Symbols
The symbols used in this manual have the following meanings:
Type
Description
Danger
Indicates an imminently hazardous situation which, if not
avoided, will result in death or serious injury.
ƽ
ƽ
Warning
Caution
Indicates a potentially hazardous situation or an unintended
use which, if not avoided, could result in death or serious
injury.
Indicates a potentially hazardous situation or an unintended
use which, if not avoided, may result in minor or moderate
injury and/or appreciable material, financial and environmental
damage.
ƽ
Important paragraphs which must be adhered to in practice as
they enable the product to be used in a technically correct and
efficient manner.
)
Trademarks
Introduction
•
•
•
Windows and Windows CE are a registered trademark of Microsoft Corporation
CompactFlash and CF are trademarks of SanDisk Corporation
Bluetooth is a registered trademark of Bluetooth SIG, Inc
All other trademarks are the property of their respective owners.
TPS1200
3
Table of Contents
TPS1200
4
Table of Contents
In this manual
Chapter
Page
Table of Contents
TPS1200
5
Table of Contents
TPS1200
6
Table of Contents
TPS1200
7
How to Use this Manual
TPS1200
8
1
How to Use this Manual
It is recommended to set-up the instrument while reading through this manual.
)
Path
Main Menu: Manage...\Data stands for this working sequence:
From the Main Menu select Manage... and then select Data.
Screen
Page
CONFIGURE General Menu describes the name of the screen.
Screens can have more than one page. Units page describes a specific page of a
screen. For example: ’...in CONFIGURE Units & Formats, Units page...’
Fields and options Fields displayed on the screen are described as <Coord System:> or <Coord
System: Swiss>, if ’Swiss’ is the selected coordinate system.
Index
The index is at the end of the manual.
Keys, fields and options on the screens which are considered as self-explanatory are
not explained.
)
Validity of this
manual
This manual applies to all TPS1200 instruments. Differences between the various
models are marked and described.
Available
General description
documentation
Name of documentation Description
User Manual
All instructions required in order to operate the instru-
ment to a basic level are contained in this User
Manual. Provides an overview of the instrument
together with technical data and safety directions.
Name of documentation Description
System Field Manual Describes the general working of the instrument in
standard use. Intended as a quick reference field
guide.
How to Use this Manual
TPS1200
9
How to Use this Manual
TPS1200
10
Name of documentation Description
Applications Field Manual Describes specific onboard application programs in
standard use. Intended as a quick reference field
guide. The RoadRunner application program is
described in a separate manual.
Technical Reference
Manual
Overall comprehensive guide to the instrument and
program functions. Included are detailed descriptions
of special software/hardware settings and soft-
ware/hardware functions intended for technical
specialists.
Available documentation depending on use case
Use case
User Manual System Field Application
Technical
Reference
Manual
Programs
Field Manual Manual
for
for
for
for
TPS
TPS1200
RX1200
TPS1200
TPS1200
TPS1200
TPS1200
TPS1200
TPS1200
TPS RCS
Use case
User Manual System Field Application
Technical
Reference
Manual
Programs
Field Manual Manual
for
for
for
for
GPS
GPS1200
RX1200
GPS1200
GPS1200
GPS1200
GPS1200
GPS1200
GPS1200
GPS
SmartRover
Format of the
documentation
The TPS1200 CD contains the entire TPS1200 documentation in electronic format.
All manuals are also available in printed form except for the Technical Reference
Manuals.
How to Use this Manual
TPS1200
11
Description of the System
TPS1200
12
2
Description of the System
2.1
System Components
Main components
RX1200
TPS12_198
TPS1200
Component Description
TPS1200
•
•
•
•
•
an instrument for measuring, calculating and capturing data.
comprised of various models with a range of accuracy classes.
integrated with an add-on GNSS system to form SmartStation.
combined with RX1200 to conduct remote control surveys.
connected with LGO to view, exchange and manage data.
Component Description
RX1200
LGO
A multi-purpose controller enabling the remote control of TPS1200.
An office software consisting of a suite of standard and extended
programs for the viewing, exchange and management of data.
Terminology
The following terms and abbreviations may be found in this manual:
Term
TPS
Description
Total Station Positioning System
GNSS
Global Navigation Satellite System (generic term for satellite
based navigation systems like GPS, GLONASS, SBAS)
RCS
LGO
EDM
Remote Control Surveying
LEICA Geo Office
Electronic Distance Measurement
EDM refers to the laser distancer incorporated into the instru-
ment which enables distance measurement.
Description of the System
TPS1200
13
Description of the System
Term
TPS1200
14
Description
Three measuring modes are available:
•
•
•
infrared laser measurement mode IR.
visible red laser measurement mode RL.
long range visible red laser measurement mode LO.
EDM
Infrared IR
This EDM refers to the infrared laser and the ability to measure
distances to prisms.
EDM
This EDM refers to the visible red laser and the ability to measure
Reflectorless RL distances without prisms.
EDM
This EDM refers to the visible red laser and the ability to measure
Reflectorless LO extended distances to prisms.
PinPoint
PinPoint refers to the Reflectorless EDM technology which
enables an increased measuring range with a smaller laser spot
size. Two options are available: R100 and R300.
EGL
Electronic Guide Light
An EGL fitted to an instrument assists with prism targeting. It
consists of two differently coloured flashing lights located in the
instrument telescope housing. The person holding the prism can
align him/herself into the instrument’s line of sight.
Term
Description
Motorised
Instruments fitted with internal motors, enabling automatic hori-
zontal and vertical turning are referred to as Motorised.
ATR
Automatic Target Recognition
ATR refers to the instrument sensor which enables the automatic
fine pointing to a prism.
Automated
Instruments fitted with ATR are referred to as Automated.
Three automation modes are available with ATR:
•
•
•
None: no ATR - no automation and no tracking.
ATR: automatic fine pointing to a prism.
LOCK: automatic tracking of an already targeted prism.
PowerSearch
SmartStation
PowerSearch refers to the instrument sensor which enables the
automatic rapid finding of a prism.
A TPS1200 instrument integrated with an add-on GNSS system,
comprising hardware and software components, forms
SmartStation.
Description of the System
TPS1200
15
Description of the System
Term
TPS1200
Description
16
Components of SmartStation include SmartAntenna,
SmartAntenna Adapter with attached clip-on-housing and
antenna for a communication device and Communication side
cover.
SmartStation provides an additional instrument set-up method
for determining instrument station coordinates.
The GNSS principles and functionality of SmartStation derive
from the principles and functionality of GPS1200 instruments.
SmartAntenna
RadioHandle
SmartAntenna with integrated Bluetooth is a component of
SmartStation. It can also be used independently on a pole, with
a GNSS receiver and remote controller.
A component of RCS is RadioHandle. It is both an integrated
radio modem with attached antenna and instrument carry
handle.
Communication Communication side cover with integrated Bluetooth is a compo-
side cover
nent of SmartStation. In combination with RadioHandle it is also
a component of RCS.
Instrument models
Model
Description
TC1200
Basis electronic tachymeter.
TCR1200
TCRM1200
TCA1200
TCP1200
TCRA1200
TCRP1200
Additional components: Reflectorless EDM.
Additional components: Reflectorless EDM, Motorised.
Additional components: Automated, Motorised.
Additional components: Automated, Motorised, PowerSearch.
Additional components: Reflectorless EDM, Automated, Motorised.
Additional components: Reflectorless EDM, Automated, Motorised,
PowerSearch.
LEICA Geo Office
•
•
•
LGO supports GPS1200 and TPS1200 instruments. It also supports all other
Leica TPS instruments.
LGO is based on a graphical user interface with standard Windows® operating
procedures.
LGO provides the following functionality:
Description of the System
TPS1200
17
Description of the System
Functionality
TPS1200
Description
18
Standard
Functionality
Includes data exchange between computer and instrument, data
management including viewing and editing, reporting, creation
and management of codelists, creation and use of format files for
data conversion, uploading and deleting of system software and
application programs.
Extended
Functionality
Includes Coordinate transformations, GPS and GLONASS post
processing, Level data processing, Network adjustment, GIS
and CAD Export.
•
•
Supported operating systems: Windows® XP, Windows® 2000, Windows® ME.
Refer to the online help of LGO for additional information.
2.2
System Concept
Software Concept
2.2.1
Description
TPS1200 instruments use the same software concept.
Software type
Software type Description
System
This software comprises the central functions of the instrument.
software
It is also referred to as firmware.
The programs Survey and Setup are integrated into the firmware
and cannot be deleted.
The English language is integrated into the firmware and cannot
be deleted.
Language
software
Numerous languages are available for the TPS1200 instru-
ments. This software is also referred to as system language.
The system software enables a maximum of three languages
which can be stored at any one time - the English language and
two other languages. The English language is the default
language and cannot be deleted. One language is chosen as the
active language.
Description of the System
TPS1200
19
Description of the System
TPS1200
20
Software type Description
Application
programs
A suite of optional survey-specific application programs are
available for the instrument.
Some of the programs are activated freely and require no licence
key and others require purchasing and are only activated with a
licence key.
Customised
application
programs
Customised software specific to user requirements can be devel-
oped using the GeoC++ development kit. Information on the
GeoC++ development environment is available on request from
a Leica Geosystems representative.
Software upload
All instrument software is stored in the System RAM of the instrument. The software
can be uploaded onto the instrument using the following methods:
•
Using LGO the software is transferred via the serial interface to the Compact-
Flash card in the instrument, which is then stored to the System RAM.
•
By connecting the CompactFlash card directly to the computer either via an
internal card slot housing or an external OMNI drive, the software is transferred
to the card, which is then stored to the System RAM.
2.2.2
Data Storage and Data Conversion Concept
Description
Data is stored within a job in a database on a memory device. This is either a
CompactFlash card or an internal memory if fitted.
Memory device
CompactFlash card:
A CompactFlash card housing is standard. A Compact-
Flash card can be inserted and removed. Various storing
capacities are available.
Whilst other CompactFlash cards may be used,
Leica recommends Leica CompactFlash cards
and cannot be held responsible for data loss or
any other error that may occur when using a
non-Leica card.
)
Internal memory:
An internal memory is optional. It resides inside the instru-
ment. Available capacity: 64 MB.
Unplugging connecting cables or removing the CompactFlash card during the meas-
urement may cause loss of data. Always return to TPS1200 Main Menu before
removing the CompactFlash card and switch off the instrument before removing
cables.
)
Description of the System
TPS1200
21
Description of the System
TPS1200
22
Data conversion
Export
Data can be exported from a job in a wide range of ASCII formats. The export format
is defined in Format Manager which is a PC tool in LEICA Geo Office. Refer to the
online help of LGO for information on creating format files.
Import
Data can be imported from ASCII, GSI8 or GSI16 format.
Transfer raw data
to LGO
Raw data can be transferred between the database on the CompactFlash card or
the internal memory of the instrument and LGO in two ways:
•
From the CompactFlash card or the internal memory directly via a serial inter-
face to a project in LGO on a PC.
•
From the CompactFlash card using for example an OMNI drive as supplied by
Leica Geosystems to a project in LGO on a PC.
CompactFlash cards can be used directly in an OMNI drive as supported by Leica
Geosystems. Other PC card drives may require an adapter.
)
2.2.3
Power Concept
General
Use the Leica Geosystems batteries, chargers and accessories or accessories
recommended by Leica Geosystems to ensure the correct functionality of the instru-
ment.
Power options
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:
External battery:
One GEB221 battery fitted into the battery compartment.
One GEB171 battery connected via cable, or
One GEB70 battery connected via cable.
SmartAntenna
Power for the antenna is supplied internally.
Internal battery: One GEB211 battery fitted into the antenna.
Description of the System
TPS1200
23
Description of the System
TPS1200
24
2.3
Container Contents
Container for
instrument and
delivered
accessories
part 1 of 2
a
b
c
a) Tribrach bracket for height meter
b) Data transfer cable GEV102
c) Diagonal eyepiece GFZ3 or zenith
eyepiece GOK6 (eyepiece for steep
sighting) - optional
d) Counterweight for diagonal eyepiece or
zenith eyepiece - optional
e) Instrument with supplied stylus and
tribrach (with standard carry handle or
RadioHandle attached)
d
e
f) Protective cover for instrument and
sunshade for objective lens
f
g) Tip for mini prism
h) Internal battery GEB221
i) Mini prism and holder
g
h
i
TPS12_010a
Container for
instrument and
delivered
a
accessories
part 2 of 2
b
a) Pocket knife - optional
b) Spare stylus
c) User manual
d) 2 x CompactFlash cards and covers
e) Tool set for circular level and EDM
adjustments - comprising two adjusting
pins, one allen key and one screwdriver
f) Battery charger
c
e
d
f
g) Car adapter power plug for battery
charger (stored under battery charger)
g
TPS12_010b
Description of the System
TPS1200
25
Description of the System
TPS1200
26
a) 360° mini prism with adapter
GRZ101
b) RadioHandle
Container for
SmartStation/RCS
a
g
components
part 1 of 2
b
c) Radio modem with antenna
TCPS27
d) Grip with circular bubble and
fixing element GHT25
(without clamp)
c
e) Y-cable GEV186 / battery
cable GEV52 (stored over
grip)
d
f) Antenna for communication
device in clip-on-housing
g) SmartAntenna Adapter with
communication device in
clip-on-housing
e
h
i
h) SmartAntenna
i) Internal battery GEB211
f
RX12_012
Container for
SmartStation/RCS
components
part 2 of 2
a
b
e
a) 360° prism GRZ4
b) User manual
c) Tripod adapter for radio
modem GHT43
d) Spare stylus
c
e) External battery - GEB70 or
GEB171
f
f) 2 x internal batteries GEB211
g) RX1220 controller
with stylus and antenna
h) Pole holder GHT39
(with clamp) (stored under
RX1220 controller)
g
h
d
RX12_004
Description of the System
TPS1200
27
Description of the System
TPS1200
28
2.4
Instrument Components
Instrument
components
part 1 of 2
a
b
c d e
f
g
a) Carry handle
b) Optical sight
c) Telescope, integrating EDM, ATR, EGL, PS
d) EGL flashing diode - yellow
e) EGL flashing diode - red
f) Coaxial optics for angle and distance meas-
urement, and exit port of visible laser beam
for reflectorless instruments
g) PowerSearch
h) CompactFlash card compartment
i) Horizontal drive
j) Tribrach securing screw
h i
TPS12_001a
j
Instrument
components
part 2 of 2
k
l
k) Vertical drive
l) Focusing ring
m) Battery compartment
n) Stylus for touch screen
o) Screen
p) Circular level
q) Tribrach footscrew
r) Interchangeable eyepiece
s) Keyboard
m
s
n o
p
q r
TPS12_001b
Description of the System
TPS1200
29
a) Hot keys F7-F12
b) Alphanumeric keys
c) CE, ESC, USER, PROG
d) ENTER
e) Arrow keys
f) SHIFT
g) Function keys F1-F6
Keys
Key
Description
Hot keys F7-F12
•
User definable keys to execute commands or access
chosen screens.
