dmt-2, dml-2 profibus, rs 232, rs 422 - sick
TRANSCRIPT
DMT-2, DML-2 Profibus, RS 232, RS 422
Distance measuring device
O P e R aT i n g i n S T R u c T i O n S
DMT10-2/DML40-2
2 © SICK AG • Germany • Subject to change without notice 8011242/ZMK5/2017-05-30
1 Use in Accordance with Regulations ......................................................................................... 4
2 Safety Notes ................................................................................................................................. 4
3 Connection ................................................................................................................................... 5
3.1 DMT10-2-1111,1113,2111/DML40-2-1111 (RS 232/RS 422) ................................................. 5 3.1.1 View of Plug Cover ............................................................................................................................... 5 3.1.2 Cable shield connection ..................................................................................................................... 5 3.1.3 Connection of the supply lines ........................................................................................................... 6 3.1.4 Connection of the Digital Switching Outputs Q1 and Q2 (open collector) ....................................... 6 3.1.5 Connection of the analogue output ................................................................................................... 7 3.1.6 Connection of the RS 232/RS 422 Interface .................................................................................... 7
3.2 DMT10-2-1211,1213,2211/DML 40-2-1211 (Profibus) .............................................................. 8 3.2.1 Supply Voltage Connection ................................................................................................................. 8 3.2.2 Profibus Connection ............................................................................................................................ 8 3.2.3 Connection RS232 .............................................................................................................................. 8
4 Assembly and Alignment ............................................................................................................ 9
4.1 Alignment ........................................................................................................................................ 9
4.2 Outdoor installation ........................................................................................................................ 9
4.3 Recommendations for front pane dimensions for a protective housing .................................. 10
4.4 LED Display ................................................................................................................................... 11 4.4.1 RS 232/RS 422 ................................................................................................................................ 11 4.4.2 Profibus.............................................................................................................................................. 11
5 Operation Startup ...................................................................................................................... 12
5.1 Installation and Start of the Setup Program .............................................................................. 12
5.2 Operating the setup program ...................................................................................................... 13 5.2.1 Graphic window ................................................................................................................................. 13 5.2.2 Configuration window ....................................................................................................................... 14
5.3 Serial interface ............................................................................................................................. 16 5.3.1 Output format .................................................................................................................................... 16 5.3.2 Data output ....................................................................................................................................... 16 5.3.3 Correction values .............................................................................................................................. 17 5.3.4 Ambient data ..................................................................................................................................... 17 5.3.5 Filter ................................................................................................................................................... 17 5.3.6 Analogue output configuration ......................................................................................................... 18 5.3.7 Analogue output ON/OFF ................................................................................................................. 18 5.3.8 Digital switching outputs .................................................................................................................. 19 5.3.9 Saving and loading of the configurations ........................................................................................ 20 5.3.10 Recorder ....................................................................................................................................... 20 5.3.11 Display settings: ........................................................................................................................... 21
6 Profibus ...................................................................................................................................... 22
6.1 Setting the slave address ............................................................................................................ 22
6.2 Input data format .......................................................................................................................... 22
