" subapplication SHIFT=0 The following entries are possible: Offset+: Parallel offset of the reference line to the right, referred to the direction of the base line (BP1-BP2).
RL PtID : hr : Offset: Line : : MP S L+ SOff+ REFERENCE LINE 140 1.500 0.208 0.349 1.203 TPS800_Z38 1RP: MP: RL: SL: SOff: DIST 1RP IR I REC The height of the first reference point is always used as the reference height for the calculation of the height differences (S ). 1st reference point Measured point Reference line Longitudinal offset Parallel offset TPS400-5.0.
Example "relative to first reference point" 1RP 1BP SH: You can enter longitudinal, parallel and height offsets for the target points to be set-out relative to the reference line. The program calculates the difference between a measured point and the calculated point. The program displays the orthogonal (SLine, SOffset, S ) and the polar (SHz, S , S ) differences. SH+ SH- Hd+ 1RP: 1BP: RH: Hd: RH 5. "Stake out" subapplication Procedure: 1. Input the orthogonal stake out elements. 2.
Display in "Stake out" measure mode: Example "orthogonal stake out" PtID hr Hz RL SL- MP ORTHOGONAL STAKEOUT 1/2 : 15 : 1.500 m : +0.200 g IR : 2.368 m : 0.260 m I SP SO- DIST TPS800_Z40 1RP: RL: MP: SP: SL: SOff: 1RP Offset: Line : : 1st reference point Reference line Measured point Stake out point Longitudinal offset Parallel offset TPS400-5.0.1en REC 2.040 m 1.203 m 0.260 m The signs for the distance and angle differences are correction values (required minus actual).
+S The stake out point is higher than the measured point. Tie Distance The application Tie Distance computes slope distance, horizontal distance, height difference and azimuth of two target points measured online, selected from the Memory or entered using the Keypad. The user can choose between two different methods: Polygonal (A-B, B-C) Radial (A-B, A-C) Warnings / Messages Important Messages Meaning Save via RS232 ! Data output (system setting menu) via RS232 interface is activated.
3. Result is displayed. Brg Azimuth between point1 and point2. Radial Method: Slope distance 1-2 S Slope distance 1-3 S S Centre point Grade Slope distance 1-4 Softkeys - polygonal method: [NewPt 1] An additional missing line is computed. Program starts again (at point 1). [NewPt 2] Point 2 is set as starting point of a new missing line. New point (Pt 2) must be measured. [RADIAL] Switches to radial method. In principal both methods are the same. Any differences will be described. Procedure: 1.
Softkeys - radial method: [NewPt 1] Determine new central point. [NewPt 2] Determine new radial point. [POLY] Switch to polygonal method. Programs 75 TPS400-5.0.
Area & Volume The application program Area is used to compute online areas of max. 50 points connected by straights. The target points have to be measured, selected from memory or entered via keyboard in clockwise direction. The calculated area is projected onto the horizontal plane (2D) or projected onto the sloped reference plane defined by 3 points (3D). Furthermore a volume with constant height can be calculated in relation to the area (2D/3D). P2 a P3 b P1 P4 P0 P0 P1 P2 a b TPS400-5.0.
1. Determine area points [ALL] Starts the measurement to the point. [FIND] / Searches for point in internal [LIST] memory. [ENH] For manual input of the coordinates. [1PtBACK] Undo measurement or selection of last point. ) The area (2D) is calculated and displayed once three points have been measured or selected. The area (3D) is calculated once the sloped reference plane is defined by three points. Programs 2. Results [Def.
P0 Station P1 Target point which defines the sloped reference plane P2 Target point which defines the sloped reference plane P3 Target point which defines the sloped reference plane P4 Target point a Constant height b Perimeter (3D), polygonal length from the start point to the current measured point of the area (3D) c Area (3D), projected onto the sloped reference plane d Volume (3D) = a x c e Perimeter (2D), polygonal length from the start point to the current measured point of the area (2D) f Area (2D),
Procedure: 1. Input PtID and reflector height [ALL] Starts measurement to base point and continues to 2. [hr?] Starts the program that determines an unknown reflector height. 2. Aim at inaccessible height point [OK] Saves the measured data. [BASE] Input and measurement of a new base point. Remote Height Points directly above the base prism can be determined without a prism at the target point. 1) 2) 3) 4) Remote point Height diff. Slope distance Base point Programs 79 TPS400-5.0.