Alphanumeric keys
•
To type letters and numbers.
CE
•
•
Clears all entry at the beginning of user input.
Clears the last character during user input.
ESC
•
Leaves the current menu or dialog without storing
changes made.
USER
•
Calls the user defined menu.
PROG (ON)
•
•
If the instrument is off: to turn instrument on.
If the sensor is on: press at any time to select an applica-
tion program.
User Interface
TPS1200
33
User Interface
TPS1200
34
Key
Description
ENTER
•
Selects the highlighted line and leads to the next logical
dialog/menu.
•
•
Starts the edit mode for edit fields.
Opens a list box.
SHIFT
•
Changes between the first and the second level of func-
tion keys.
Arrow keys
•
Move the focus on the screen.
Function keys F1-F6 • Correspond to the six softkeys that appear on the bottom
of the screen when the screen is activated.
Key combinations
Keys
Description
PROG plus USER Turns instrument off.
SHIFT F12
SHIFT F11
Calls STATUS Level & Laser Plummet.
Calls CONFIGURE Lights, Display, Beeps, Text, Lights
page.
SHIFT USER
Calls QUICK SET Change Settings to:.
User Interface
TPS1200
36
3.2
Screen
Screen
f
a) Time
b) Caption
c) Title
d) Screen area
e) Message line
f) Icons
a
b
c
g
h
d
g) ESC
h) CAPS
i
j
e
i) SHIFT icon
j) Quick coding icon
k) Softkeys
k
TPS12_081
Elements of the
screen
Element
Time
Description
The current local time is shown.
Caption
Shows location either in Main Menu, under PROG key or
USER key.
Title
Name of the screen is shown.
The working area of the screen.
Screen area
Element
Message line
Icons
Description
Messages are shown for 10 s.
Shows current status information of the instrument. Refer to
"3.4 Icons". Can be used with touch screen.
ESC
Can be used with touch screen. Same functionality as the fixed
key ESC. The last operation will be undone.
CAPS
The caps mode for upper case letters is active.The caps mode
is activated and deactivated by pressing UPPER (F5) or
LOWER (F5) in some screens.
SHIFT icon
Shows the status of the SHIFT key; either first or second level
of softkeys is selected. Can be used with touch screen and has
the same functionality as the fixed key SHIFT.
Quick coding icon Shows the quick coding configuration. Can be used with touch
screen to turn quick coding on and off.
Softkeys
Commands can be executed using F1-F6 keys. The
commands assigned to the softkeys are screen dependent.
Can be used directly with touch screen.
Scroll bar
Scrolls the screen area up and down.
User Interface
TPS1200
37
User Interface
TPS1200
38
3.3
Operating Principles
Keyboard and
touch screen
The user interface is operated either by the keyboard or by the touch screen with
supplied stylus. The workflow is the same for keyboard and touch screen entry, the
only difference lies in the way information is selected and entered.
Turn instrument on Press and hold PROG for 2 s.
Turn instrument off
step-by-step
Step
Description
The instrument can only be turned off in TPS1200 Main Menu.
Press and hold both USER and PROG simultaneously.
Press YES (F6) to continue or NO (F4) to cancel.
)
1.
2.
Lock/Unlock
keyboard
Option Description
Lock To lock the keyboard press and hold SHIFT for 3 s. The message
’Keyboard locked’ is momentarily displayed on the Message Line.
Unlock To unlock the keyboard press and hold SHIFT for 3 s. The message
’Keyboard unlocked’ is momentarily displayed on the Message Line.
Selecting
from a menu
Appearance
Description
To select an item from a menu, do one of the following:
Move the focus to the item. ENTER or CONT (F1).
OR
Type the complete selection number in front of the
item. ENTER or CONT (F1) are not required.
OR
Tap on the item with the stylus.
Selecting a page
Appearance
Description
To select a page in a screen, do one of the following:
PAGE (F6).
OR
Tap on the page tab with the stylus.
User Interface
TPS1200
39
User Interface
TPS1200
40
Edit an entire value
in input fields
Appearance
Appearance
Description
1. Highlight the field.
2. Type numeric and/or alphanumeric characters to
overwrite.
3. ENTER or tap outside of the field.
Edit an individual
character in input
fields
Description
A character can be inserted or overwritten. The proce-
dure is the same for both cases.
1. Highlight the field.
2. For the keyboard: ENTER. The edit mode is acti-
vated where additional functions like insert and
overwrite are available.
3. For the touch screen: Highlight the characters to
be changed.
4. Type numeric and/or alphanumeric characters.
5. ENTER or tap outside of the field.
Access special
alphanumeric
characters for
input
Step
1.
Description
Highlight the input field.
For the keyboard: ENTER.
2.
3.
Toggle to the desired special character set by using the up/down arrow
keys.
4.
5.
6.
Press the function key assigned to the required character group.
Press the function key with the required character.
Repeat step 4. and 5. for entering more special characters of the same
character set.
7.
ENTER.
Appearance and
selection from a
choicelist
Choicelists have various appearances.
Closed choicelist
Appearance
Description
Selection
Triangles on the right indi- Use the arrow keys
to
cate further available
choices.
change through the list or
tap the triangles on the
screen.
User Interface
TPS1200
41
User Interface
TPS1200
42
ENTER or tap on the field to access the choicelist. Opening a choicelist reveals
either a simple listbox or a comprehensive listbox dialog.
Simple listbox
.
Appearance
Description
Selection
•
•
•
Choicelist shows
items to select.
•
Highlight the item and
ENTER.
A search field is
shown if necessary.
•
To exit without
changes ESC, tap
or outside the simple
listbox.
A scroll bar is shown if
necessary.
Listbox dialog
.
Appearance
Description
Selection
•
•
•
Choicelist fills the
whole screen.
•
Highlight the item and
CONT (F1).
A search field is
shown.
•
To exit without
changes press ESC or
tap
.
A scroll bar is shown if
necessary.
•
The functionality
comprise adding,
editing and deleting of
items.
•
Listbox dialogs are
explained in detail at
appropriate places in
the manuals.
User Interface
TPS1200
43
User Interface
TPS1200
44
3.4
Icons
Description
The screen icons display the current status information of the instrument.
Position of the
icons on the screen
a
b
c
d
e f g h
i
a) ATR/LOCK/PS
b) Reflector
c) EDM
d) Compensator/face I&II
e) RCS
f) Bluetooth
g) Line/area
h) CompactFlash card/internal memory
i) Battery
j) SHIFT
j
k
k) Quick coding
TPS12_172
a) GNSS position status
b) Number of visible satellites
c) Contributing satellites
d) Real-time device and real-time
status, Internet online status
e) Position mode
a
b
c
d
e
f
g
h
i
f) Bluetooth
g) Line/area
h) CompactFlash card/internal memory
i) Battery
j
j) SHIFT
k) Quick coding
TPS12_172a
TPS specific icons
Icon
Description
ATR/LOCK/PS
The currently active ATR/LOCK/PS settings or searches
are displayed.
Reflector
EDM
The currently active reflector is displayed.
The currently active EDM measurement settings are
displayed.
User Interface
TPS1200
45
User Interface
TPS1200
46
Icon
Description
Compensator/face I&II Compensator off, out of range or face I&II icon is
displayed.
RCS
RCS settings are displayed.
GPS specific icons
Icon
Description
GNSS Position status Displays the status of the current position. As soon as
this icon becomes visible the receiver is in a stage where
practical operation can commence.
Number of visible
satellites
Displays the number of theoretically visible satellites
above the configured cut off angle according to the
current almanac.
Contributing
satellites
Displays the number of satellites that are contributing to
the currently computed position solution.
Icon
Description
The number of contributing satellites can differ
)
from the number of visible satellites. This may
be either because satellites cannot be viewed
or the observations to these satellites are
considered to be too noisy to be used in the
position solution.
Real-time device and
real-time status
Displays the real-time device configured to be used and
its status.
Internet online status Receiver is online in the Internet.
Position mode
Displays the current position mode.
Common icons
Icon
Description
Bluetooth
The status of each Bluetooth port and any Bluetooth
connection is displayed.
Line/area
The number of lines and areas currently open in the
active job is displayed.
User Interface
TPS1200
47
User Interface
TPS1200
48
Icon
Description
CompactFlash
The status of the CompactFlash card and internal
card/internal memory memory if fitted are displayed.
•
For the CompactFlash card, the capacity of used
space is shown in seven levels.
•
For the internal memory if fitted, the capacity of used
memory is shown in nine levels.
Battery
The status and source of the battery is displayed. The
percentage of remaining power capacity for all batteries
are displayed numerically and graphically. For internal
and external battery being attached at the same time the
internal battery is used until it is empty and then the
external battery is used.
SHIFT
The status of the SHIFT key is displayed.
Quick coding
Shows the quick coding configuration. Can be used with
touch screen to turn quick coding on and off.
User Interface
TPS1200
49
Operation
TPS1200
50
4
Operation
4.1
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.
Important features:
)
• It is always recommended to shield the instrument from direct sunlight and
avoid uneven temperatures around the instrument.
• The laser plummet described in this topic is built into the vertical axis of the
instrument. It projects a red spot onto the ground, making it appreciably easier
to centre the instrument.
• The laser plummet cannot be used in conjunction with a tribrach equipped
with an optical plummet.
• Refer to "TPS1200 Technical Reference Manual" for additional information on
using the laser plummet.
Setup step-by-step
7
2
SHIFT
F12
3
6
1
5
1
5
4
1
5
TPS12_019
Step
Description
Shield the instrument from direct sunlight and avoid uneven temperatures
around the instrument.
)
1.
Extend the tripod legs to allow for a comfortable working posture. Position
the tripod over the marked ground point, centring it as well as possible.
2.
Fasten the tribrach and instrument onto the tripod.
Operation
TPS1200
51
Operation
TPS1200
52
Step
Description
3.
Turn on the instrument by pressing PROG for 2 s. Press SHIFT (F12) to
access STATUS Level & Laser Plummet, activating the laser plummet.
4.
Move the tripod legs (1) and use the tribrach footscrews (6) to centre the
plummet (4) over the ground point.
5.
6.
Adjust the tripod legs to level the circular level (7).
By using the electronic level turn the tribrach footscrews (6) to precisely
level the instrument.
7.
8.
Centre the instrument precisely over the ground point (4) by shifting the
tribrach on the tripod plate (2).
Repeat steps 6. and 7. until the required accuracy is achieved.
4.2
Autodetect Behaviour
Description
•
The instrument incorporates an autodetect behaviour and automatically detects
the following devices:
• SmartAntenna
• RadioHandle
• radios/modems in clip-on-housings
•
•
Whenever a device is attached, the instrument responds with two short beeps.
Whenever a device is removed, the instrument responds with one long beep.
SmartAntenna
Adapter
•
SmartAntenna Adapter cannot be detected by the instrument but the devices
that are attached to SmartAntenna Adapter are automatically detected. These
devices are SmartAntenna and radios/modems in clip-on-housings.
Radio/Modem
in clip-on housing
•
All radios and modems that are built into a clip-on housing are automatically
detected by the instrument when attached to SmartAntenna Adapter, but the
device settings are not automatically set.
SmartAntenna
Operation
•
•
SmartAntenna is automatically detected by the instrument when it is attached
and STATUS Interfaces is automatically updated.
Certain functionality can only be executed if SmartAntenna is attached.
TPS1200
53
Operation
TPS1200
54
•
•
In addition to the autodetect behaviour, SmartAntenna can also be manually
turned on/off using the ON/OFF button located on the underside. This action
overrides all automatic settings but is only possible when SmartAntenna is fitted
with an internal battery.
If turned off, SmartAntenna is automatically turned on:
• by the Setup application, when <Station Coord: From GPS>
• by the GPS Survey application, in the GPS SURVEY screen.
• in the STATUS SmartStation menu
RadioHandle
•
•
RadioHandle is automatically detected by the instrument when it is attached.
When RadioHandle is attached and RCS Mode is activated via the quick settings
in SHIFT USER, the appropriate port and device settings are set.
Operation
TPS1200
56
Step
Description
1.
A circular screw is located at one end of the clip-on-housing. Ensure that
the circular screw is in the unlocked position. Turn it anticlockwise, as
shown by the lock and arrow symbols on the screw.
2.
Slide the clip-on-housing into position underneath the SmartAntenna
Adapter, such that the guide rails on the clip-on-housing and the guide
rails on the SmartAntenna Adapter are aligned.
Ensure that the connector located at the end of the clip-on-housing fits into
its port of the SmartAntenna Adapter.
)
3.
Lock the circular screw by turning it clockwise, as shown by the lock and
arrow symbols on the screw. The clip-on-housing is now locked into posi-
tion.
4.
Thread the antenna onto the clip-on-housing.
TPS12_195
Step
Description
5.
Place the SmartAntenna Adapter with attached clip-on-housing onto the
instrument by simultaneously pressing and holding-in the four push
buttons.
Ensure that the interface connection on the underside of the SmartAn-
tenna Adapter is on the same side as the Communication side cover.
)
Operation
TPS1200
57
Operation
TPS1200
58
TPS12_209
Step
Description
6.
Place the SmartAntenna onto the SmartAntenna Adapter by simultane-
ously pressing and holding-in the two press clips.
Ensure that the clip-on-contacts on the underside of the SmartAntenna
are aligned to the clip-on-contacts of the SmartAntenna Adapter.
)
Operation
TPS1200
Description of LED Indicators
60
IF the
is
THEN
TRK
off
no satellites are tracked.
flashing green
less than four satellites are tracked, a position is not
yet available.
green
enough satellites are tracked to compute a position.
Bluetooth is in data mode and ready for connecting.
Bluetooth is connecting.
BT
green
purple
blue
Bluetooth has connected.
flashing blue
off
data is being transferred.
PWR
power is off.
green
power is okay.
flashing green
power is low. The remaining time for which enough
power is available depends on the type of survey, the
temperature and the age of the battery.
4.3.3
Working with the Clip-On-Housings for Devices
Devices fitting into Digital cellular phones fitting into a clip-on-housing
a clip-on-housing
Digital cellular phone
Clip-on-housing
Siemens MC45
GFU17
Siemens MC75
GFU24
CDMA MultiTech MTMMC-C (US)
CDMA MultiTech MTMMC-C (CAN)
GFU19
GFU25
Radios fitting into a clip-on-housing
Radio
Clip-on-housing
GFU15
Pacific Crest PDL, receive
Satelline 3AS, transceive
GFU14
Operation
TPS1200
61
Operation
TPS1200
Attach a clip-on-housing
62
Attach/detach a
clip-on-housing
step-by-step
Refer to "4.3.1 SmartStation Setup" for detailed information.