DMT10-2/DML40-2
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6.3 Input/output data format and command procedure ................................................................. 22
6.4 DMT10-2/DML40-2 Commands and statuses ........................................................................... 23
6.5 Output data format ....................................................................................................................... 24
6.6 Diagnosis format .......................................................................................................................... 24
7 Program-controlled configuration with configuration codes ................................................ 26
7.1 Basic structure of a configuration code ..................................................................................... 26
7.2 List of configuration codes .......................................................................................................... 27
7.3 Configuration overview ................................................................................................................ 28
8 Measurement configuration ..................................................................................................... 29
9 Troubleshooting ......................................................................................................................... 31
9.1 Data output malfunctions RS 232 ............................................................................................... 31
9.2 Malfunction display of the LED RS232/RS422 ......................................................................... 31
9.3 Malfunction display of the LED for the Profibus ........................................................................ 32
9.4 Measurement problems with the Profibus ................................................................................. 32
10 Specifications .................................................................................................................. 33
11 Dimensional drawings ..................................................................................................... 35
11.1 Dimensional drawing of DMT10-2-1111,1113,2111 and DML40-2-1111 RS232/RS422 ... 35
11.2 Dimensional drawing of DMT10-1211,1213,2211 and DML40-1211 Profibus ...................... 36
12 Accessories ...................................................................................................................... 37
12.1 Triple prism for DML ..................................................................................................................... 37
12.2 Triple prism with heater DML ...................................................................................................... 37
12.3 Combi-reflector PL 880 FS01 ...................................................................................................... 37
12.4 Reflector PL 880 DG ..................................................................................................................... 37
12.5 Reflector PL 560 DG ..................................................................................................................... 38
12.6 Joint bracket for DMT10-2 / DML40-2........................................................................................ 38
13 Maintenance .................................................................................................................... 38
DMT10-2/DML40-2
4 © SICK AG • Germany • Subject to change without notice 8011242/ZMK5/2017-05-30
1 Use in Accordance with Regulations The DMT10-2/DML40-2 is a compact optical distance sensor. It measures the distance to an object or reflector based on the principle of time of flight measurement. Typical applications include filling level measurements and slab measurements (DMT) or the positioning of rail mounted vehicles such as storage and retrieval units or cranes (DML). 2 Safety Notes This is not a safety component in accordance with the EU Machine Guidelines. Read the operating instructions before starting operation. Only trained professionals should perform connection, assembly and settings. Protect the device against moisture and contamination when operating. Observe suitable ESD protection measures during installation.
DML40-2 DMT10-2
Class 1 laser product
EN/IEC 60825-1:2014 Identical laser class for issue EN/IEC 60825-1:2007
Class 1 laser product
EN/IEC 60825-1:2014 Identical laser class for issue EN/IEC 60825-1:2007
Measuring laser: Measuring laser: Maximum power rating Pmax 8 W Maximum power rating Pmax 30 W Pulse duration tp 6 ns Pulse duration tp 7 ns Wavelength λ 905 nm Wavelength λ 905 nm Marking laser: Marking laser: Maximum power rating Pmax 0.39 mW Maximum power rating Pmax 0.39 mW Wavelength λ 650 nm Wavelength λ 650 nm
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3 Connection
3.1 DMT10-2-1111,1113,2111/DML40-2-1111 (RS 232/RS 422)
3.1.1 View of Plug Cover
1. PG 9 cable feed-through 2. Sub D 9 cable connector for the data interface 3. Terminal block in plug cover 4. DIP switch for data lines 5. Internal connection between plug cover and
DMT10-2/DML40-2
3.1.2 Cable shield connection Use a shielded and twisted paired cable for the terminal strip (3) and connect the cable shield through the shortest path possible to the screw terminal in the plug cover.
DMT10-2/DML40-2
Switc
h ca
bine
t Supp
ly
e.g.
RS
232
e.g.
24 V
Plug
cov
er
Eval
uatio
n
1 Place the shield as close as possible to the supply/evaluation unit.
2 Strip the cable and connect the shield to the ground rail over a large area.
3 Connect the shield in the metallic or metallized plug (Sub-D) over a large area.
4 Connect shield end to the grounding screw at the shortest distance possible.
1
2 3
4
5
DMT10-2/DML40-2
6 © SICK AG • Germany • Subject to change without notice 8011242/ZMK5/2017-05-30
3.1.3 Connection of the supply lines The supply lines are connected to the terminal block in the plug cover. The DMT10-2/DML40-2 requires direct voltage from 18 to 30 VDC with typ. 6 watt power consumption.