Construction This application allows to define a construction site by combining set-up of the instrument along a construction line, measuring and setting out points in relation to the line. PtID : hr : : Off: : After selecting the application you have two options: a) Defining a new construction site or b) Continue with previous site (skips set-up) A11 1.500 m 7.225 m 10.194 m -1.673 m Procedure: [ShiftLn] Defining new site: 1. Measure line Start point [ALL], [DIST]+[REC] 2.
Measured point height is above line start point’s height. The graphics show you the position of the prism related to the stake out point. Below, the exact values are displayed, combined with arrows to show the direction. SLine is positive (arrow up): Target point is further away than the measured point. ) The height of the line start point is always used as the reference height! Layout Here you can search or enter points for staking out related to the measured line.
) During use of the application the previous Orientation and Station parameters will be replaced by the new calculated ones. COGO (optional) ) The application COGO can be started in total 15 times for trial. Afterwards you have to enter the license code.
Traverse Inverse & Traverse Inverse P4 d3 P2 d1 P3 d3 TPS800_Z87 P1 P1 Known P1 Known point a Direction from P1 to P2 d1 Distance between P1 and P2 d2 Positive offset to the right d3 Negative offset to the left Unknown P2 COGO point without offset P3 COGO point with positive offset P4 COGO point with negative offset Known P1 First known point P2 Second known point Unknown a Direction from P1 to P2 d1 Slope distance between P1 and P2 d2 Horizontal distance between P1 and P2 d3 Height difference be
Bearing - Distance Intersections Bearing - Bearing P4 r 1 P3 P3 P2 2 P1 TPS800_Z89 P1 P2 TPS800_Z88 Known P1 First known point P2 Second known point a Direction from P1 to P3 and P4 r Radius, as defined by the distance from P2 to P4 and P3 Unknown P3 First COGO point P4 Second COGO point Known P1 First known point P2 Second known point a1 Direction from P1 to P3 a2 Direction from P2 to P3 Unknown P3 COGO point TPS400-5.0.
By Points Distance - Distance P2 P4 P1 r1 b P4 P5 r2 P3 P3 P2 TPS800_Z91 TPS800_Z90 P1 Known P1 First known point P2 Second known point P3 Third known point P4 Fourth known point a Line from P1 to P2 b Line from P3 to P4 Unknown P5 COGO point Known P1 First known point P2 Second known point r1 Radius, as defined by the distance from P1 to P3 or P4 r2 Radius, as defined by the distance from P2 to P3 or P4 Unknown P3 First COGO point P4 Second COGO point Programs a 85 TPS400-5.0.
Set Point by ... Offset Distance - Offset P2 P2 b P4 a d2 d1 P3 P3 TPS800_Z92 TPS800_Z93 P1 Known P1 Baseline start point P2 Baseline end point a Difference in length/abzissa (HD) b Lateral deviation/ordinate (Offset) Unknown P3 Lateral point Known P1 Baseline start point P2 Baseline end point P3 Lateral point Unknown d1 Difference in length/abzissa (HD) d2 Lateral deviation/ordinate (Offset) P4 Base point TPS400-5.0.
Plane Offset Extension The "Extension" routine computes extend point from base line. P2 P5 P3 P1 d1 ΔL1 P2 P4 P3 P1 ΔL2 P4 TPS800_Z159 Known P1 P3 SL1 or SL2 Unknown P2, P4 Known P1 Point 1 which defines plane P2 Point 2 which defines plane P3 Point 3 which defines plane P4 Offset point Unknown P5 COGO point d1 Offset Programs 87 Baseline start point Baseline end point Distance Extended point TPS400-5.0.
• Reference Plane (optional) ) The application Reference Plane can be trialed 15 times. Afterwards it is necessary to enter the license code. • • The Reference Plane application is used to measure points relative to a reference plane. It can be used for the following tasks: • Measuring a point to calculate and store the perpendicular offset to the plane. • Calculating the perpendicular distance from the intersection point to the local X- and Z-axis.
P4 P5 X Z Off+ SX SZ Measured point. This point is probably not located on the plane. Footprint point of the perpendicular vector from P4 to the defined plane. This point is definitely located on the defined plane.