Detach a clip-on-housing
Step
Description
1.
A circular screw is located at one end of the clip-on-housing. To unlock
and release the clip-on-housing from the SmartAntenna Adapter turn the
screw anticlockwise, as shown by the lock and arrow symbols on the
screw.
2.
Slide the clip-on-housing away from the SmartAntenna Adapter until the
connector is completely unplugged from its port.
Insert a SIM card
step-by-step
For those digital cellular phones that require SIM cards.
Step
1.
Description
Take the SIM card, a coin and a pen.
2.
Locate the SIM card screw, that covers the SIM card slot, at the end of the
clip-on-housing.
3.
4.
Insert the coin into the groove of the SIM card screw.
Turn the coin anticlockwise to loosen the SIM card screw.
Step
5.
Description
Remove the SIM card screw from the housing.
6.
Using the pen, press the small button of the SIM card slot to eject the SIM
card holder.
7.
8.
9.
Take the SIM card holder out off the housing.
Put the SIM card into the SIM card holder, the chip facing up.
Insert the SIM card holder into the SIM card slot, the chip facing the
connectors inside the slot.
10.
11.
12.
Place the SIM card screw back onto the housing.
Insert the coin into the groove of the SIM card screw.
Turn the coin clockwise to tighten the SIM card screw.
Operation
TPS1200
63
Operation
TPS1200
64
Remove a SIM card For those digital cellular phones that require SIM cards.
step-by-step
Step
1.
Description
Take a coin and a pen.
2.
Locate the SIM card screw, that covers the SIM card slot, at the end of the
clip-on-housing.
3.
4.
5.
6.
Insert the coin into the groove of the SIM card screw.
Turn the coin anticlockwise to loosen the SIM card screw.
Remove the SIM card screw from the housing.
Using the pen, press the small button of the SIM card slot to eject the SIM
card holder.
7.
8.
9.
Take the SIM card holder out off the SIM card slot.
Take the SIM card out of the SIM card holder.
Put the SIM card holder back into the SIM card slot, the even side not
facing the contacts inside the slot.
10.
11.
Place the SIM card screw back onto the housing.
Turn the coin clockwise to tighten the SIM card screw.
4.3.4
LED Indicators on Clip-On-Housings
LED Indicators
Description
Each clip-on-housing for a radio or a digital cellular phone has Light Emitting Diode
indicators. They indicate the basic device status.
Diagram of the LED Indicators
a) Power LED
b) Signal strength LED
c) Data transfer LED
d) Warning LED,
a b c d
available for Satelline 3AS
TPS12_211
Operation
TPS1200
65
Operation
TPS1200
66
Description of the LED Indicators
IF the
on
is
THEN
Warning
LED
GFU14 with
Satelline 3AS
red
the device is in the configuration
mode controlled from the PC via
cable.
Data
transfer
LED
any device
off
data is not being transferred.
data is being transferred.
green or
flashing green
IF the
on
is
THEN
Signal
strength
LED
GFU19 (US),
GFU25 (CAN)
with CDMA
MultiTech
red
device is on, not registered on
the network.
flashing red
device is on, registered on the
network.
MTMMC-C
off
download mode or device is off.
call is in progress.
GFU17 with
red
Siemens MC45
red: long flash,
short break
no SIM card inserted, no PIN
entered or network search, user
authentication or network login in
progress.
red: short flash,
long break
logged onto network, no call in
progress.
off
device is off.
Operation
TPS1200
67
Operation
TPS1200
68
IF the
on
is
THEN
GFU24 with
red
call is in progress.
Siemens MC75
red: long flash, long no SIM card inserted, no PIN
break
entered or network search, user
authentication or network login in
progress.
red: short flash,
long break
logged onto network, no call in
progress.
red: flashing red,
long break
GPRS PDP context activated.
red: long flash,
short break
Packet switched data transfer is
in progress.
off
device is off.
IF the
on
is
THEN
GFU15 with
Pacific Crest
PDL
red or
flashing red
the communication link, Data
Carrier Detection, is okay on the
roving receiver.
off
the DCD is not okay.
GFU14 with
Satelline 3AS flashing red
red or
the communication link, Data
Carrier Detection, is okay on the
roving receiver.
off
the DCD is not okay.
power is off.
Power
LED
any device
off
green
power is okay.
Operation
TPS1200
69
Operation
TPS1200
70
4.4
Instrument Setup for Remote Control
4.4.1
Remote Control Setup
Setup step-by-step
1
3
2
4
2
2
TPS12_196
Step
Description
tripod. Remove the instrument carry handle by simultaneously pressing
and holding-in the four push buttons.
)
1.
Place the RadioHandle onto the instrument by simultaneously pressing
and holding-in the four push buttons.
Step
Description
Ensure that the interface connection on the underside of the RadioHandle
is on the same side as the Communication side cover.
)
2.
Swing the RadioHandle antenna into an upright position.
Refer to "RX1200 User Manual" for additional information.
)
Operation
TPS1200
71
Description of the LED Indicators
IF the
is
THEN
Power LED
off
power is off.
green
off
power is on.
Link LED
no radio link to remote controller.
radio link to remote controller.
no data transfer to/from remote controller.
data transfer to/from remote controller.
red
Data Transfer LED off
green or
green flashing
Mode LED
off
data mode.
red
configuration mode.
Operation
TPS1200
73
Operation
4.5
TPS1200
74
Battery
4.5.1
Operating Principles
Primary use/charging
)
•
•
•
The battery must be charged prior to using it for the first time because it is deliv-
ered 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 only one charge/discharge cycle.
For Li-Ion batteries, a single discharging and charging cycle is sufficient. We
recommend carrying out the process when the battery capacity indicated on the
charger or on a Leica Geosystems product deviates significantly form the actual
battery capacity available.
•
•
The permissible temperature range for charging is between 0°C to +40°C/+32°F
to +104°F. For optimal charging we recommend charging the batteries at a low
ambient temperature of +10°C to +20°C/+50°F to +68°F if possible.
It is normal for the battery to become warm during charging. Using the chargers
recommended by Leica Geosystems, it is not possible to charge the battery if
the temperature is too high.
Operation/Discharging
•
•
The batteries can be operated from -20°C to +55°C/-4°F to +131°F.
Low operating temperatures reduce the capacity that can be drawn; very high
operating temperatures reduce the service life of the battery.
Operation
TPS1200
75
Operation
TPS1200
76
4.5.2
Instrument Battery
Change battery
step-by-step
3
5
7
1
2
4
6
TPS12_011
Step
Description
1.
Face the instrument so that the vertical drive screw is on the left. The
battery compartment is now on the left side of the instrument. Turn the
knob to the vertical position, opening the lid of the battery compartment.
2.
3.
4.
Pull out the battery housing.
Pull the battery from the battery housing.
A pictogram of the battery is displayed inside the battery housing. This is
a visual aid to assist in placing the battery correctly.
Step
Description
5.
Place the battery into the battery housing, ensuring that the contacts are
facing outward. Click the battery into position.
6.
7.
Place the battery housing into the battery compartment. Push the battery
housing in until it fits completely into the battery compartment.
Turn the knob to lock the battery compartment. Ensure that the knob is
returned to its original horizontal position.
Operation
TPS1200
77
Operation
TPS1200
78
4.5.3
SmartAntenna Battery
Change battery
step-by-step
1
2
3
4
TPS12_193
Step
Description
Turn SmartAntenna over to gain access to the battery compartment.
)
1.
Open the battery compartment by pushing the slide fastener in the direc-
tion of the arrow with the open-lock symbol.
2.
3.
Pull out the battery housing. The battery is attached to the housing.
Hold the battery housing and pull the battery from the battery housing.
Step
Description
4.
A polarity of the battery is displayed inside the battery housing. This is a
visual aid to assist in placing the battery correctly.
5.
6.
Place the battery onto the battery housing, ensuring that the contacts are
facing outward. Click the battery into position.
Close the battery compartment by pushing the slide fastener in the direc-
tion of the arrow with the close-lock symbol.
Operation
TPS1200
79
Operation
TPS1200
80
4.6
Working with the CompactFlash Card
•
•
•
•
Keep the card dry.
)
Use it only within the specified temperature range.
Do not bend the card.
Protect the card from direct impacts.
Failure to follow these instructions could result in data loss and/or permanent
damage to the card.
)
Insert and remove
a CompactFlash
card step-by-step
7
3
5
1
2
6
4
TPS12_016
Step
Description
1.
Face the instrument so that the vertical drive screw is on the left. The
CompactFlash card compartment is now on the right side of the instru-
ment. Turn the knob to the vertical position, opening the lid of the
CompactFlash card compartment.
2.
3.
4.
Open the lid of the CompactFlash card compartment.
Pull the front of the CompactFlash card up and take the card out of the lid.
Place the lower end of the CompactFlash card at the lower end of the
CompactFlash card compartment. The extended edge of the card has to
be on the upper side as shown on the pictogram in the CompactFlash card
compartment.
5.
6.
7.
Press the card down on the lid.
Close the lid.
Turn the knob to lock the CompactFlash card compartment. The lid is
closed correctly when the knob is turned to a horizontal position.
Format a
Formatting the CompactFlash card before starting to store data is required if a
CompactFlashcard completely new CompactFlash card is used or if all existing data needs to be
step-by-step
Operation
deleted.
TPS1200
81
Operation
TPS1200
82
Step
1.
Description
Main Menu: Tools...\Format Memory Device.
TOOLS Format Memory Device
2.
<Memory Device: CF Card>
<Format Method: Format Quick>
Select the memory device to be formatted.
By activating the format command all data will be lost. Make sure that all
important data on the CompactFlash card has been backed up before
formatting the card. Before formatting the internal memory make sure that
all important data is first transferred to the PC.
)
)
To exit the screen without formatting the memory device, press ESC. This
returns to the previous screen without execution of any command.
3.
4.
CONT (F1).
YES (F4) to complete the formatting of the CompactFlash card.
NO (F6) to abort the formatting of the CompactFlash card and return to
TOOLS Format Memory Device.
)
5.
Once the formatting of the CompactFlash card is completed the system
returns to TPS1200 Main Menu.
4.7
Accessing Survey Application Program
Access
Select Main Menu: Survey.
OR
Press PROG. Highlight Survey. CONT (F1).
SURVEY
Survey Begin
CONT (F1)
To accept changes and access the
subsequent screen. The chosen
settings become active.
CONF (F2)
To access SURVEY Configuration.
SETUP (F3)
Opens SETUP Station Setup to set
station and orientation.
CSYS (F6)
To select a different coordinate
system.
Operation
TPS1200
83
Operation
TPS1200
84
Description of fields
Field
Option
Description
<Job:>
Choicelist The active job. All jobs from Main Menu:
Manage...\Jobs can be selected.
<Coord System:> Output
The coordinate system currently attached to the
selected <Job:>.
<Codelist:>
Choicelist No codes are stored in the selected <Job:>. All
codelists from Main Menu:
Manage...\Codelists can be selected.
Output
Codes have already been stored in the selected
<Job:>. If codes had been copied from a
System RAM codelist, then the name of the
codelist is displayed. If codes have not been
copied from a System RAM codelist but typed in
manually, then the name of the active job is
displayed.
<Config Set:>
Choicelist The active configuration set. All configuration
sets from Main Menu: Manage...\Configura-
tion Sets can be selected.
Field
Option
Description
The instrument has numerous user configura-
tion parameters and functions. This allows a
variety of preferences to be addressed. The
configuration of the parameters and functions
for an individual measuring technique are
combined in a configuration set.
<Reflector:>
Choicelist Displays the active reflector. All reflectors from
Main Menu: Manage...\Reflectors. All listed
reflectors can be selected.
<Add. Constant:> Output
Displays the additive constant stored with the
chosen reflector.
Next step
CONT (F1) to access SURVEY Survey: Job Name, where measurements can be
performed with ALL (F1) or DIST (F2) and/or REC (F3).
Operation
TPS1200
85
Operation
TPS1200
86
4.8
Guidelines for Correct Results
General
TPS1200 instruments measure a distance using an invisible infrared laser beam
which emerges coaxial from the telescope objective. For application programs
without reflector a visible red laser beam is used which emerges in the same
manner. The visible red laser beam is available for reflectorless instruments.
Very short distances may be measured reflectorless with the infrared EDM to well
reflecting targets. Note that the distances are corrected with the additive constant
defined for the active reflector.
)
Distance
measurement
TPS12_002
When measurements are being made using the red laser EDM, the results may be
influenced by objects passing between the EDM and the intended target surface.
This occurs because reflectorless measurements are made to the first surface
returning sufficient energy to allow the measurement to take place. For example, if
the intended target surface is the surface of a road, but a vehicle passes between
the EDM and the target surface as DIST (F2) or ALL (F1) is pressed, the measure-
ment may be made to the side of the vehicle. The result is the distance to the vehicle,
not to the road surface.
If using the red laser EDM for long range measurements to a prism, and an object
passes within 30 m of the EDM as DIST (F2) or ALL (F1) is pressed, the distance
measurement may be similarly effected due to the strength of the laser signal.
Due to laser safety regulations and measuring accuracy, using the Long Range
Reflectorless EDM is only allowed to prisms that are more than 1000 m (3300 ft)
away.
ƽ
Accurate measurements to prisms should be made in Infrared EDM mode.
)
)
When a distance measurement is triggered, the EDM measures to the object which
is in the beam path at that moment. If a temporary obstruction, for example a passing
vehicle, heavy rain, fog or snow is between the instrument and the point to be meas-
ured, the EDM may measure to the obstruction.
Operation
TPS1200
87
Operation
)
TPS1200
88
Do not measure with two instruments to the same target simultaneously to avoid
getting mixed return signals.
ATR/lock
Instruments equipped with an ATR sensor permit automatic angle and distance
measurements to prisms. The prism is sighted with the optical sight. After initiating
a distance measurement, the instrument sights the prism centre automatically.
Vertical and horizontal angles and the distance are measured to the centre of the
prism. The lock mode enables the instrument to follow a moving prism.
As with all other instrument errors, the collimation error of the automatic target recog-
and adjusting instruments.
)
)
)
When a measurement is triggered while the prism is still moving, distance and angle
measurements may not be made for the same position and wrong coordinates may
be calculated.
If the prism location is changed too quickly, the target may be lost. Make sure that
the speed does not exceed the figure given in the technical data.
Operation
TPS1200
89
Check & Adjust
TPS1200
90
5
Check & Adjust
5.1
Overview
Description
Leica instruments are manufactured, assembled and adjusted to the best possible
quality. Quick temperature changes, shock or stress can cause deviations and
decrease the instrument accuracy.