Terminal Assignment Significance 1 L+ +24 V DC 2 M 0 V 3 – – 4 – – 5 – – 6 – – 7 – – 8 – –
3.1.4 Connection of the Digital Switching Outputs Q1 and Q2 (open collector)
5
3/4
6
Load
Terminal Assignment Significance 1 – – 2 – – 3 Q1 Switching output Q1 4 Q2 Switching output Q2
5 L+/Q
External voltage 5 to 30 V DC. Supply only with PELV* voltage
6 M/Q Signal ground 7 – – 8 – –
* PELV: Protective Extra Low Voltage (see EN 50178)
Imax = 100 mA
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3.1.5 Connection of the analogue output When using the analogue output, only Q1 remains to be used as distance-dependent switching output. In the case of invalid measuring results ("No echo"), Q2 has the function of an error output.
5
4
6
7RM Lo
ad
Terminal Assign-ment Significance
1 – – 2 – – 3 – –
4 Q2 Error output "No echo" Max. 100 mA
5 L+/Q
External voltage 5 to 30 VDC for Q2 Supply only with PELV voltage*
6 M/Q Signal ground 7 QA Analogue output 8 – –
• * PELV: Protective Extra Low Voltage (see EN 50178)
• RM : max 450 Ohm Time constants analog output QA: 500ms (5 dew, approx. 99% of final value)
i
Note: Time constants analog output QA: 500ms (5 dew, approx. 99% of final value)
3.1.6 Connection of the RS 232/RS 422 Interface
Sub D 9 Connector Jack on DMT10-2/DML40-2 DIP switch setting
Switch 2OFF
Switch 1ON
Setting for RS 232
Switch 1OFFSwitch 2ON
Setting for RS 422
Signal Inter- face
Significance
1 RESET Hardware Reset 2 RxD RS 232 Sensor input 3 TxD RS 232 Sensor output 4 – – – 5 GND Signal ground 6 Tx + RS 422 Output 7 Tx – RS 422 Output 8 Rx + RS 422 Input 9 Rx – RS 422 Input
i
Note: DIP switch S1. 4 activates the signal RESET in the ON position. The signal RESET is deactivated in the OFF position. Set S1.4 to OFF (factory setting) to avoid unintentional reset.
!
Warning: Configure either the RS 232C or the RS 422 interface on the DMT10-2/DML40-2 but never use both interfaces together since this may cause defects in the device. Profibus and RS 232 interfaces are only separated with respect to potential via the power supply (24 V).
DMT10-2/DML40-2
8 © SICK AG • Germany • Subject to change without notice 8011242/ZMK5/2017-05-30
3.2 DMT10-2-1211,1213,2211/DML 40-2-1211 (Profibus)
3.2.1 Supply Voltage Connection
Terminal Assign-ment Significance
1 L+ +24 V (DC) 2 M 0V
3.2.2 Profibus Connection
Jack on DMT10-2/DML40-2
Signal Significance
1 – – 2 – –
3 B Profibus line B (RXD/TXD +)
4 RTS Control signal (Direction detection for optical waveguide)
5 GND Signal ground
6 +5 V With reference to GND, pin 5
7 – – 8 A Profibus line A (RXD/TXD -) 9 – –
3.2.3 Connection RS232
Pin plug on DMT10-2/DML40-2
Signal Significance
1 nRESET Reset Input (Hardware Reset)
2 RxD RS 232 Input 3 TxD RS 232 Output 4 – – 5 GND Signal ground 6 – – 7 – –
8 – – 9 – –
!
Warning: Profibus and RS 232 interface are only potential-separated against the supply voltage. Profibus and RS 232 interface are not potential-separated from each other. Pin 5 (GND) or both plug connectors are connected in the device.
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4 Assembly and Alignment
4.1 Alignment Connect the DMT10-2/DML40-2 with the computer. Switch on the 24 V DC supply voltage. Switch on the laser pointer using the setup program (see chapter 5). The dot marked in red is positioned 30 mm (+/- 1 mm) above the actual measuring point.