[LIST] [ENH] Procedure 1. Measuring points defining the reference plane Measure Point 1 Point 2 Point 3 hr ALL PLANE 1/3 1st plane point ! : A1 : ----IR : ----: 1.500 m : -----.--- m : -----.--- m I FIND 2. Measuring target point Measure a target point as you usually survey points. 3. Results PLANE RESULT 1/2 Int.PtID X Z LIST Input the name of the first point on the reference plane and the height of the reflector. Measure the point.
Offset: SX: SZ: [New Tgt] [STAKE] [New Plane] [EXIT] Calculated perpendicular distance between target point and plane (intersection point). Perpendicular distance from the intersection point to the local Z-axis. Perpendicular distance from the intersection point to the local X-axis. The stake out point is higher than the origin of the coordinate system. To measure a new target point. To display stake out values for the intersection point. To define a new reference plane. Goes to the programs menu.
Warnings / Messages Procedure: Select code from a codelist or enter a new code: [RECORD] The code is directly recorded without a measurement with [ALL]. [OK] The code is set. After a measurement with [ALL] the code is recorded. [AddList] Adds the entered code to the codelist. Important Messages Extending / editing code 1. Call available code from code list. 2. Attributes can be overwritten freely. Exceptions: With the codelist editor of LGO/LGO-Tools a status can be assigned to the attributes.
Settings This menu enables extensive user-specific settings in order to adapt the instrument to their own requirements. • • • Contrast Setting the display contrast in 10% steps. The % value increases rapidly. "--.--%" appears on the display above 300%". Trigger key Configuration of the trigger key on side cover. Off Trigger key deactivated. ALL Trigger key with same function as the [ALL]-key. DIST Trigger key with same function as the [DIST]-key. Tilt Correction Off Tilting compensation switched off.
Sector Beep Off Sector Beep switched off On Sector Beep sounds at right angles (0°, 90°, 180°, 270° or 0, 100, 200, 300 gon) Example Sector Beep: From 95.0 to 99.5 gon (or from 105.0 to 100.5 gon) a "Fast beep" sounds whilst from 99.5 to 99.995 gon (or from 100.5 to 100.005 gon) a "Permanent beep" sounds. 1) No beep 2) Fast beep (interrupted) 3) Permanent beep TPS400-5.0.
Beep The beep is an acoustic signal after each key stroke. Off Beep switched off Normal Normal volume Loud Increased volume Hz Incrementation Right Set right Hz for "Clockwise direction measurement". Left Set left Hz for "Counter-clockwise direction measurement". "Counter-clockwise" directions are only displayed but saved as "Clockwise direction". Reticle Illumination The reticle illumination is only switched on if the display illumination is on.
Intern If option "Hz Collimation ON" is active, each measured Hz-angle is corrected (depending on V-angle). For normal operation the Hz-collimation remains switched on. All data is recorded in the internal memory. GSI 8/16 Select GSI output format. GSI 8: 81..00+12345678 GSI 16: 81..00+1234567890123456 ) More information on Hz-collimation can be found under "Adjusments".
gon mil • possible angle values: 0 gon to 399.999 gon possible angle values: 0 to 6399.99mil • The setting of the angle units can be changed at any time. The actual displayed values are converted according to the selected unit. Distance Unit meter Meter ft-in1/16 US-feet-Inch-1/16 inch US-ft US-feet INT-ft International feet Min. Reading The displayed angle format can be selected in three steps. • For 360°'": 0° 00' 01" / 0° 00' 05" / 0° 00' 10" Always " are indicated. • For 360°: 0.0001° / 0.
EDM Settings The EDM-settings contain a detailed menu with selection boxes. TPS400-5.0.1en EDM Mode With TCR instruments different settings for measurements with reflectorless (RL) and reflector (IR) EDM mode are available. Depending on selected measuring mode the selection prism types are different.
RL-Standard For distance measurements without prisms (≤500m: 2mm + 2ppm >500m: 4mm + 2ppm) RL-Track Continuous distance measurement without prisms (5mm + 3 ppm) RL-Prism For distance measurements with prisms ) With the RL-EDM each object in the beam is measured (possibly also branches, cars, etc.). Prism type Calling the function in the EDM settings. Leica Prisms Constants [mm] Standard prism (Round) GPH1 + GPR1 EDM Settings 360° prism GRZ4 +23.1 360° Mini prism GRZ101 +30.