It is therefore recommended to check and adjust the instrument from time to time.
This can be done in the field by running through specific measurement procedures.
The procedures are guided and have to be followed carefully and precisely as
described in the following chapters. Some other instrument errors and mechanical
parts can be adjusted mechanically.
Electronic
The following instrument errors can be checked and adjusted electronically:
adjustment
l, t
i
c
a
Compensator longitudinal and transversal index errors
Vertical index error, related to the standing axis
Hz collimation error, also called line of sight error
Tilting axis error
ATR
ATR zero point error for Hz and V - option
Every angle measured in the daily work is corrected automatically if the compensator
and the Hz-corrections are activated in the instrument configuration. Select Main
Menu: Config...\Instrument Settings...\Compensator to check the settings.
View current
The currently used adjustment errors can be viewed under Main Menu:
adjustment errors
Tools.../Check & Adjust...\Current Values.
Mechanical
adjustment
The following instrument parts can be adjusted mechanically:
•
•
•
•
•
Circular level on instrument and tribrach
Visible red laser beam of reflectorless EDM - option
Laser plummet
Optical plummet - option on tribrach
Allen screws on tripod
Precise
To get precise measurements in the daily work, it is important:
measurements
•
•
•
To check and adjust the instrument from time to time.
To take high precision measurements during the check and adjust procedures.
To measure targets in two faces. Some of the instrument errors are eliminated
by averaging the angles from both faces.
•
Check & Adjust
TPS1200
91
Check & Adjust
TPS1200
92
During the manufacturing process, the instrument errors are carefully determined
and set to zero. As mentioned above, these errors can change and it is highly recom-
mended to redetermine them in the following situations:
)
•
•
•
•
•
•
Before the first use
Before every high precision survey
After rough or long transportations
After long working periods
After long storage periods
If the temperature difference between current environment and the temperature
at the last calibration is more than 20°C
Summary of errors
to be adjusted
electronically
Instrument error
Effects Effects Elimination
Automatically
Hz
V
with two face corrected with
measurement proper adjust-
ment
c - Line of sight error
a - Tilting axis error
---
---
9
9
9
9
9
9
9
l - Compensator index
error
---
9 9
t - Compensator index
error
---
9
---
9
9
i - V-Index error
9 9
9
9
9
ATR Collimation error
---
9
Check & Adjust
TPS1200
93
Check & Adjust
TPS1200
94
5.2
Preparation
Before determining the instrument errors, the instrument has to be levelled-
up using the electronic level. SHIFT F12 to access STATUS Level & Laser
Plummet, Level page.
)
The tribrach, the tripod and the underground should be very stable and
secure from vibrations or other disturbances.
The instrument should be protected from direct sunlight in order to avoid
thermal warming.
)
It is also recommended to avoid strong heat shimmer and air turbulence.
The best conditions are usually early in the morning or with overcast sky.
Before starting to work, the instrument has to become acclimatised to the ambient
temperature. Approximately two minutes per °C of temperature difference from
storage to working environment but at least 15 min should be taken into account.
)
)
Note, that even after good adjustment of the ATR, the crosshairs might not be posi-
tioned exactly on the centre of the prism after an ATR measurement has been
executed. This is a normal effect. To speed up the ATR measurement, the telescope
is normally not positioned exactly on the centre of the prism. The small rest devia-
tions, the ATR offsets are measured individually for each measurement and
corrected electronically. This means that the Hz- and V- angles are corrected twice:
first by the determined ATR errors for Hz and V and then by the individual small devi-
ations of the current pointing.
Next step
IF the task is to
THEN
adjust a combination of
instrument errors
adjust the tilting axis
adjust the circular level
adjust the EDM
adjust the laser/optical
plummet
adjust the tripod
Check & Adjust
TPS1200
95
Check & Adjust
TPS1200
96
5.3
Combined Adjustment (l, t, i, c and ATR)
Description
The combined adjustment procedure determines the following instrument errors in
one process:
l, t
i
c
ATR Hz
ATR V
Compensator longitudinal and transversal index errors
Vertical index error, related to the standing axis
Hz collimation error, also called line of sight error
ATR zero point error for Hz angle - option
ATR zero point error for V angle - option
Combined
adjustment
procedure
step-by-step
The following table explains the most common settings.
Step
1.
Description
Main Menu: Tools...\Check & Adjust...
TOOLS Check & Adjust Menu
Select the option: Combined (l,t,i,c,ATR)
TOOLS Combined I
2.
3.
Step
Description
<ATR Adjust: On> Includes the determination of the ATR Hz and V
adjustment errors if an ATR is available.
It is recommended to use a clean Leica circular prism as target.
Do not use a 360° prism.
)
4.
Aim the telescope accurately at a
target at about 100 m distant. The
target must be positioned within
± 9°/± 10 gon of the horizontal plane.
The procedure can be started in any
telescope face.
9°
TPS12_024
Check & Adjust
TPS1200
97
Check & Adjust
TPS1200
98
Step
Description
MEAS (F1) to measure and to continue to the next screen.
Motorised instruments change auto-
5.
matically to the other face.
180°
Non-motorised instruments guide to
the other face.
The fine pointing has to be
performed manually in both faces.
)
180°
TPS12_025
6.
TOOLS Combined II
MEAS (F1) to measure the same target in the other face and to calculate
the instrument errors.
If one or more errors are bigger than the predefined limits, the procedure
has to be repeated. All measurements of the current run are rejected and
none of them is averaged with the results from previous runs.
)
7.
TOOLS Adjustment Accuracy
Step
Description
<No.of Meas:> Shows the number of runs executed. One run consists of
a measurement in face I and face II.
<σ l Comp:> and similar lines show the standard deviations of the deter-
mined adjustment errors. The standard deviations can be calculated from
the second run onwards.
It is recommended to measure at least two runs.
)
8.
MEAS (F5) if more runs have to be added. Continue with step 3.
OR
CONT (F1) to accept the measurements and to proceed to TOOLS
Adjustment Results. No more runs can be added later.
Check & Adjust
TPS1200
99
Check & Adjust
Next step
TPS1200
IF the results are THEN
100
to be stored
CONT (F1) overwrites the old adjustment errors with the new
ones, if the Use status is set to Yes.
to be determined
again
REDO (F2) rejects all new determined adjustment errors and
repeats the whole procedure. Refer to step 3. of paragraph
"Combined adjustment procedure step-by-step".
5.4
Tilting Axis Adjustment (a)
Description
This adjustment procedure determines the following instrument error:
Tilting axis error
a
Determination of
tilting axis error
step-by-step
The following table explains the most common settings.
Step
Description
The Hz collimation error (c) has to be determined before starting this
procedure.
)
1.
2.
Main Menu: Tools...\Check & Adjust...
TOOLS Check & Adjust Menu
Select the option: Tilting Axis (a)
Check & Adjust
TPS1200
101
Check & Adjust
TPS1200
102
Step
Description
TOOLS Tilting-Axis Adjustment I
Aim the telescope accurately at a target
3.
at about 100 m distance or less if not
possible. The target must be positioned
at least 27°/30 gon above or beneath the
horizontal plane.
The procedure can be started in any
telescope face.
+ 27°
- 27°
TPS12_024a
Step
Description
4.
MEAS (F1) to measure and to continue to the next screen.
Motorised instruments change auto-
matically to the other face.
180°
Non-motorised instruments guide to
the other face.
The fine pointing has to be
performed manually in both faces.
)
180°
TPS12_025
5.
TOOLS Tilting-Axis Adjustment II
MEAS (F1) to measure the same target in the other face and to calculate
the tilting axis error.
If the error is bigger than the predefined limit, the procedure has to be
repeated. The tilting axis measurements of the current run are then
rejected and not averaged with the results from previous runs.
)
Check & Adjust
TPS1200
103
Check & Adjust
TPS1200
104
Step
Description
TOOLS T-Axis Adjustment Accuracy
6.
<No.of Meas:> Shows the number of runs executed. One run consists of
a measurement in face I and face II.
<σ a T-axis:> shows the standard deviation of the determined tilting axis
error. The standard deviation can be calculated from the second run
onwards.
It is recommended to measure at least two runs.
)
7.
MEAS (F5) if more runs have to be added. Continue with step 3.
OR
CONT (F1) to accept the measurements and to proceed to TOOLS T-Axis
Adjustment Result. No more runs can be added later.
Next step
IF the results are THEN
to be stored
CONT (F1) overwrites the old tilting axis error with the new
one.
to be determined
again
REDO (F2) rejects the new determined tilting axis error and
repeats the whole procedure. Refer to step 3. of paragraph
"Determination of tilting axis error step-by-step".
Check & Adjust
TPS1200
105
Check & Adjust
TPS1200
106
5.5
Adjustment of the Circular Level
On the instrument
step-by-step
TPS12_030
Step
Description
1.
Level up the instrument in advance with the electronic level, assuming that
the electronic level is correctly adjusted. SHIFT F12 to access STATUS
Level & Laser Plummet.
2.
The bubble must be centered. If it extends beyond the circle, use the allen
keys supplied to centre it with the adjustment screws. Turn the instrument
slowly 200 gon (180°). Repeat the adjustment procedure if the bubble
does not stay centered.
Step
Description
After the adjustment, no screw shall be loose.
)
On the tribrach
step-by-step
TPS12_31
The following table explains the most common settings.
Step
Description
1.
Level up the instrument with the electronic level, assuming that the elec-
tronic level is correctly adjusted. SHIFT F12 to access STATUS Level &
Laser Plummet. Then remove it from the tribrach.
Check & Adjust
TPS1200
107
Check & Adjust
TPS1200
108
Step
Description
2.
The bubble of the tribrach must be centered. If it extends beyond the
circle, use the adjusting pin in conjunction with the two cross headed
adjustment screws to centre it.
After the adjustment, no screw shall be loose.
)
5.6
Adjustment of the Reflectorless EDM
General
The red laser beam used for measuring without reflector is arranged coaxially with
the line of sight of the telescope, and emerges from the objective port. If the instru-
ment is well adjusted, the red measuring beam coincides with the visual line of sight.
External influences such as shock, stress or large temperature fluctuations can
displace the red measuring beam relative to the line of sight.
The direction of the beam should be inspected before precise measurements of
distances are attempted, because an excessive deviation of the laser beam from the
line of sight can result in imprecise distance measurements.
)
Warning
Direct intrabeam viewing is always hazardous.
Precautions:
ƽ
Do not stare into the beam or direct it towards other people unnecessarily. These
measures are also valid for the reflected beam.
Check & Adjust
TPS1200
109
Check & Adjust
TPS1200
110
Inspecting the
direction of the
beam step-by-step
TPS12_36
The following table explains the most common settings.
Step
Description
1.
Set up the provided target plate between 5 m and 20 m with the grey
reflective side facing the instrument.
2.
3.
Move the telescope to face II.
Switch on the red laser beam by activating the laser pointer function.
SHIFT F11 to access CONFIGURE Lights, Display, Beeps, Text and
then select the Lights page.
Step
Description
4.
Align the instrument crosshairs to the centre of the target plate, and then
inspect the position of the red laser dot on the target plate.
Generally speaking the red dot cannot be seen through the tele-
scope, so look at the target plate from just above the telescope
or from just to the side of it.
)
5.
If the dot illuminates the cross on the plate, the achievable adjustment
precision has been reached; if it lies outside the limits of the cross, the
direction of the beam needs to be adjusted. Refer to paragraph "Adjusting
If the dot on the more reflective side of the plate is too bright and
dazzling, use the white side instead to carry out the inspection.
)
Check & Adjust
TPS1200
111
Check & Adjust
TPS1200
112
Adjusting the
direction of the
beam step-by-step
a
b
a) Rear
adjustment port
b) Front
adjustment port
TPS12_037
The following table explains the most common settings.
Step
Description
1.
Pull the two plugs softly out from the adjustment ports on top side of the
telescope housing in face II.
Make sure not to break the strings of the two plugs.
)
2.
3.
To correct the height of the beam, insert the screwdriver supplied into the
rear adjustment port and turn it clockwise to move the dot on the target
plate obliquely upwards or anticlockwise to move it downwards.
To correct the beam laterally, insert the screwdriver into the front adjust-
ment port and turn it clockwise to move the dot on the target plate to the
right or anticlockwise to move it to the left.
Step
Description
Throughout the adjustment procedure, keep the telescope pointing to the
target plate.
)
4.
After each adjustment, put back the plugs in the ports to keep out damp
and dirt.
Check & Adjust
TPS1200
113
Check & Adjust
TPS1200
114
5.7
Adjustment of the Laser Plummet
The laser plummet is located in the vertical axis of the instrument. Under normal
conditions of use, the laser plummet does not need adjusting. If an adjustment is
necessary due to external influences, the instrument has to be returned to any Leica
Geosystems authorized service workshop.
)
Check & Adjust
TPS1200
116
Step
1.
Description
Setup the instrument on a tripod (1).
2.
Level up the instrument with the electronic level. SHIFT F12 to access
STATUS Level & Laser Plummet.
3.
PAGE (F6) to access the Laser Plummet page. Switch on the laser
plummet.
Inspection of the laser plummet should be carried out on a bright, smooth
and horizontal surface, such like a sheet of paper.
)
4.
5.
Mark the centre of the red dot on the ground (2).
Slowly turn the instrument through 360°, carefully observing the move-
ment of the red laser dot (3).
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.
)
6.
IF the centre of the laser dot describes a perceptible circular movement or
moves more than 3 mm away from the point which was first marked, an
adjustment may be required. Inform your nearest Leica Geosystems
authorized service workshop.
Depending on brightness and surface, the diameter of the laser dot can vary. At a
distance of 1.5 m it is about 2.5 mm.
Check & Adjust
TPS1200
117
Check & Adjust
TPS1200
118
5.8
Service of the Tripod
Service tripod
step-by-step
2
1
3
TPS12_029
The following table explains the most common settings.
Step
Description
The connections between timber and metal must be firm and tight.
)
1.
Moderately tighten the allen screws (1) with the allen key supplied with the
tripod.
2.
3.
Tighten articulated joints just enough to keep the tripod legs open when
lifting the tripod of the ground (2).
Tighten the allen screws of the tripod legs (3).
Check & Adjust
TPS1200
119
Care and Transport
TPS1200
120
6
Care and Transport
6.1
Transport
Transport in the
field
When transporting the equipment in the field, always make sure that you
•
•
either carry the product in its original transport container,
or carry the tripod with its legs splayed across your shoulder, keeping the
attached product upright.
Transport in a road Never carry the product loose in a road vehicle, as it can be affected by shock and
vehicle
vibration. Always carry the product in its transport container and secure it.