(Specs. +/-1 mm)
Neutral point of device
To avoid faulty measurements, a minimum distance must be observed towards lateral objects (see diagram):
0
200
400
600
800
1000
1200
1400
1600
1800
2000
1 10 100 1000Distance [m]
Min
imum
dis
tanc
e [m
m]
Perpendicular measurements on reflective surfaces or shiny metals are to be avoided with sensors of the DMT10-2-2111 and DMT10-2-2211 series, as this can lead to spurious or invalid measurements (due to self-dazzling). When measurements are carried out at an angle to the reflective surface the measurement beam can be deflected and reflected from the objects into the surrounding area. This can influence the measurement results.
4.2 Outdoor installation
i Notes: When mounted outdoors, a housing must be used to protect the sensor from direct environmental effects. The device must be operated within the specified temperature range and protected against damp precipitation. See also Chapter 4.3.
DMT10-2/DML40-2
10 © SICK AG • Germany • Subject to change without notice 8011242/ZMK5/2017-05-30
4.3 Recommendations for front pane dimensions for a protective housing
i Notes: - Apply anti-reflective coating for 905 nm - Tilt front pane against axis of beam - The inside of the housing must not contain any reflective surfaces. - It is recommended to coat the inside of the housing with a non-gloss black varnish. - The beam reflected by the front pane must generally not hit well-reflecting objects in the
surroundings since this may create a "virtual" target hitting a surface at a distance that can no longer be suppressed
- Activate the nearfield suppression ( ref. 5.3.5 ).
Comparing the distance of the pane to the minimum angle of the pane
0
5
10
15
20
25
30
35
40
0 50 100 150 200 250
Distance sensor-reference <-> pane [mm]
Min
imum
tilt
angl
e [°
]
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4.4 LED Display
4.4.1 RS 232/RS 422 The status of the measurement and the states of the switching outputs are displayed via the 4 LEDs on the front of the DMT10-2/DML40-2. Status indicator
Yellow (Q1)
Yellow (Q2)
Green Red Significance Troubleshooting
Off Off Off Off Device switched off or defective Switch on On On On On LED test for 1 second after device is switched on Wait On Off The DMT10-2/DML40-2 is ready to operate.
Previous measurements were terminated. Start measurement
Blinks Off Measurement in progress Blinks On No target contact Focus on target On Switching output Q1 is active On Switching output Q2 is active Off On Error during self-test Contact
manufacturer Blinks Operating temperature range exceeded or fallen
short of, also blinks in stand-by operation Lower or increase outside temperature
4.4.2 Profibus The status of the measurement and the states of the switching outputs are displayed via the 4 LEDs on the front of the DMT10-2/DML40-2. Status indicator
Yellow (Q1)
Yellow (Q2)
Green Red Significance Troubleshooting
Off Off Off Off Device switched off or defective Switch on On On On On LED test for 1 second after device is switched on Wait Off Off Off On Error during self-test Contact
manufacturer Off Off On Off The DMT10-2/DML40-2 is operational and awaits
parameterization and configuration by the Profibus DP Master.
Off On On Off The DMT10-2/DML40-2 is in the data exchange state. Parameterization and configuration are successfully completed.
Start measurement
Blinks Off Measurement in progress Blinks On No target contact Focus on target Blinks Operating temperature range exceeded or fallen
short of also blinks in stand-by operation Lower or increase outside temperature
DMT10-2/DML40-2
12 © SICK AG • Germany • Subject to change without notice 8011242/ZMK5/2017-05-30
5 Operation Startup The scope of delivery includes a CD containing the setup program for the configuration of the DMT10-2/DML40-2. You will need the following to use the setup program: A computer with an available RS232 interface Windows 98, Windows ME; 32 MB RAM, 64 MB RAM recommended Windows NT 4.0; 32 MB RAM, 64 MB RAM recommended Windows 2000 Pro; 64 MB RAM, 128 MB RAM recommended Windows XP or Windows XP Pro; 128 MB RAM, 256 MB RAM recommended Windows 7 Resolution 800 x 600 with 256 colors Users of Windows NT, Windows 2000, Windows XP/XP Pro and Windows 7 must possess administrator rights to perform the installation.
i Note: Windows 98/XP contains the terminal program „HyperTerminal“, which can also be used to operate the DMT10-2/DML40-2. The pertaining description can be found in chapter 7.