Prism Constant Calling the function in the EDM settings. Entry of a user specific prism constant. Input can only be made in [mm]. Limit value: -999,9 mm to +999,9 mm 100 m (300 ft) Laser Pointer Off: Visible laser beam is switched off. On: Visible laser beam for visualising the target point is switched on. Guide Light The person at the prism can be guided by the flashing lights directly to the line of sight. The light points are visible up to a distance of 150 meters.
[ATMOS] Input of atmospheric parameters. [SCALE] Scale of projection. Atmospheric Parameters (ppm): Distance measurement is influenced directly by the atmospheric conditions of the air in which distance measurement are taken. Scale factor: Entering the scale of projection. Measured values and coordinates are corrected with the PPM parameter. [PPM=0] Sets default parameters. [PPM] Input of individual scaling parameters.
• • • • Ht. a. MSL Height above sea level at instrument location. Temperature Air temperature at instrument location. Pressure Air pressure at instrument location. Atmos PPM: Calculated and indicated atmospheric PPM. Signal [SIGNAL] Displays EDM signal strength (reflection strength) in steps of 1%. Permits optimal aiming at distant barely visible targets. TPS400-5.0.
File Management The File Manager contains all functions for entering, editing and for checking data in the field. File Management Job Jobs are a summary of data of different types, e.g. fixed points, measurements, codes, results, etc. The job definition consists of the input of job name and user. Additionally, the system generates time and date at the time or creation. Job search: Scrolling through jobs. [DELETE] Deletes selected job. [SET] Sets the selected job. [NEW] Starts new job. 103 TPS400-5.
Fixpoints Valid fixed points contain at least the PtID and the coordinates (E, N) or (H). [DELETE] Deletes selected fixed point. [FIND] Starts point search. Exact PtIDs can be entered or the * wildcard-criteria used. [NEW] Opens input for PtID and coordinates. Measurements Measurement data available in the internal memory can be searched and displayed or erased. [FIND] Starts point search dialogue. [VIEW] Displays all measurements. [SAVE] [VIEW] [ATTRIB] Save data. Starts search dialogue.
[DELETE] [ALL] ) Starts deleting process within the selected area. Deletes all data in memory. All data will be lost ! Deleting the memory cannot be undone. After confirming the message all data is deleted permanently. Memory Statistic Displays job specific memory information such as: • Number of stored fixpoints. • Number of recorded data blocks (measured points, codes, etc.). • Number of free or not defined jobs. File Management 105 TPS400-5.0.
Start-up sequence Sets the screen the instrument starts in when switched on. E.g. the electronic bubble can be displayed at every start. Procedure: After confirming the dialogue of notification, the "Meas & Rec" screen is displayed. A maximum of 16 of the next key presses are stored. The sequence is ended with [ESC]. If the start sequence is activated, the stored key presses are executed automatically when the instrument is switched on.
Calibrations Determining Line-of-sight error and V-Index The calibration contains the determination of the following instrument errors: • Hz-collimation • V-index (simultaneously electronic level) For determining the Hz-collimation or the V-index it is necessary to measure in both telescope positions. The procedure can be started in any telescope position. The user is guided clearly through the procedure. A wrong determination of instrument error is thus eliminated.
Line-of-sight error (Hz-collimation) V-Index (Vertical index error) The line-of-sight error or collimation error (C) is the deviation from the perpendicular between the tilting axis and the line of sight. The effect of the line-of-sight error to the Hz-angle increases with the vertical angle. For horizontal aimings the error of Hz equals the line-of-sight error. TPS400-5.0.1en The vertical circle should read exactly 90° (100 gon) when the line of sight is horizontal.
Hz-collimation V-index Display adjustment value: Summarizes saved values. 4. Change telescope position and aim to the point again. For checking the horizontal aiming Hz and V are displayed. Procedure: 1. Level instrument with electronic bubble. 2. Aim at a point approximately 100m from the instrument which is within 5° of the horizontal. 5. [ALL]: Starts measurement 6. Displays the old and new calculated values. [SET] Sets new calibration data. [ESC] Quits program without setting new calibration data. 3.