Shipping
When transporting the product by rail, air or sea, always use the complete original
Leica Geosystems packaging, transport container and cardboard box, or its equiva-
lent, to protect against shock and vibration.
Shipping,transport When transporting or shipping batteries, the person in charge of the product must
of batteries
ensure that the applicable national and international rules and regulations are
observed. Before transportation or shipping, contact your local passenger or freight
transport company.
Field adjustment
After transport inspect the field adjustment parameters given in this user manual
before using the product.
Care and Transport
TPS1200
121
Care and Transport
TPS1200
122
6.2
Storage
Product
Respect the temperature limits when storing the equipment, particularly in summer
temperature limits.
Field adjustment
Li-Ion batteries
After long periods of storage inspect the field adjustment parameters given in this
user manual before using the product.
•
•
•
storage temperature range.
A storage temperature range of -20°C to +30°C/-4°F to 68°F in a dry environ-
ment is recommended to minimize self-discharging of the battery.
At the recommended storage temperature range, batteries containing a 10% to
50% charge can be stored for up to one year. After this storage period the
batteries must be recharged.
•
•
•
Remove batteries from the product and the charger before storing.
After storage recharge batteries before using.
Protect batteries from damp and wetness. Wet or damp batteries must be dried
before storing or use.
6.3
Cleaning and Drying
Objective,eyepiece
and prisms
•
•
•
Blow dust off lenses and prisms.
Never touch the glass with your fingers.
Use only a clean, soft, lint-free cloth for cleaning. If necessary, moisten the cloth
with water or pure alcohol. Do not use other liquids; these may attack the
polymer components.
Fogging of prisms
Damp products
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.
Dry the product, the transport container, the foam inserts and the accessories at a
temperature not greater than 40°C / 108°F and clean them. Do not repack until
everything is completely dry.
Cables and plugs
Keep plugs clean and dry. Blow away any dirt lodged in the plugs of the connecting
cables.
Care and Transport
TPS1200
123
Care and Transport
TPS1200
124
6.4
Maintenance
Motorisation
An inspection of the motorisation in motorised products must be done in a Leica
Geosystems authorized service workshop.
Following conditions:
•
•
After about 4000 hours operation.
Twice a year in case of permanent use of the product, for example in monitoring
applications.
Care and Transport
TPS1200
125
Safety Directions
TPS1200
126
7
Safety Directions
7.1
General Introduction
Description
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.
7.2
Intended Use
Permitted use
•
•
•
•
•
•
•
•
•
Measuring horizontal and vertical angles.
Measuring distances.
Recording measurements.
Automatic target search, recognition and -tracking.
Visualizing the aiming direction and vertical axis.
Remote control of surveying products.
Data transmission to external appliances.
Transmitting and receiving data.
Measuring raw data and computing coordinates using carrier phase and code
signal from GNSS (Global Navigation Satellite System) satellites.
•
•
•
•
Carrying out measurement tasks using various GNSS measuring techniques.
Recording GNSS and point related data.
Computation and evaluation by means of software.
Data transfer via radio or digital cellular phone for real-time kinematic surveys.
Adverse use
•
•
•
Use of the product without instruction.
Use outside of the intended limits.
Disabling safety systems.
Safety Directions
TPS1200
127
Safety Directions
TPS1200
Removal of hazard notices.
128
•
•
Opening the product using tools, for example screwdriver, unless this is specifi-
cally permitted for certain functions.
•
•
•
•
Modification or conversion of the product.
Use after misappropriation.
Use of products with obviously recognizable damages or defects.
Use with accessories from other manufacturers without the prior explicit
approval of Leica Geosystems.
•
•
Aiming directly into the sun.
Inadequate safeguards at the surveying site, for example when measuring on
roads.
•
•
Deliberate dazzling of third parties.
Controlling of machines, moving objects or similar monitoring application without
additional control- and safety installations.
Warning
Adverse use can lead to injury, malfunction and damage.
ƽ
It is the task of the person responsible for the equipment to inform the user about
hazards and how to counteract them. The product is not to be operated until the user
has been instructed on how to work with it.
7.3
Limits of Use
Environment
Suitable for use in an atmosphere appropriate for permanent human habitation: not
suitable for use in aggressive or explosive environments.
Danger
Local safety authorities and safety experts must be contacted before working in
hazardous areas, or in close proximity to electrical installations or similar situations
by the person in charge of the product.
ƽ
Safety Directions
TPS1200
129
Safety Directions
TPS1200
130
7.4
Responsibilities
Manufacturerofthe Leica Geosystems AG, CH-9435 Heerbrugg, hereinafter referred to as Leica
product
Geosystems, is responsible for supplying the product, including the user manual and
original accessories, in a completely safe condition.
Manufacturers of
non
Leica Geosystems
accessories
The manufacturers of non Leica Geosystems accessories for the product are
responsible for developing, implementing and communicating safety concepts for
their products, and are also responsible for the effectiveness of those safety
concepts in combination with the Leica Geosystems product.
Person in charge of The person in charge of the product has the following duties:
the product
•
To understand the safety instructions on the product and the instructions in the
user manual.
•
•
To be familiar with local regulations relating to safety and accident prevention.
To inform Leica Geosystems immediately if the product and the application
becomes unsafe.
Warning
The person responsible for the product must ensure that it is used in accordance
with the instructions. This person is also accountable for the training and the deploy-
ment of personnel who use the product and for the safety of the equipment in use.
ƽ
7.5
International Warranty, Software Licence Agreement
International
Warranty
The International Warranty can be downloaded from the Leica Geosystems home
page at http://www.leica-geosystems.com/internationalwarranty or received from
your Leica Geosystems dealer.
Software Licence
Agreement
This product contains software that is preinstalled on the product, or that is supplied
to you on a data carrier medium, or that can be downloaded by you online pursuant
to prior authorization from Leica Geosystems. Such software is protected by copy-
right and other laws and its use is defined and regulated by the Leica Geosystems
Software Licence Agreement, which covers aspects such as, but not limited to,
Scope of the Licence, Warranty, Intellectual Property Rights, Limitation of Liability,
Exclusion of other Assurances, Governing Law and Place of Jurisdiction. Please
make sure, that at any time you fully comply with the terms and conditions of the
Leica Geosystems Software Licence Agreement.
Such agreement is provided together with all products and can also be found at the
Leica Geosystems home page at http://www.leica-geosystems.com/swlicense
or your Leica Geosystems dealer.
You must not install or use the software unless you have read and accepted the
terms and conditions of the Leica Geosystems Software Licence Agreement. Instal-
Safety Directions
TPS1200
131
Safety Directions
TPS1200
132
lation or use of the software or any part thereof, is deemed to be an acceptance of
all the terms and conditions of such licence agreement. If you do not agree to all or
some of the terms of such licence agreement, you may not download, install or use
the software and you must return the unused software together with its accompa-
nying documentation and the purchase receipt to the dealer from whom you
purchased the product within ten (10) days of purchase to obtain a full refund of the
purchase price.
7.6
Hazards of Use
Warning
The absence of instruction, or the inadequate imparting of instruction, can lead to
ƽ
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 direc-
tions of the person responsible for the product.
Caution
Watch out for erroneous measurement results if the product has been dropped or
has been misused, modified, stored for long periods or transported.
Precautions:
ƽ
Periodically carry out test measurements and perform the field adjustments indi-
cated in the user manual, particularly after the product has been subjected to
abnormal use and before and after important measurements.
Safety Directions
TPS1200
133
Safety Directions
TPS1200
134
Danger
Because of the risk of electrocution, it is very dangerous to use poles and extensions
in the vicinity of electrical installations such as power cables or electrical railways.
Precautions:
ƽ
Keep at a safe distance from electrical installations. If it is essential to work in this
environment, first contact the safety authorities responsible for the electrical instal-
lations and follow their instructions.
Warning
By surveying during a thunderstorm you are at risk from lightning.
Precautions:
ƽ
Do not carry out field surveys during thunderstorms.
Caution
Be careful when pointing the product towards the sun, because the telescope func-
tions as a magnifying glass and can injure your eyes and/or cause damage inside
the product.
ƽ
Precautions:
Do not point the product directly at the sun.
Warning
Warning
During dynamic applications, for example stakeout procedures there is a danger of
accidents occurring if the user does not pay attention to the environmental conditions
around, for example obstacles, excavations or traffic.
Precautions:
ƽ
ƽ
The person responsible for the product must make all users fully aware of the
existing dangers.
Inadequate securing of the surveying site can lead to dangerous situations, for
example in traffic, on building sites, and at industrial installations.
Precautions:
Always ensure that the survey site is adequately secured. Adhere to the regulations
governing safety and accident prevention and road traffic.
Warning
Warning
Only Leica Geosystems authorized service workshops are entitled to repair these
products.
ƽ
ƽ
If computers intended for use indoors are used in the field there is a danger of elec-
tric shock.
Precautions:
Adhere to the instructions given by the computer manufacturer with regard to field
use in conjunction with Leica Geosystems products.
Safety Directions
TPS1200
135
Safety Directions
TPS1200
136
Caution
If the accessories used with the product are not properly secured and the product is
subjected to mechanical shock, for example blows or falling, the product may be
damaged or people may sustain injury.
ƽ
Precautions:
When setting-up the product, make sure that the accessories, for example tripod,
tribrach, connecting cables, are correctly adapted, fitted, secured, and locked in
position.
Avoid subjecting the product to mechanical stress.
Caution
During the transport, shipping or disposal of batteries it is possible for inappropriate
mechanical influences to constitute a fire hazard.
ƽ
Precautions:
Before shipping the product or disposing of it, discharge the batteries by running the
product until they are flat.
When transporting or shipping batteries, the person in charge of the product must
ensure that the applicable national and international rules and regulations are
observed. Before transportation or shipping contact your local passenger or freight
transport company.
Warning
Warning
Using a battery charger not recommended by Leica Geosystems can destroy the
batteries. This can cause fire or explosions.
ƽ
ƽ
Precautions:
Only use chargers recommended by Leica Geosystems to charge the batteries.
High mechanical stress, high ambient temperatures or immersion into fluids can
cause leakage, fire or explosions of the batteries.
Precautions:
Protect the batteries from mechanical influences and high ambient temperatures. Do
not drop or immerse batteries into fluids.
Warning
Warning
Short circuited battery terminals can overheat and cause injury or fire, for example
by storing or transporting in pockets if battery terminals come in contact with jewel-
lery, keys, metallized paper or other metals.
ƽ
ƽ
Precautions:
Make sure that the battery terminals do not come into contact with metallic objects.
If the product is improperly disposed of, the following can happen:
•
If polymer parts are burnt, poisonous gases are produced which may impair
health.
•
If batteries are damaged or are heated strongly, they can explode and cause
poisoning, burning, corrosion or environmental contamination.
Safety Directions
TPS1200
137
Safety Directions
TPS1200
138
•
By disposing of the product irresponsibly you may enable unauthorized persons
to use it in contravention of the regulations, exposing themselves and third
parties to the risk of severe injury and rendering the environment liable to
contamination.
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.leica-geosystems.com/treat-
ment or received from your Leica Geosystems dealer.
Caution
The product uses the GPS P-Code signal which by U.S. policy may be switched off
without notice.
ƽ
7.7
Laser Classification
7.7.1
Integrated Distancer, Invisible Laser
General
The EDM module built into the product produces an invisible laser beam which
emerges from the telescope objective.
The product is a Class 1 Laser Product in accordance with:
•
•
IEC 60825-1 (2001-08): "Safety of Laser Products".
EN 60825-1:1994 + A11:1996 + A2:2001: "Safety of Laser Products".
Class 1 Laser Products are safe under reasonably foreseeable conditions of opera-
tion and are not harmful to the eyes provided that the products are used and main-
tained in accordance with the instructions.
Safety Directions
TPS1200
139
Safety Directions
TPS1200
140
Description
Value
Maximum average radiant power
Maximum peak radiant power
Pulse duration
0.33 mW ± 5%
4.12 mW ± 5%
800 ps
Pulse repetition frequency
Beam divergence
100 MHz
1.5 mrad x 3 mrad
TCA1201M: 0.6 mrad x 1.3 mrad
Labelling
Type: TC....
Art.No.: ......
Power: 12V/6V ---, 1A max
Leica Geosystems AG
CH-9435 Heerbrugg
Manufactured: 2003
Made in Switzerland
Complies with 21 CFR 1040.10 and 1040.11
except for deviations pursuant to Laser Notice
No.50, dated July 26,2001.
Class 1 Laser Product
according to IEC 60825-1
( 2001 - 08 )
S.No.: ......
This device complies with part 15 of the FCC
Rules. Operation is subject to the following two
conditions: (1) This device may not cause harm-
ful interference, and (2) this device must accept
any interference received, including inter-
ference that may cause undesired operation.
a
TPS12_044
a) Laser beam
Safety Directions
TPS1200
141
Safety Directions
TPS1200
142
7.7.2
Integrated Distancer, Visible Laser
General
As an alternative to the invisible laser, the EDM incorporated into the product
produces a visible red laser beam which emerges from the telescope objective.
Warning
The two types R100 and R300 of distancers with visible laser are available, identifi-
able by the type plate.
ƽ
The products are Class 3R Laser Products in accordance with:
•
•
IEC 60825-1 (2001-08): "Safety of Laser Products".
EN 60825-1:1994 + A11:1996 + A2:2001: "Safety of Laser Products".
Class 3R Laser Products:
For safety aspects direct intrabeam viewing should always be considered as
hazardous. Avoid direct eye exposure. The accessible emission limit is within five
times the accessible emission limits of Class 2 in the wavelength range from 400 nm
to 700 nm.
Description
R100
R300
Maximum average radiant power 4.75 mW ± 5%
4.75 mW ± 5%
59 mW ± 5%
800 ps
Maximum peak radiant power
Pulse duration
59 mW ± 5%
800 ps
Pulse repetition frequency
Beam divergence
100 MHz
100 MHz - 150 MHz
0.15 mrad x 0.35 mrad 0.15 mrad x 0.5 mrad
Warning
Warning
For safety aspects direct intrabeam viewing should always be considered as
hazardous.
ƽ
ƽ
Precautions:
Do not stare into the beam or direct it towards other people unnecessarily. These
measures are also valid for the reflected beam.
Looking directly into the reflected laser beam could be dangerous to the eyes when
the laser beam is aimed at areas that reflect like a mirror or emit reflections unex-
pectedly, for example prisms, mirrors, metallic surfaces or windows.
Precautions:
Do not aim at areas that are essentially reflective, such as a mirror, or which could
emit unwanted reflections.
Safety Directions
TPS1200
143
Safety Directions
TPS1200
144
Do not look through or beside the optical sight at prisms or reflecting objects when
the laser is switched on, in laserpointer or distance measurement mode. Aiming at
prisms is only permitted when looking through the telescope.