5.1 Installation and Start of the Setup Program
1. Switch the DMT10-2/DML40-2 off. Connect the serial interfaces of the computer and DMT10-2/DML40-2 with the zero-modem cable, part no. 2014054.
2. Insert the CD supplied into the CD drive of your computer.
3. Start the program „DMT2_DML2_setup.exe“ on the CD and follow the instructions of the installation program. Start the program after the successful installation.
4. Select the serial RS 232 interface to which the
sensor is connected. Select the transfer rate of the DMT10-2/DML40-2 (Factory setup 9600 baud).
5. Now switch the DMT10-2/DML40-2 on. Wait until
the green LED at the sensor lights.
6. The measurement begins by pressing the "Start" button in the graphic window.
i Note: A change of the baud rate only becomes effective after switching the sensor off and on again. The setup program remembers the baud rate set last.
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5.2 Operating the setup program
5.2.1 Graphic window
Setting options RS 232/RS 422 Profibus
Serial interface COM port COM 1 COM 2 to COM 255
COM 1 COM 2 to COM 255
Baud rate in bits/s 1200 2400 4800 9600 19200 38400
1200 2400 4800 9600 19200
38400
DMT-2/DML-2 Averaging depth 1 16 64 256 1024
1 16 64 256 1024
Moving average Inactive Active
Inactive Active
Red marking laser Inactive Active
Inactive Active
Measurement Start button Start/Stop Start/Stop
Status indicator Red: No contact to sensor Yellow: Standby; Contact to sensor Green: Measurement in progress
Red: No contact to sensor Yellow: Standby; Contact to sensor Green: Measurement in progress
Measuring value Displays the measuring value numerically
Displays the measuring value numerically
Temperature Displays the temperature in the laser and indicates as status (e.g. "OK")
Displays the temperature in the laser and indicates as status (e.g. "OK")
Temperature query during measurement
Inactive Active
Inactive Active
* Factory settings are shown in bold
DMT10-2/DML40-2
14 © SICK AG • Germany • Subject to change without notice 8011242/ZMK5/2017-05-30
5.2.2 Configuration window
* only available at DMT10-2-2111 and DMT10-2-2211
Setting options RS 232/RS 422 Profibus
Select configuration
Configuration Device Stored configurations
Device Stored configurations
Source Device Path of the stored configuration
Device Path of the stored configuration
Serial interface (5.3.1) (5.3.2)
Baud rate in bits/s 1200 2400 4800 9600 19200 38400
1200 2400 4800 9600 19200 38400
Data output Continuous Single On request
Continuous
Output format ASCII ASCII + unit Binary
Binary + CRC
ASCII ASCII + unit Binary Binary + CRC
Measuring unit Millimeter Meter Inch Foot Yard Mile Nautic Mile
Millimeter Meter Inch Foot Yard Mile Nautic Mile
Profibus address Not active with RS 232/422
0 - 125
Correction values (5.3.3)
Offset [mm] 0 0
Scaling factor 1.000 1.000
Rain-filter * only available at DMT10-2-2X11
Off DISTECHO = On
Off DISTECHO = On
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Setting options RS232/RS422 Profibus
Ambient data (5.3.4)
Air temperature [°C] 20.0 20.0
Air pressure [hPa] 1013 1013
Setting Autostart Inactive Active
Inactive Active
Filter (5.3.5) Moving average Inactive Active
Inactive Active
Averaging depth 1 16 64 256
1024
1 16 64 256
1024
Timeout 0% (infinite) 25% 50% 100% 200%
0% (infinite) 25% 50% 100% 200%
Automatic echo evaluation Inactive Active
Inactive Active
Nearfield suppression Inactive Active
Inactive Active
Analogue output (5.3.6)
Analogue output Inactive Active
Not available
Distance @ 4 mA [mm]
1000 Not available
Distance @ 20 mA [mm]
9000 Not available
Switching logic Q2 Positive Negative
Not available
Switching outputs (5.3.7)
Switching logic Q1 Positive Negative
Not available
ON Threshold value Q1 [mm]
10000 Not available
OFF Threshold value Q1 [mm]
9900 Not available
Switching logic Q2 Positive Negative
Not available
ON Threshold value Q2 [mm]
1000 Not available
OFF Threshold value Q2 [mm]
900 Not available
* Factory settings are shown in bold
DMT10-2/DML40-2
16 © SICK AG • Germany • Subject to change without notice 8011242/ZMK5/2017-05-30
i Note: When setting an offset, switch to automatic axis adjustment or adapt the manual axis adjustment. Configuration changes only become effective after "Send configuration to DMT/DML" (temporary) has been executed. "Store setting permanently" must be executed for the non-volatile storage.