Warnings / Messages Important Messages Meaning Measures V-Angle not suitable for calibration (Check V-angle or face) ! Aiming tolerance not met or telescope position/face not changed. Aim on the target point with an accuracy of min. 5 gon. The target point must be approximately in the horizontal plane. Confirmation of the message required. Calibration result out of tolerance. Previous values retained ! Computed values out of tolerance. Previous values retained. Repeat measurements.
COMM Parameters For data transfer between PC and instrument the communication parameters of the serial interface RS232 must be set. CR Carriage return Leica Standard setting 19200 Baud, 8 Databit, No Parity, 1 Stopbit, CR/LF Interface plug connections: Stopbits Fixed setting 1. Baudrate Data transfer speed 2400, 4800, 9600, 19200 [bits / second] Databits 7 Data transfer is realized with 7 databits. Is set automatically if parity is "Even" or "Odd". 8 Data transfer is realized with 8 databits.
Data Transfer With this special function measured data can be transferred via the serial interface to a receiver (e.g. a Laptop). Using this type of transfer the success of the transfer is not checked. Job: Selection of job from which data should be transferred. Data: Select the data range to be transferred (measurements, fixed points) Format: Select output format. Select Leica-GSIformat, or your own format created in the "Format Manager" and transfer to the LGO/LGO-Tools. [SEND] Starts the transmission.
System Info Displays helpful information and date / time are set. • Battery Remaining battery power (e.g. 40%). • Instr.Temp. Measured instrument temperature. • Date Displays the current date. • Time Displays current time. [SW-Info] The software of the instrument is composed of different software packages. Depending on the package, different versions are possible. Op-System: Operating System App.-SW: Applications, functions and menu Layout: User displays [DATE] Change date and format.
Instrument Protection with PIN The instrument can be protected by a Personal Identification Number. If the PIN protection is activated, the instrument will always prompt for a PIN code entry after starting up. If a wrong PIN has been typed in five times, a Personal UnblocKing code is required which can be found on the instrument delivery papers. If the PUK code entered is correct then the old PIN code is set to default value "0" and the PIN protection is deactivated.
Care and Storage In the field Transport When transporting or shipping the equipment always use the original Leica Geosystems packaging (transport case and shipping cardboard). ) After a longer period of storage or transport of your product always check the field adjustment parameters indicated in this manual before using the product.
Inside vehicle Never transport the product loose inside the vehicle. The product can be damaged by blows and vibrations. It must always be transported in its case and be properly secured. Storage Shipping For shipping the product by rail, aircraft or ship use the Leica Geosystems original packaging (transport case or shipping cardboard) or another suitable packaging securing the product against blows and vibrations.
Batteries • • • • ) If the product becomes wet, leave it unpacked. Wipe down, clean, and dry the product (at not more than 40 °C/ 104°F), transport case, foam inserts, and accessories. Pack up the equipment only when it is perfectly dry. When using the product in the field always close the transport case. Care and Storage • • 117 Refer to Technical Data for information about storage temperature range.
Cleaning ) Fogging of prisms: Reflector prisms that are cooler than the ambient temperature tend to fog. It is not enough simply to wipe them. Keep them for some time inside your jacket or in the vehicle to allow them to adjust to the ambient temperature. ) Cables and plugs: Keep plugs clean and dry. Blow away any dirt lodged in the plugs of the connecting cables. ) Objective, eyepiece and prisms: Blow dust off lenses and prisms. Never touch the glass with fingers.
Circular level Checking and adjusting Tripod The connections between metal and timber components must always be firm and tight. • Tighten the Allen screws (2) moderately. • Tighten the articulated joints on the tripod head (1) just enough to keep the tripod legs open when you lift it off the ground. Care and Storage Level-up the instrument in advance with the electronic level. The bubble must be centered.
Circular level on the tribrach Laser plummet The laser plummet is integrated into the vertical axis of the instrument. Under normal circumstances setting of the laser plummet is not necessary. If an adjustment is necessary due to external influences the instrument has to be returned to any Leica service department. Level the instrument and then remove it from the tribrach. If the bubble is not centred, adjust it using the adjusting pin.