Warning
The use of Laser Class 3R equipment can be dangerous.
Precautions:
ƽ
To counteract hazards, it is essential for every user to respect the safety precautions
and control measures specified in the standard IEC 60825-1 (2001-08) resp.
EN 60825-1:1994 + A11:1996 + A2:2001, within the hazard distance *); pay partic-
ular attention to Section Three "User's Guide".
Following an interpretation of the main points in the relevant section of the standard
quoted.
Class 3R Laser Products used on construction sites and outdoors, for example
surveying, alignment, levelling:
a) Only qualified and trained persons should be assigned to install, adjust and
operate the laser equipment.
b) Areas in which these lasers are used should be posted with an appropriate laser
warning sign.
c) Precautions should be taken to ensure that persons do not look directly, with or
without an optical instrument, into the beam.
d) The laser beam should be terminated at the end of its useful beam path and
should in all cases be terminated if the hazardous beam path extends beyond
the limit (hazard distance *)) of the area in which the presence and activities of
personnel are monitored for reasons of protection from laser radiation.
e) The laser beam path should be located well above or below eye level wherever
practicable.
f) When not in use the Laser Product should be stored in a location where unau-
thorized personnel cannot gain access.
g) Precautions should be taken to ensure that the laser beam is not unintentionally
directed at mirror-like, specular surfaces for example mirrors, metal surfaces or
windows. But, more importantly, at flat or concave mirror-like surfaces.
*) The hazard distance is the distance from the laser at which beam irradiance or
radiant exposure equals the maximum permissible value to which personnel
may be exposed without being exposed to a health risk.
Products with an integrated distancer of laser class 3R this hazard distance is
68 m / 224 ft. At this distance, the laser beam rates as Class 1M, that means direct
intrabeam viewing is not hazardous.
Safety Directions
TPS1200
145
Safety Directions
Labelling
TPS1200
146
Laser Aperture
a
Laser Radiation
Avoid direct eye exposure
Class 3R Laser Product
according to IEC 60825-1
( 2001 - 08 )
Po ≤ 4.75 mW
λ = 650 - 690 nm
TPS12_045
a) Laser beam
Type: TC....
Art.No.: ......
Power: 12V/6V ---, 1A max
Leica Geosystems AG
CH-9435 Heerbrugg
Manufactured: 2003
Made in Switzerland
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. Operation is subject to the following two
conditions: (1) This device may not cause harm-
ful interference, and (2) this device must accept
any interference received, including inter-
ference that may cause undesired operation.
TPS12_065
Safety Directions
TPS1200
147
Safety Directions
TPS1200
148
7.7.3
Automatic Target Recognition ATR
General
The integrated automatic target recognition produces an invisible laser beam which
emerges from the telescope objective.
The product is a Class 1 Laser Product in accordance with:
•
•
IEC 60825-1 (2001-08): "Safety of Laser Products".
EN 60825-1:1994 + A11:1996 + A2:2001: "Safety of Laser Products".
Class 1 Laser Products are safe under reasonably foreseeable conditions of opera-
tion and are not harmful to the eyes provided that the products are used and main-
tained in accordance with the instructions.
Description
Value
Maximum average radiant power
Maximum peak radiant power
Pulse duration
8 mW ± 5%
8 mW ± 5%
21.8 ms
46 Hz
Pulse repetition frequency
Beam divergence
1.4°
Labelling
Type: TC....
Art.No.: ......
Power: 12V/6V ---, 1A max
Leica Geosystems AG
CH-9435 Heerbrugg
Manufactured: 2003
Made in Switzerland
Complies with 21 CFR 1040.10 and 1040.11
except for deviations pursuant to Laser Notice
No.50, dated July 26,2001.
Class 1 Laser Product
according to IEC 60825-1
( 2001 - 08 )
S.No.: ......
This device complies with part 15 of the FCC
Rules. Operation is subject to the following two
conditions: (1) This device may not cause harm-
ful interference, and (2) this device must accept
any interference received, including inter-
ference that may cause undesired operation.
a
TPS12_044
a) Laser beam
Safety Directions
TPS1200
149
Safety Directions
TPS1200
150
7.7.4
PowerSearch PS
General
The integrated PowerSearch generates an invisible laser from the lower front side of
the telescope.
The product is a Class 1 Laser Product in accordance with:
•
•
IEC 60825-1 (2001-08): "Safety of Laser Products".
EN 60825-1:1994 + A11:1996 + A2:2001: "Safety of Laser Products".
Class 1 Laser Products are safe under reasonably foreseeable conditions of opera-
tion and are not harmful to the eyes provided that the products are used and main-
tained in accordance with the instructions.
Description
Value
Maximum average radiant power
Maximum peak radiant power
Pulse duration
11 mW ± 5%
5.3 W, 0.66 W ± 5%
40 ns, 80 ns
24.4 kHz
Pulse repetition frequency
Beam divergence
0.4 mrad x 700 mrad
Labelling
Type: TC....
Art.No.: ......
Power: 12V/6V ---, 1A max
Leica Geosystems AG
CH-9435 Heerbrugg
Manufactured: 2003
Made in Switzerland
Complies with 21 CFR 1040.10 and 1040.11
except for deviations pursuant to Laser Notice
No.50, dated July 26,2001.
Class 1 Laser Product
according to IEC 60825-1
( 2001 - 08 )
S.No.: ......
This device complies with part 15 of the FCC
Rules. Operation is subject to the following two
conditions: (1) This device may not cause harm-
ful interference, and (2) this device must accept
any interference received, including inter-
ference that may cause undesired operation.
a
TPS12_046
a) Laser beam
Safety Directions
TPS1200
151
Safety Directions
TPS1200
152
7.7.5
Electronic Guide Light EGL
General
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 is a Class 1 LED product in accordance with:
•
•
IEC 60825-1 (2001-08): "Safety of Laser Products".
EN 60825-1:1994 + A11:1996 + A2:2001: "Safety of Laser Products".
Class 1 LED products are safe under reasonably foreseeable conditions of operation
and are not harmful to the eyes provided that the products are used and maintained
in accordance with the instructions.
Flashing LED
Yellow
Red
Maximum average radiant power
Maximum peak radiant power
Pulse duration
0.28 mW ± 5%
0.75 mW ± 5%
2 x 105 ms
1.786 Hz
0.47 mW ± 5%
2.5 mW ± 5%
1 x 105 ms
1.786 Hz
2.4 °
Pulse repetition frequency
Beam divergence
2.4 °
Labelling
Type: TC....
Art.No.: ......
Power: 12V/6V ---, 1A max
Leica Geosystems AG
CH-9435 Heerbrugg
Manufactured: 2003
Made in Switzerland
Complies with 21 CFR 1040.10 and 1040.11
except for deviations pursuant to Laser Notice
No.50, dated July 26,2001.
Class 1 LED Product
according to IEC 60825-1
( 2001 - 08 )
S.No.: ......
This device complies with part 15 of the FCC
Rules. Operation is subject to the following two
conditions: (1) This device may not cause harm-
ful interference, and (2) this device must accept
any interference received, including inter-
ference that may cause undesired operation.
a
b
TPS12_064
a) LED beam red
b) LED beam yellow
Safety Directions
TPS1200
153
Safety Directions
TPS1200
154
7.7.6
Laser Plummet
General
The laser plummet built into the product produces a visible red laser beam which
emerges from the bottom of the product.
The product is a Class 2 Laser Product in accordance with:
•
•
IEC 60825-1 (2001-08): "Safety of Laser Products".
EN 60825-1:1994 + A11:1996 + A2:2001: "Safety of Laser Products".
Class 2 Laser Products:
Do not stare into the beam or direct it unnecessarily at other persons. Eye protection
is normally afforded by aversion responses including the blink reflex.
Description
Value
Maximum average radiant power
Pulse duration
0.95 mW ± 5%
c.w.
Beam divergence
0.16 mrad x 0.6 mrad
Warning
It can be dangerous to look into the beam with optical equipment, for example binoc-
ulars or telescopes.
ƽ
Precautions:
Do not look directly into the beam with optical equipment.
Safety Directions
TPS1200
155
Safety Directions
Labelling
TPS1200
156
Type: TC....
Art.No.: ......
Power: 12V/6V ---, 1A max
Leica Geosystems AG
CH-9435 Heerbrugg
Manufactured: 2003
Made in Switzerland
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. Operation is subject to the following two
conditions: (1) This device may not cause harm-
ful interference, and (2) this device must accept
any interference received, including inter-
ference that may cause undesired operation.
Laser Radiation
Do not stare into the beam
Class 2 Laser Product
according to IEC 60825-1
( 2001 - 08 )
a
Po ≤ 0.95 mW
λ = 620 - 690 nm
TPS12_047
a) Will be replaced by a Class 3R warning label if applicable
b
a
TPS12_048
a) Laser beam
b) Exit for laser beam
Safety Directions
TPS1200
157
Safety Directions
TPS1200
158
7.8
Electromagnetic Compatibility EMC
Description
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 distur-
bances to other equipment.
Warning
Electromagnetic radiation can cause disturbances in other equipment.
ƽ
Although the product meets the strict regulations and standards which are in force
in this respect, Leica Geosystems cannot completely exclude the possibility that
other equipment may be disturbed.
Caution
There is a risk that disturbances may be caused in other equipment if the product is
used in conjunction with accessories from other manufacturers, for example field
computers, personal computers, two-way radios, non-standard cables or external
batteries.
ƽ
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 compatibility provided by the manufacturer.
Caution
Disturbances caused by electromagnetic radiation can result in erroneous measure-
ments.
ƽ
ƽ
Although the product meets the strict regulations and standards which are in force
in this respect, Leica Geosystems cannot completely exclude the possibility that the
product may be disturbed by very intense electromagnetic radiation, for example,
near radio transmitters, two-way radios or diesel generators.
Precautions:
Check the plausibility of results obtained under these conditions.
Warning
If the product is operated with connecting cables attached at only one of their two
ends, for example external supply cables, interface cables, the permitted level of
electromagnetic radiation may be exceeded and the correct functioning of other
products may be impaired.
Precautions:
While the product is in use, connecting cables, for example product to external
battery, product to computer, must be connected at both ends.
Safety Directions
TPS1200
159
Safety Directions
TPS1200
160
Radios, digital
cellular phones or
SmartAntenna with
Bluetooth
Use of product with radio, digital cellular phone devices or SmartAntenna with Blue-
tooth:
Warning
Electromagnetic radiation can cause disturbances in other equipment, in installa-
tions, in medical devices, for example pacemakers or hearing aids and in aircraft. It
can also affect humans and animals.
ƽ
Precautions:
Although the product meets in combination with radio or digital cellular phone
devices recommended by Leica Geosystems the strict regulations and standards
which are in force in this respect, Leica Geosystems cannot completely exclude the
possibility that other equipment may be disturbed or that humans or animals may be
affected.
•
Do not operate the product with radio or digital cellular phone devices in the
vicinity of filling stations or chemical installations, or in other areas where an
explosion hazard exists.
•
Do not operate the product with radio or digital cellular phone devices near to
medical equipment.
•
•
Do not operate the product with radio or digital cellular phone devices in aircraft.
Do not operate the product with radio or digital cellular phone devices for long
periods immediately next to your body.
7.9
FCC Statement, Applicable in U.S.
Applicability
The greyed paragraph below is only applicable for products of the TPS1200 System
without radio, digital cellular phone devices or Bluetooth.
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.
ƽ
These limits are designed to provide reasonable protection against harmful interfer-
ence in a residential installation.
This equipment generates, uses and can radiate radio frequency energy and, if not
installed and used in accordance with the instructions, may cause harmful interfer-
ence to radio communications. However, there is no guarantee that interference will
not occur in a particular installation.
If this equipment does cause harmful interference to radio or television reception,
which can be determined by turning the equipment off and on, the user is encour-
aged to try to correct the interference by one or more of the following measures:
•
•
•
Reorient or relocate the receiving antenna.
Increase the separation between the equipment and the receiver.
Connect the equipment into an outlet on a circuit different from that to which the
receiver is connected.
•
Consult the dealer or an experienced radio/TV technician for help.
Safety Directions
TPS1200
161
Safety Directions
TPS1200
162
Warning
Changes or modifications not expressly approved by Leica Geosystems for compli-
ance could void the user's authority to operate the equipment.
ƽ
Labelling
TPS1200
Patents (one or more): US
4,668,862 5,159,760 5,371,951 5,815,251
5,987,763 6,031,606 6,123,427 6,411,371
6,504,602 5,077,557
This device contains a transmitter:
FCC ID: PVH070101
Bluetooth OPL: B00931
........
. . . . . . . .
..............
. . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . .
. . . . .
. . . . . . . . . . . . . . . . . . .
This device complies with part 15 of the FCC
Rules. Operation is subject to the following two
conditions: (1) This device may not cause harm-
ful interference, and (2) this device must accept
any interference received, including inter-
ference that may cause undesired operation.
TPS12_049
Labelling
SmartAntenna
This device complies with part 15 of the FCC
Rules. Operation is subject to the following two
conditions: (1) This device may not cause harm-
ful interference, and (2) this device must accept
any interference received, including inter-
ference that may cause undesired operation.
Type: AT....
Art.No.: ......
Equip.No.: XXXXXX S.No.: ......
Power: 12V---, nominal 1/0.5A max.
Leica Geosystems AG
CH-9435 Heerbrugg
Manufactured: 2004
Made in Switzerland S.No.: ......
TPS12_208
Safety Directions
TPS1200
163
Safety Directions
TPS1200
164
Labelling
clip-on-housings
GFU17 and GFU24
Type: GFUXX . . . . . . . . .
. . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . .
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
GPS12_103
Labelling
clip-on-housings
GFU19, GFU25
Type: GFUXX
. . . . . . . . .
. . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . .
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.
TPS12_218
Safety Directions
TPS1200
165
Safety Directions
TPS1200
166
Labelling
internal battery
GEB211, GEB221
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.
...............
.......................
..........
....................................
....................
................
TPS12_082
Labelling
RadioHandle
This device complies
with part 15 of the FCC
Rules. Operation is
subject to the
Type: RH....
Power: 7.4/12V---, nominal 0.2A max.
100mW EIRP
Leica Geosystems AG
CH-9435 Heerbrugg
Art.No.: ......
following two
conditions: (1) This
device may not cause
harmful interference,
and (2) this device
must accept any
Manufactured: 2004
Made in Switzerland
interference received,
including interference
that may cause
This device contains
a transmitter:
FCC ID: HSW-2410M
S.No.: XXXXXX
undesired operation.