5.3 Serial interface
5.3.1 Output format
ASCII ASCII text can be displayed and read directly on the screen. One character is transmitted for each number. Each transmitted line ends with a carriage return (ASCII 13) and line feed (ASCII 10). ASCII + unit Apart from the ASCII text, the unit of measure can also be transmitted in this format. Binary The binary measuring values are output in 4 byte LONG INTEGER format. The distance information items are output as 32 bit binary; the LSB is thereby transmitted first. When using the data output in binary format, the "Request Mode" is the best method to control the data flow and to prevent data overflow into the connected PLC. Binary + CRC Each record is supplemented by a CRC 16 checksum (standard: ITU.T X25, Polynom 1021hex). 0xFFF is used as starting value. The CRC calculation must be performed through the complete value including CRC and must render 0.
5.3.2 Data output Continuous Mode Continual measurement with continuous data output. Single Mode Individual measurement. The command "M" starts the measurement. The measurement is stopped again following the output of the measuring value. Request Mode The request mode means that the sensor constantly measures internally thus providing current values but the output via the interface only takes place upon request. The request mode must be activated in the setup menu.
Initially, the internal measurement must be started using the command "M". Subsequently, individual measurement values can be invoked as needed, using the command "G" (Get measurement). The internal measurement is stopped using the command "S".
In addition, the sensor can also be set with the setup menu for "Autostart". After applying the supply voltage to the sensor, the internal measurement starts automatically; data output only takes place upon request using the command "G".
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5.3.3 Correction values Offset/Scaling factor Setting the zero point and scaling factor. The zero point of the DMT10-2/DML40-2 is located on the front varnished housing surface. The zero point can be moved by entering an offset and the measured distance can be scaled by a scaling factor:
omdD +⋅= with D = corrected distance d = measured distance m = scaling factor set by the user (scale) o = zero point set by the user (offset)
Rain filter Measurements can be affected by rain during outdoor operation. DMT10-2-2111 and DMT10-2-2211 sensors, that are equipped with electronic compensation, have a rain filter that can be switched on and which suppresses weak echos up to a distance of 15 m – thus largely cutting out any effect caused by rain. The capability of making measurements on dark targets in line with specifications is retained.
5.3.4 Ambient data Setting the ambient conditions. The travel time of the light depends on the air pressure and the temperature. Both factors may impact the distance measurement. A significant impact only occurs with extreme environmental conditions or distances in the kilometer range. We therefore recommend keeping the factory set values unchanged.
5.3.5 Filter
Moving average ON = Moving average OFF = Block by block evaluation of the measuring values A mean value formation serves to improve the measured value statistics since the individual measurements are subject to straggling. Block by block averaging is a summarization of a series of individual measurements divided by the number of the individual measurements. Subsequently, the individual measurements are determined for the next mean value block. The results of the previous measurements are rejected. The number of individual measurements entering the mean value formation is used to determine the quality of the statistics but also the output rate. A high quality signifies a low measuring rate. Block by block averaging is recommended for applications with rapidly changing distances. In case of the moving average value formation, the oldest value is replaced by a current measurement value. Each individual measurement thereby already produces results. This method is especially suitable for linear distance changes, e.g., as with crane positioning. Averaging depth Number of the measured values used to averaging an output value. A large number means a high quality of the statistics with a small scattering but low data output with block by block averaging, or a slurring of the measurement in case of the floating mean value formation depending on the repositioning speed.