Depending on brightness and surface the size of the laser spot can vary. At a distance of 1.5 m an average value of 2.5 mm diameter must be estimated. The maximum diameter of the circular movement described by the centre of the laser point should not exceed 3 mm at a distance of 1.5 m. Care and Storage 121 TPS400-5.0.
Safety Directions The following directions should enable the person responsible for the product, and the person who actually uses the equipment, to anticipate and avoid operational hazards. The person responsible for the product must ensure that all users understand these directions and adhere to them. Intended Use Permitted use • • • • • Measuring horizontal and vertical angles. Measuring distances. Recording measurements. Computing by means of software.
• • • • • • Use of products with obviously recognizable damages or defects. Use with accessories from other manufacturers without the prior express approval of Leica Geosystems. Aiming directly into the sun. Inadequate safeguards at the working site (e.g. when measuring on roads, etc.). Controlling machines, or controlling moving objects or similar, with the integrated distancer (visible laser). Deliberate dazzling of third parties.
Responsibilities Manufacturer of the product Leica Geosystems AG, CH-9435 Heerbrugg, hereinafter referred to as Leica Geosystems, is responsible for supplying the product, including the user manual and original accessories, in a completely safe condition.
Hazards of Use WARNING The absence of instruction, or the inadequate imparting of instruction, can lead to incorrect or adverse use, and can give rise to accidents with far-reaching human, material, financial and environmental consequences. Precautions: All users must follow the safety directions given by the manufacturer and the directions of the person responsible for the product.
the safety authorities responsible for the electrical installations and follow their instructions. WARNING If the product is used with accessories, for example masts, staffs, poles, you may increase the risk of being struck by lightning. CAUTION Be careful when pointing the product towards the sun, because the telescope functions as a magnifying glass and can injure your eyes and/or cause damage inside the product. Precautions: Do not point the product directly at the sun. TPS400-5.0.
Precautions: Adhere to the instructions given by the computer manufacturer with regard to field use in conjunction with Leica Geosystems products. Precautions: Protect the batteries from mechanical influences and high ambient temperatures. Do not drop or immerse batteries into fluids. CAUTION During the transport, shipping or disposal of batteries it is possible for inappropriate mechanical influences to constitute a fire hazard.
Precautions: The product must not be disposed with household waste. Dispose of the product appropriately in accordance with the national regulations in force in your country. Always prevent access to the product by unauthorized personnel. Product specific treatment and waste management information can be downloaded from the Leica Geosystems home page at http://www.leicageosystems.com/treatment or received from your Leica Geosystems dealer. Avoid subjecting the product to mechanical stress.
if used and operated as defined in this user manual due to the low eye hazard level. Laser classification ) General The following directions (in accordance with the state of the art - international standard IEC 60825-1 (2007-03) and IEC TR 60825-14 (2004-02)) provide instruction and training information to the person responsible for the product and the person who actually uses the equipment, to anticipate and avoid operational hazards.
Description Value Maximum average radiant power 0.33 mW Pulse duration 800 ps Pulse repetition frequency 100 MHz - 150 MHz Wavelength 650 nm - 690 nm TPS400-5.0.
Labelling Type: TC.... Art.No.: ...... Power: 12V/6V ---, 1A max Leica Geosystems AG CH-9435 Heerbrugg Manufactured: ...... S.No.: ...... Complies with 21 CFR 1040.10 and 1040.11 except for deviations pursuant to Laser Notice No.50, dated July 26,2001. This device complies with part 15 of the FCC Rules.
Distancer, Measurements without Reflectors (RL mode) c) natural aversion behaviour for exposure to bright light for the case of visible radiation. The EDM module built into the product produces a visible laser beam which emerges from the telescope objective.
WARNING Potential hazards are not only related to direct beams but also to reflected beams aimed at reflecting surfaces such as prisms, windows, mirrors, metallic surfaces etc. Precautions: Do not aim at areas that are essentially reflective, such as a mirror, or which could emit unwanted reflections. Do not look through or beside the optical sight at prisms or reflecting objects when the laser is switched on, in laser pointer or distance measurement mode.
Labelling Laser Aperture Laser Radiation Avoid direct eye exposure Class 3R Laser Product according to IEC 60825-1 ( 2007 - 03 ) Po ≤ 5.00 mW λ = 650 - 690 nm a) Laser beam TPS400-5.0.