TPS12_214
Safety Directions
TPS1200
167
8.2
Distance Measurement - Infrared IR
Range
Reflector
Range A
[m]
Range B
[m]
Range C
[m]
[ft]
[ft]
[ft]
Standard prism
1800
6000
3000
10000
3500
12000
4500 1) 14700 1) 8000 1) 26200 1) >8000 1) >26200 1)
3 standard prisms 2300
7500
2600
1500
2600
500
4500
1500
800
14700
5000
2600
4000
800
5400
2000
1000
2000
250
17700
7000
3300
7000
800
360° prism
800
450
800
150
360° Mini prism
Mini prism
1200
250
Reflector tape
60 mm x 60 mm
Shortest measuring distance
1.5 m
5.0 m 1)
1)
This data is specific to the TCA1201M instrument, an automated total station for
long range distance monitoring.
Technical Data
TPS1200
169
Technical Data
TPS1200
170
Atmospheric
conditions
A:
B:
C:
Strong haze, visibility 5 km; or strong sunlight, severe heat shimmer
Light haze, visibility about 20 km; or moderate sunlight, slight heat shimmer
Overcast, no haze, visibility about 40 km; no heat shimmer
Measurements can be made to reflector tapes over the entire range without external
ancillary optics.
)
Accuracy
Accuracy refers to measurements to standard prisms.
EDM
measuring
program
Standard
deviation,
ISO 17123-4,
standard prism
Standard
deviation,
ISO 17123-4,
tape
Measurement
time, typical [s]
Standard
Fast
2 mm + 2 ppm
5 mm + 2 ppm
5 mm + 2 ppm
2 mm + 2 ppm
5 mm + 2 ppm
5 mm + 2 ppm
5 mm + 2 ppm
5 mm + 2 ppm
1.5
0.8
< 0.15
-
Tracking
Averaging
Beam interruptions, severe heat shimmer and moving objects within the beam path
can result in deviations of the specified accuracy.
The display resolution is 0.1 mm.
Characteristics
Principle:
Phase measurement
Type:
Carrier wave:
Measuring system:
Coaxial, infrared laser class 1
780 nm
Special frequency system basis 100 MHz 1.5 m
Technical Data
TPS1200
171
Technical Data
TPS1200
172
8.3
Distance Measurement - Reflectorless RL
Range
Type
Kodak Gray
Card
Range D
[m] [ft]
Range E
Range F
[m] [ft]
[m]
[ft]
R100
R100
R300
R300
Whiteside, 90 % 140
reflective
460
230
990
660
170
560
330
1640
990
>170
>560
>330
>1640
>990
Grey side, 18 % 70
reflective
100
500
300
>100
>500
>300
Whiteside, 90 % 300
reflective
Grey side, 18 % 200
reflective
Range of measurement:
Display unambiguous:
1.5 m to 760 m
Up to 760 m
Atmospheric
conditions
D:
E:
F:
Object in strong sunlight, severe heat shimmer
Object in shade, sky overcast
Underground, night and twilight
Accuracy
Standard
measuring
Standard
deviation,
ISO 17123-4
Measure time,
typical [s]
Measure time,
maximum [s]
Reflectorless
1.5 m - 500 m
3 mm + 2 ppm
3 - 6
3 - 6
12
12
Reflectorless
>500 m
5 mm + 2 ppm
Object in shade, sky overcast.
Beam interruptions, severe heat shimmer and moving objects within the beam path
can result in deviations of the specified accuracy.
The display resolution is 0.1 mm.
Characteristics
Measuring system R100: Special frequency system basis 100 MHz 1.5 m
Measuring system R300: System analyser basis 100 MHz - 150 MHz
Type:
Carrier wave:
Coaxial, visible red laser class 3R
670 nm
Technical Data
TPS1200
173
Technical Data
Laser dot size
TPS1200
174
Distance [m]
at 20
Laser dot size, approximately [mm]
7 x 14
at 100
12 x 40
25 x 80
36 x 120
48 x 160
60 x 200
at 200
at 300
at 400
at 500
8.4
Distance Measurement - Long Range LO
Range
The range of the long range measurements is the same for R100 and R300.
Reflector
Range A
[m]
Range B
[m]
Range C
[m] [ft]
[ft]
[ft]
Standard prism
2200
7300
7500
24600
>10000 >32800
Range of measurement to prism:
Display unambiguous:
From 1000 m up
Up to 12000 m
Atmospheric
conditions
A:
B:
C:
Strong haze, visibility 5 km; or strong sunlight, severe heat shimmer
Light haze, visibility about 20 km; or moderate sunlight, slight heat shimmer
Overcast, no haze, visibility about 40 km; no heat shimmer
Technical Data
TPS1200
175
Technical Data
Accuracy
TPS1200
176
Standard
measuring
Standard
deviation,
Measure time,
typical [s]
Measure time,
maximum [s]
ISO 17123-4
Long Range
5 mm + 2 ppm
2.5
12
Beam interruptions, severe heat shimmer and moving objects within the beam path
can result in deviations of the specified accuracy.
The display resolution is 0.1 mm.
Characteristics
Principle:
Type:
Carrier wave:
Phase measurement
Coaxial, visible red laser class 3R
670 nm
8.5
Automatic Target Recognition ATR
Range ATR/LOCK
Reflector
Range ATR mode
Range Lock mode 2)
[m]
1000
600
350
500
55
[ft]
[m]
[ft]
Standard prism
360° prism
3300
2000
1150
1600
175
800
2600
1600
1000
1300
500
360° Mini prism
Mini prism
300
400
Reflector tape
not qualified
60 mm x 60 mm
2) Activating and working in lock mode is not recommended for the TCA1201M
instrument, an automated total station for long range distance monitoring.
Shortest
measuring
distance
360° prism ATR:
360° prism LOCK:
1.5 m
5 m
Technical Data
TPS1200
177
Technical Data
Accuracy
TPS1200
178
Positioning accuracy:
Measuring time:
< 2 mm
3-4 s
Accuracy and measurement time refer to standard prism.
Maximum speed
LOCK mode
Maximum tangential speed:
Maximum radial speed with
<EDM Mode: Tracking>:
5 m/s at 20 m; 25 m/s at 100 m
4 m/s
Searching
Typical search time in field of view:
Field of view:
Definable search windows:
3 s
1°30’/1.66 gon
Yes
Characteristics
Principle:
Type:
Digital image processing
Infrared laser class 1
8.6
PowerSearch PS
Range
Reflector
Range PS
[m]
[ft]
Standard prism
360° prism
200
650
650*
330
200*
Mini prism
100
Measurements at the vertical limits of the fan or under unfavourable atmospheric
conditions may reduce the maximum range. (*aligned to the instrument optimal)
Shortest
360° prism:
5 m
measure distance
Searching
Typical search time:
Default search area:
<10 s
Hz: 400 gon, V: 40 gon
Definable search windows: Yes
Characteristics
Principle:
Type:
Digital signal processing
Infrared laser class 1
Technical Data
TPS1200
179
Technical Data
TPS1200
180
8.7
SmartStation
8.7.1
SmartStation Accuracy
Measurement precision and accuracy in position and accuracy in height are
)
dependent upon various factors including the number of satellites tracked, constel-
lation geometry, observation time, ephemeris accuracy, ionospheric disturbance,
multipath and resolved ambiguities. Figures quoted assume normal to favourable
conditions.
Accuracy
Position accuracy:
Horizontal: 10 mm + 1 ppm
Vertical: 20 mm + 1 ppm
When used within reference station networks the posi-
tion accuracy is in accordance with the accuracy speci-
fications provided by the reference station network.
Initialisation
Method:
Real time (RTK)
Reliability of initialisation: Better than 99.99 %
Time of initialisation:
Range:
Typically 8 s, with 5 or more satellites on L1 and L2
Up to 50 km, assuming reliable data-link is available
RTK data formats
Formats for data reception: Leica proprietary format,
CMR, CMR+, RTCM V2.1 / 2.2 / 2.3 / 3.0
Technical Data
TPS1200
181
8.7.3
SmartAntenna Technical Data
Description and
use
The SmartAntenna is selected for use based upon the application. The table gives
a description and the intended use of the SmartAntenna.
Type
Description
Use
ATX1230 GG/
ATX1230
L1/L2 SmartTrack+/SmartTrack With RX1250 or TPS1200.
antenna with built in ground-
plane.
Dimensions
Connector
Height:
Diameter:
0.890 m
0.186 m
•
•
8 pin LEMO-1 socket to connect antenna cable (only applicable when SmartAn-
tenna is used independently on a pole with RX1250).
Special clip-on interface for connecting SmartAntenna to SmartAntenna Adapter
on a TPS1200 instrument.
Mounting
Weight
5/8" Whitworth
1.1 kg including internal battery GEB211
Technical Data
TPS1200
183
Technical Data
Power
TPS1200
1.8 W typically, 270 mA
184
Power consumption:
External supply voltage:
Nominal 12 V DC ( , GEV197 SmartAntenna to PC for
data transfer and to external power supply), voltage
range 5-28 V DC
Battery internal
Electrical data
Type:
Voltage:
Capacity:
Typical operating time:
Li-Ion
7.4 V
GEB211: 1.9 Ah
5 h
Type
ATX1230 GG
ATX1230
Voltage
Current
Frequency
-
-
-
-
GPS L1 1575.42 MHz
GPS L2 1227.60 MHz
GPS L1 1575.42 MHz
GPS L2 1227.60 MHz
GLONASS L1 1602.5625-
1611.5 MHz
GLONASS L2 1246.4375-
1254.3 MHz
Type
ATX1230 GG
ATX1230
Gain
Typically 27 dBi
Typically 27 dBi
Noise Figure
BW, -3 dBiW
BW, -30 dBi
Typically < 2 dBi
Typically < 2 dBi
-
-
-
-
Environmental
specifications
Temperature
Operating temperature [°C]
-40 to +65
Storage temperature [°C]
-40 to +80
Bluetooth: -30 to +65
Protection against water, dust and sand
Protection
IP67 (IEC 60529)
Dusttight
Protected against water jets
Technical Data
TPS1200
185
Technical Data
TPS1200
186
Protection
Waterproof to 1 m temporary immersion
Humidity
Protection
Up to 100 %
The effects of condensation are to be effectively counteracted by periodically
drying out the antenna.
8.8
Conformity to National Regulations
Communication side cover with Bluetooth
8.8.1
Conformity to
national
regulations
•
•
FCC Part 15 (applicable in US)
Hereby, Leica Geosystems AG, declares that the Communication side cover
with Bluetooth is in compliance with the essential requirements and other rele-
vant provisions of Directive 1999/5/EC. The declaration of conformity may be
consulted at http://www.leica-geosystems.com/ce.
Class 1 equipment according European Directive 1999/5/EC
(R&TTE) can be placed on the market and be put into service without
restrictions in any EU Member state.
•
The conformity for countries with other national regulations not covered by the
FCC part 15 or European directive 1999/5/EC has to be approved prior to use
and operation.
Frequency band
Output power
2402 - 2480 MHz
Bluetooth:
5 mW
Antenna
Type
Gain
Internal Microstrip antenna
1.5 dBi
Technical Data
TPS1200
187
Technical Data
TPS1200
188
8.8.2
GFU17, Siemens MC45
Conformity to
national regula-
tions
•
•
FCC Part 15 and 24 (applicable in US)
Hereby, Leica Geosystems AG, declares that the GFU17 is in compliance with
the essential requirements and other relevant provisions of Directive 1999/5/EC.
The declaration of conformity may be consulted at http://www.leica-geosys-
tems.com/ce.
Class 1 equipment according European Directive 1999/5/EC
(R&TTE) can be placed on the market and be put into service without
restrictions in any EU Member state.
•
The conformity for countries with other national regulations not covered by the
FCC part 15 and 24 or European directive 1999/5/EC has to be approved prior
to use and operation.
Frequency band
Output power
Tri-Band EGSM900 / GSM1800 / GSM1900 MHz
EGSM900:
GSM1800:
GSM1900:
2 W
1 W
1 W
Antennas
Type
GAT 1203
GAT 1204
Frequency band
Type
900 / 1800 MHz
Detachable λ/4 antenna
0 dBi
850 / 1900 MHz
Detachable λ/4 antenna
0 dBi
Gain
Connector
TNC
TNC
Specific
Absorption Rate
(SAR)
The product meets the limits for the maximum permissible exposure of the guide-
lines and standards which are force in this respect. The product must be used with
the recommended antenna. A separation distance of at least 20 centimeters should
be kept between the antenna and the body of the user or nearby person within the
intended application.
Technical Data
TPS1200
189
Technical Data
TPS1200
190
8.8.3
GFU24, Siemens MC75
Conformity to
national regula-
tions
•
•
FCC Part 15, 22 and 24 (applicable in US)
Hereby, Leica Geosystems AG, declares that the GFU24 is in compliance with
the essential requirements and other relevant provisions of Directive 1999/5/EC.
The declaration of conformity may be consulted at http://www.leica-geosys-
tems.com/ce.
Class 1 equipment according European Directive 1999/5/EC
(R&TTE) can be placed on the market and be put into service without
restrictions in any EU Member state.
•
The conformity for countries with other national regulations not covered by the
FCC part 15, 22 and 24 or European directive 1999/5/EC has to be approved
prior to use and operation.
Frequency band
Output power
Quad-Band EGSM850 / EGSM900 / GSM1800 / GSM1900 MHz
EGSM850:
EGSM900:
GSM1800:
GSM1900:
2 W
2 W
1 W
1 W
Antennas
Type
GAT 3
GAT 5
Frequency band
Type
900 or 1800 MHz
Detachable λ/2 antenna
0 dBi
850 or 1900 MHz
Detachable λ/2 antenna
0 dBi
Gain
Connector
TNC
TNC
Specific Absorp-
tion Rate (SAR)
The product meets the limits for the maximum permissible exposure of the guide-
lines and standards which are force in this respect. The product must be used with
the recommended antenna. A separation distance of at least 20 centimeters should
be kept between the antenna and the body of the user or nearby person within the
intended application.
Technical Data
TPS1200
191
Technical Data
TPS1200
192
8.8.4
GFU19 (US), GFU25 (CAN) CDMA MultiTech MTMMC-C
Conformity to
National
Regulations
•
•
FCC Part 15, 22 and 24 (applicable in US).
European Directive 1999/5/EC on radio equipment and telecommunication
terminal equipment (see CE Conformity Declaration).
•
The conformity for countries with other national regulations not covered by the
FCC part 15, 22 and 24 or European directive 1999/5/EC has to be approved
prior to use and operation.