Type: TC.... Art.No.: ...... Power: 12V/6V ---, 1A max Leica Geosystems AG CH-9435 Heerbrugg Manufactured: ...... S.No.: ...... Complies with 21 CFR 1040.10 and 1040.11 except for deviations pursuant to Laser Notice No.50, dated July 26,2001. This device complies with part 15 of the FCC Rules.
Electronic Guide Light EGL The integrated Electronic Guide Light produces a visible LED beam from the front side of the telescope. Depending on the type of telescope the EGL may be designed differently. ) The product described in this section, is excluded from the scope of IEC 60825-1 (2007-03): "Safety of laser products".
Laser plummet The laser plummet built into the product produces a visible red laser beam which emerges from the bottom of the product. The laser product described in this section, is classified as laser class 2 in accordance with: • IEC 60825-1 (2007-03): "Safety of laser products". WARNING From a safety perspective class 2 laser products are not inherently safe for the eyes. Precautions: Avoid staring into the beam or pointing the beam at other people.
Labelling Laser Radiation Do not stare into beam Class 2 Laser Product according to IEC 60825-1 ( 2007-03 ) P0 ≤ 1.00 mW λ = 620 - 690 nm a) Will be replaced by a Class 3R warning label if applicable TPS400-5.0.
Electromagnetic Compatibility EMC The term Electromagnetic Compatibility is taken to mean the capability of the product to function smoothly in an environment where electromagnetic radiation and electrostatic discharges are present, and without causing electromagnetic disturbances to other equipment. WARNING Electromagnetic radiation can cause disturbances in other equipment.
Precautions: Use only the equipment and accessories recommended by Leica Geosystems. When combined with the product, they meet the strict requirements stipulated by the guidelines and standards. When using computers and two-way radios, pay attention to the information about electromagnetic acceptability provided by the manufacturer. CAUTION Disturbances caused by electromagnetic radiation can result in erroneous measurements.
• FCC Statement (Applicable in U.S.) WARNING This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications.
Labelling: ........ ..........: ...... ............. .......... ....................... ....................... .................... .................... .................... ........: ...... 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 inte ference that may cause undesired operation. TPS400-5.0.
Technical Data Telescope • Transit fully • Magnification:............................................. 30x • Image: ................................................... upright • Free Objective aperture: ....................... 40 mm • Shortest focussing distance: ........1.7 m (5.6 ft) • Focusing: ................................................... fine • Field of view: ..............................1°30' (1.7gon) • Telescope field of view at 100m.............. 2.
Laser plummet • Location: ..............in vertical axis of instrument • Accuracy: ..................................Deviation from .............................................plumbline 1.5 mm ............................................ (2 sigma) at 1.5 m ............................................. instrument height • Diameter of laser point............. 2.5 mm / 1.5 m Keyboard • Tilt angle: ....................................................70° • optional 2nd keyboard Display • Backlit • Heatable.....
• Recording • RS232 interface ......................................... Yes • Internal Memory ........................................ Yes Total capacity....................................... 768 KB .............................. ≈ 12500 measurements or ............................................. ≈ 18000 fixpoints External supply (via serial interface) ............................. If an external cable is used, ........................ then the voltage range must lie ..................................
Distance measurement (IR: Reflector mode) Principle: Type: Carrier wave: Measuring system: • • Phase measurement Coaxial, visible red laser Class 1 658 nm System analyser basis 100 MHz - 150 MHz EDM type ..............................................coaxial Display (least count) ............................... 1 mm EDM measuring program Accuracy* (Standard deviation acc. to ISO 17123-4) Time per measurement IR_Fine 2 mm + 2 ppm typ. 2.4 s IR_Fast 5 mm + 2 ppm typ. 0.
Distance measurement (RL: Reflectorless mode) Measuring system: Type: Carrier wave: Power: Range (without reflector) System analyser basis 100 MHz 150 MHz Coaxial, visible red laser Class 3R 658 nm Distance measurement (without reflector) • Range of measurement: Power..................................... 1.5 m to >400 m Ultra ..................................... 1.5 m to >1000 m • Display unambiguous:........................ to 760 m • Prism constant (additive constant):. + 34.
EDM measuring program Accuracy Time per measurement 0 - 500 m 2 mm + 2 ppm > 500 m 4 mm + 2 ppm typ. 3 - 6 s max. 12 s Tracking*** 5 mm + 3 ppm typ. 0.25 s Distance measurement RL-prism (with reflector) • Range of measurement: .......... from 1000m up • Display unambiguous: ....................... to 12 km Standard** Ultra & Power: Range (with reflector) Atmospheric conditions ** Standard deviation acc.
Atmospheric correction The distance displayed is correct only if the scale correction in ppm (mm/km) which has been entered corresponds to the atmospheric conditions prevailing at the time of the measurement. The atmospheric correction takes air pressure and air temperature into account. For utmost precision in distance measurements, atmospheric correction must be determined with 1 ppm accuracy, air temperature to 1°C and air pressure to 3mb accuracy. Technical Data 149 TPS400-5.0.
Atmospheric correction in ppm with °C, mb, H (metres) at 60% relative humidity TPS400-5.0.
Reduction formulae The instrument calculates slope distance, horizontal distance and height difference in accordance with the following formula. Earth curvature and mean refraction coefficient (k = 0.13) are taken into account automatically. The calculated horizontal distance relates to the station height, not to the reflector height.
· |sin ζ | Y = X = ζ = A = = 1.47 · 10-7 [m-1] B = = 6.83 · 10-8 [m-1] k = 0.13 R = 6.37 · 106 m · cos ζ vertical-circle reading TPS400-5.0.
International Limited Warranty, Software License Agreement International Limited Warranty Software License Agreement This product is subject to the terms and conditions set out in the International Limited Warranty which you can download from the Leica Geosystems home page at http://www.leica-geosystems.com/ international warranty or collect from your Leica Geosystems distributor.
http://www.leica-geosystems.com/swlicense or collected from your Leica Geosystems distributor. You must not install or use the software unless you have read and accepted the terms and conditions of the Leica Geosystems Software License Agreement. Installation or use of the software or any part thereof, is deemed to be an acceptance of all the terms and conditions of such license agreement.
Index A Abbreviations ..................................................... 12 Additional characters ......................................... 39 Adverse uses ................................................... 122 Alphanumerical input ......................................... 38 Angle measurement ........................................ 143 Angle Unit .......................................................... 96 Application default settings ................................ 50 Applications .................
Contrast ............................................................. 93 Coordinate Editor .............................................. 15 Cylinder Offset ................................................... 45 D Data Exchange Manager ................................... 15 Data Output ....................................................... 95 Data Transfer .................................................. 112 Databits ........................................................... 111 Date ..................
GSI-coding ........................................................ 91 GSI-ID’s ........................................................... 112 Guide Light ...................................................... 100 H Hazards of use ................................................ 125 Height determination of remote points .............. 79 Height transfer ................................................... 47 Hidden Point ...................................................... 48 Horizontal circle ...........
L Labelling .......................................... 131, 138, 141 Language .......................................................... 95 Language choice ......................................... 19, 95 Laser Classification ................................. 129, 132 Laser classification .......................................... 129 Laser intensity ................................................... 34 Laser plummet ................................. 120, 137, 144 Laser Pointer ............................
Parity ............................................................... 111 Permitted uses ................................................ 122 PIN ............................................................ 44, 114 Plane Offset ....................................................... 87 Plumb line .......................................................... 13 Pointsearch ....................................................... 40 Polar Stake out ..................................................
Software Upload ................................................ 15 Stake out ........................................................... 58 Standard prism .................................................. 99 Standing axis ..................................................... 12 Standing axis inclination .................................... 13 Start programs ................................................... 50 Start-up sequence ........................................... 106 Statistics ..................
Z Zenith ................................................................ 13 Zenith angle ....................................................... 12 Index 161 TPS400-5.0.
Leica Geosystems AG, Heerbrugg, Switzerland, has been certified as being equipped with a quality system which meets the International Standards of Quality Management and Quality Systems (ISO standard 9001) and Environmental Management Systems (ISO standard 14001). Ask your local Leica dealer for more information about our TQM program. Leica Geosystems AG Heinrich-Wild-Strasse CH-9435 Heerbrugg Switzerland Phone +41 71 727 31 31 www.leica-geosystems.com 731037-5.0.