Frequency band
Output power
Dual-Band CDMA850 / CDMA1900 MHz
CDMA850:
2 W
CDMA1900:
0.4 W
Antenna
Type
GAT 1204
Frequency band
Type
850 / 1900 MHz
Detachable λ/4 antenna
0 dBi
Gain
Connector
TNC
Specific
Absorption Rate
(SAR)
The product meets the limits for the maximum permissible exposure of the guide-
lines and standards which are force in this respect. The product must be used with
the recommended antenna. A separation distance of at least 20 centimeters should
be kept between the antenna and the body of the user or nearby person within the
intended application.
Technical Data
TPS1200
193
Technical Data
TPS1200
194
8.8.5
RadioHandle
Conformity to
national regula-
tions
•
•
FCC Part 15 (applicable in US)
Hereby, Leica Geosystems AG, declares that the RadioHandle is in compliance
with the essential requirements and other relevant provisions of Directive
1999/5/EC. The declaration of conformity may be consulted at http://www.leica-
geosystems.com/ce.
Class 2 equipment according European Directive
1999/5/EC (R&TTE) for which following EEA Member
States apply restrictions on the placing on the market or on
the putting into service or require authorization for use:
•
•
•
France
Italy
Norway (if used in the geographical area within a radius
of 20km from the centre of Ny-Ålesund)
•
The conformity for countries with other national regulations not covered by the
FCC part 15 or European directive 1999/5/EC has to be approved prior to use
and operation.
Frequency band
Output power
Limited to 2409 - 2435 MHz
< 100 mW (e. i. r. p.)
Technical Data
TPS1200
196
8.8.6
SmartAntenna with Bluetooth
Conformity to
national
regulations
•
•
FCC Part 15 (applicable in US)
Hereby, Leica Geosystems AG, declares that the SmartAntenna with Bluetooth
is in compliance with the essential requirements and other relevant provisions of
Directive 1999/5/EC. The declaration of conformity may be consulted at
http://www.leica-geosystems.com/ce.
Class 1 equipment according European Directive 1999/5/EC
(R&TTE) can be placed on the market and be put into service without
restrictions in any EU Member state.
•
The conformity for countries with other national regulations not covered by the
FCC part 15 or European directive 1999/5/EC has to be approved prior to use
and operation.
Frequency band
Type
ATX1230 GG/ATX1230
Frequency band [MHz]
1227.60
1575.42
ATX1230 GG
Bluetooth
1246.4375 - 1254.3
1602.4375 - 1611.5
2402 - 2480
Technical Data
TPS1200
198
8.9
General Technical Data of the Instrument
Telescope
Magnification:
30 x
Clear objective diameter: 40 mm
Focusing:
1.7 m/5.6 ft to infinity
Field of view:
1°30’/1.66 gon
2.7 m at 100 m
Compensator
Type
Setting accuracy
Setting range
["]
0.5
0.5
1
[mgon]
0.2
[’]
4
[gon]
0.07
0.07
0.07
0.07
1201
1202
1203
1205
0.2
4
0.3
4
1.5
0.5
4
Level
Circular level sensitivity:
6’/2 mm
Electronic level resolution: 2"
Control unit
Display:
1/4 VGA (320 x 240 pixels), monochrome, graphics
capable LCD, illumination, optional touch screen
34 keys
Keyboard:
including 12 function keys and 12 alphanumeric keys,
illumination
Angle Display:
Distance Display:
Position:
360°’", 360° decimal, 400 gon, 6400 mil, V %
m, ft int, ft us, ft int inch, ft us inch
In both faces, face two is optional
Toughened film on glass
Touch screen if fitted:
Instrument Ports
Port
Name
Description
Port 1 Port 1
•
•
5 pin LEMO-0 for power, communication, data transfer.
This port is located at the base of the instrument.
Port 2 Handle
•
Hotshoe connection for RadioHandle with RCS and
SmartAntenna Adapter with SmartStation.
•
This port is located on top of Communication side cover.
Port 3 BT
•
•
Bluetooth module for communication.
This port is housed within Communication side cover.
Technical Data
TPS1200
199
Recording
Data can be recorded onto a CompactFlash card or into internal memory if fitted.
Type
Capacity [MB]
Number of measurements
per MB
CompactFlash card
•
•
•
64
1750
256
1024
Internal memory - optional • 64
1750
Laser plummet
Type:
Location:
Accuracy:
Visible red laser class 2
In standing axis of instrument
Deviation from plumbline:
1.5 mm at 1.5 m instrument height
2.5 mm at 1.5 m instrument height
Diameter of laser point:
Type:
Drives
Endless horizontal and vertical drives
Motorisation
Power
Maximum rotating speed: 50 gon/s
External supply voltage: Nominal voltage 12.8 V DC, Range 11.5 V-13.5 V
Technical Data
TPS1200
201
Technical Data
Internal battery
TPS1200
202
Type:
Voltage:
Li-Ion
7.4 V
Capacity:
GEB221: 3.8 Ah
Typical operating time:
6 - 8 h
External battery
Type:
NiMH
Voltage:
12 V
Capacity:
Typical operating time:
GEB171: 8.0 Ah
20 - 24 h
Environmental
specifications
Temperature
Type
Operating temperature [°C] Storage temperature [°C]
TPS1200
-20 to +50
-40 to +70
-40 to +80
Leica CompactFlash -40 to +80
cards, all sizes
Battery internal
Bluetooth
-20 to +55
-30 to +60
-40 to +70
-40 to +80
Protection against water, dust and sand
Type
Protection
TPS1200
IP54 (IEC 60529)
Humidity
Type
Protection
TPS1200
Max 95 % non condensing
The effects of condensation are to be effectively counter-
acted by periodically drying out the instrument.
Reflectors
Type
Additive Constant ATR
[mm]
PS
Standard prism,
GPR1
0.0
yes
yes
yes
yes
yes
yes
Mini prism,
GMP101
+17.5
+23.1
360° prism,
GRZ4
Technical Data
TPS1200
203
Technical Data
TPS1200
204
Type
Additive Constant ATR
[mm]
PS
360° Mini prism,
GRZ121
+30.0
yes
yes
no
not recommended
Reflector tape S, +34.4
M, L
no
no
Reflectorless
+34.4
There are no special prisms required for ATR or for PS.
Electronic Guide
Light EGL
Working range:
Positioning accuracy:
5 - 150 m
5 cm at 100 m
Automatic
The following automatic corrections are made:
corrections
•
•
•
•
•
Line of sight error
Tilting axis error
Earth curvature
Circle eccentricity
Compensator index error
•
•
•
•
Vertical index error
Standing axis tilt
Refraction
ATR zero point error
8.10
Scale Correction
Use
By entering a scale correction, reductions proportional to distance can be taken into
account.
•
•
•
Atmospheric correction
Reduction to mean sea level
Projection distortion
Atmospheric
correction ΔD1
The slope distance displayed is correct 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 includes:
•
•
•
Adjustments for air pressure
Air temperature
Relative humidity
For highest precision distance measurements, the atmospheric correction should be
determined with an accuracy of 1 ppm. The following parameters must be redeter-
mined:
•
Air temperature to 1°C
Technical Data
TPS1200
205
Technical Data
Air humidity
TPS1200
Air pressure to 3 mbar
Relative humidity to 20 %
206
•
•
The air humidity influences the distance measurement if the climate is extremely hot
and damp.
For high precision measurements, the relative humidity must be measured and
entered along with the air pressure and the temperature.
Air humidity
correction
ppm
+5
100%
80%
+4
+3
60%
+2
40%
+1
+0
20%
ppm
%
Air humidity correction [mm/km]
Relative humidity [%]
-20 -10
0
10 20 30 40 50 °C
C°
Air temperature [°C]
TPS12_050
Index n
Type
Index n
carrier wave [nm]
infrared EDM
1.0002830
780
Type
Index n
carrier wave [nm]
visible red laser
1.0002859
670
The index n is calculated from the formula of Barrel and Sears, and is valid for:
Air pressure p:
Air temperature t:
Relative air humidity h:
1013.25 mbar
12 °C
60 %
Formulas
Formula for infrared EDM
4.126 · 10-4 · h
0.29196 · p
· 10x
ΔD1= 283.05 -
-
ΔD1 Atmospheric correction [ppm]
p
t
h
Air pressure [mbar]
Air temperature [°C]
Relative humidity [%]
TPS12_051
Formula for visible red laser
4.126 · 10-4 · h
0.29493 · p
1
273.15
· 10x
α
ΔD1= 285.93 -
-
x
(7.5 * t/(237.3 + t)) + 0.7857
TPS12_052
If the basic value of 60 % relative humidity as used by the EDM is retained, the
maximum possible error in the calculated atmospheric correction is 2 ppm,
2 mm/km.
Technical Data
TPS1200
207
Technical Data
TPS1200
208
Reduction to mean The values for ΔD2 are always negative and are derived from the following formula:
sea level ΔD2
ΔD2 Reduction to mean sea level [ppm]
H
3
ΔD = -
· 10
2
H
Height of EDM above sea level [m]
R
TPS12_053
R
6.378 * 106 m
Projection
distortion ΔD3
The magnitude of the projection distortion is in accordance with the projection
system used in a particular country, for which official tables are generally available.
The following formula is valid for cylindrical projections such as that of Gauss-
Krüger:
ΔD3 Projection distortion [ppm]
X2
2R2
· 103
ΔD3= -
X
Northing, distance from projection
zero line with the scale factor 1 [km]
6.378 * 106 m
TPS12_054
R
In countries where the scale factor is not unity, this formula cannot be directly
applied.
Atmospheric
corrections °C
Atmospheric corrections in ppm with temperature [°C], air pressure [mb] and height
[m] at 60 % relative humidity.
550 mb
50°C
600
650
700
750
800
850
900
950
1000 1050 mb
50°C
40°C
30°C
20°C
10°C
0°C
40°C
30°C
20°C
10°C
0°C
-10°C
-20°C
-10°C
-20°C
550 mb
600
650
700
750
800
850
900
950
500
1000 1050 mb
5000 m 4500 4000 3500
TPS12_055
3000
2500
2000
1500
1000
0 m
Technical Data
TPS1200
209
Technical Data
TPS1200
210
Atmospheric
correction F
Atmospheric correction in ppm with temperature [F], air pressure [inch Hg] and
height [ft] at 60 % relative humidity.
16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 inch Hg
130°F
120°F
110°F
100°F
90°F
80°F
70°F
60°F
50°F
40°F
30°F
20°F
10°F
0°F
130°F
120°F
110°F
100°F
90°F
80°F
70°F
60°F
50°F
40°F
30°F
20°F
10°F
0°F
-10°F
-20°F
-10°F
-20°F
16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 inch Hg
[ ft ]
TPS12_056
Technical Data
Formula
TPS1200
212
The instrument calculates in accordance with the following formula:
•
•
•
slope distance
horizontal distance
height difference
Earth curvature and mean refraction coefficient k = 0.13 are taken into account auto-
matically. The calculated horizontal distance relates to the station height, not to the
reflector height.
Displayed slope distance [m]
D0 Uncorrected distance [m]
= D · ( 1 + ppm · 10-6 ) + mm
0
ppm Scale correction [mm/km]
TPS12_058
mm Additive constant, prism [mm]
Horizontal distance [m]
= Y - A · X · Y
Height difference [m]
TPS12_059
Y
X
ζ
A
B
k
* |sinζ|
* cosζ
2
= X + B · Y
Vertical circle reading
(1 - k/2)/R = 1.47 * 10-7 [m-1]
(1 - k)/2R = 6.83 * 10-8 [m-1]
0.13
TPS12_060
R
6.378 * 106 m
Distance
In the distance measuring program Averaging, the following values are displayed:
measuring
program Averaging
D
s
n
Slope distance as arithmetic mean of all measurements
Standard deviation of a single measurement
Number of measurements
These values are calculated as follows:
Slope distance as arithmetic mean
of all measurements
Sum
n
1
n
D =
· ∑ Di
i = 1
Σ
TPS12_061
Di
Single slope distance measure-
ment
n
s
Number of measurements
Standard deviation of a single slope
distance measurement
Sum
n
∑
i = 1
n
∑
i = 1
n
∑
i = 1
1
n
2
2
2
(
D )
(D - D)
i
D
-
i
i
s =
=
Σ
n - 1
n - 1
Slope distance as arithmetic mean
of all measurements
TPS12_062
Di
n
Single slope distance measure-
ment
Number of distance measurements
Technical Data
TPS1200
213
Technical Data
TPS1200
214
The standard deviation
as follows:
of the arithmetic mean of the distance can be calculated
Standard deviation of the arithmetic
mean of the distance
s
SD
=
n
s
Standard deviation of a single
measurement
TPS12_063
n
Number of measurements
Technical Data
TPS1200
215
Antenna
B
Battery
Antennas
Automatic Target Recognition ATR
C
Clip-On-Housing
Index
TPS1200
217
Index
TPS1200
218
Communication side cover
D
Connector
Dimensions
Distance Measurement
Drive
Container Contents
Corrections
E
F
Edit
Frequency Band
Frequency band
Electronic Distance Measurement EDM
Electronic Guide Light EGL
G
Environmental specifications
Index
TPS1200
219
Index
TPS1200
220
H
K
I
Icons
Instrument
Instrument Setup
L
M
Laser Classification ...........................................139 Maintenance ..................................................... 124
Laser Plummet
Technical data ..............................................201 Mechanical Adjustment ....................................... 91
For clip-on-housing ........................................65 Mount, SmartAntenna ....................................... 183
Index
TPS1200
221
Index
O
TPS1200
222
P
Operating Temperature
SmartAntenna ..............................................185 Pages down ........................................................ 35
Communication side cover ...........................187 Path Sequence ..................................................... 8
GFU17 clip-on-housing with device .............188 Ports .................................................................. 199
SmartAntenna ..............................................197 Power Supply ...................................................... 23
GFU17, Siemens MC45 ...............................190 Precise Measurements ....................................... 91
Q
R
S
R100 ............................................................14, 142 Safety Directions ............................................... 126
R300 ............................................................14, 142 Scale Correction ............................................... 205
RadioHandle
Container contents .........................................26 Screen Name ........................................................ 8
Description .....................................................16 Scroll bar, description ......................................... 37
LED indicators ................................................72 Service, of tripod ............................................... 118
Reduction Formulas ..........................................211 SHIFT ............................................................ 34, 48
Index
TPS1200
223
Index
TPS1200
Software
224
SmartStation
SmartAntenna ................................................16 Software Concept ............................................... 19
Technical Data
Specifications, environmental
Storage Temperature
T
U
Technical Data ..................................................168 Unlock, keyboard ................................................ 38
Telescope ..........................................................198 USER .................................................................. 33
Temperature
Battery Internal
V
Bluetooth
Value
CompactFlash Card
W
Weight
Instrument
Index
TPS1200
225
Total Quality Management: Our commitment to total customer satisfaction.
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 Geosystems 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
|