DMT10-2/DML40-2
18 © SICK AG • Germany • Subject to change without notice 8011242/ZMK5/2017-05-30
Timeout The DMT10-2/DML40-2 performs an automatic evaluation of the reflected signal. If the signal is too strong or too weak and the automatic aperture has not yet positioned the incident signal into the work area, then the measuring result can be noisy and therefore inaccurate. The DMT10-2/DML40-2 will then report an invalid internal measurement. The TimeOut setting reflects a percentage to the setting of the averaging depth and renders the maximum number of invalid measurements. If this threshold is exceeded then the output will cause a "No echo" message. With some measuring situations, e.g., the flickering of the air between the sensor and the measuring target, increasing the time-out value can facilitate a measurement. With situations where monitoring of the measuring capability is important, a small time-out value can facilitate rapid reaction to an interruption of the measurement. Automatic echo evaluation In some borderline situations, e.g., in case of highly dynamic measurements, these measurement results are already desired if the automatic mechanical aperture has possibly not yet sufficiently vaporized to deliver a clean signal for accurate measurement. For these cases, the automatic echo evaluation can be deactivated for echo amplitudes that are too large. However, measurements that are too large can lead to accuracy variations and yet, because the aperture immediately regulates the value, the subsequent measurements are once more accurate. Small echo amplitudes continue to be monitored. Nearfield suppression Nearfield suppression facilitates the use of a front pane in a protective housing. Optical interference’s in the short range, which can already lead to faulty measurements because of even slight contaminations, are effectively suppressed. This increases the interval required for cleaning the pane. The Nearfield suppression changes the measuring behavior. The specified data are reached starting at a distance of 2.0 m. Without Nearfield suppression, the specified data are valid in the entire measuring area.
5.3.6 Analogue output configuration Distance @ 4 mA (min.) Lower threshold value of the desired measurement range in [mm]. Minimum distance between MIN and MAX: 1000 mm. Distance @ 20 mA (max.) Upper threshold value of the desired measurement range in [mm]. Minimum distance between MIN and MAX: 1000 mm. Note: The last valid measured value will be output in the event of invalid measured values (i.e. "no Echo"). The 2nd Switching output is used to indicate that the measured value is invalid in the event that the value is out of the scaled range or no measurement is possible with insufficient or excessive echo. It is recommended to monitor the switching output. In order to do so, an input must be assigned on the PLC or IPC.
5.3.7 Analogue output ON/OFF Remark: When the analogue interface is switched on, the switching output Q2 is used to output "No echo" if the defined measurement range is exceeded or fallen short of. Q2 can no longer be freely configured.
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5.3.8 Digital switching outputs Definition of the switching on and off thresholds as well as the switching logic of the two digital switching outputs. The distance between the switching thresholds must be at least 10 mm. The distance shall be increased accordingly in case of small filter settings. The following applies with positive switching logic: Q1ON > Q1OFF Switching hysteresis
The following applies with negative switching logic: Q1ON < Q1OFF Switching hysteresis
DMT10-2/DML40-2
20 © SICK AG • Germany • Subject to change without notice 8011242/ZMK5/2017-05-30
5.3.9 Saving and loading of the configurations Applies only to the operation with the setup program. Performing factory settings: Resets all parameters to the factory-set parameters. Permanent storage of settings: Saves the modified data in a file. Sending configuration to the sensor: Sends the modified configuration data to the sensor. Loading configuration from the sensor: Loads the data stored in the sensor. Import Loads the data permanently stored in a file.
5.3.10 Recorder
Setting options RS232/RS422 Profibus
Left button Start recording Active: red Inactive: black
Active: red Inactive: black
Center button Stop recording Active: black Inactive: grey
Active: black Inactive: grey
Right button Play recording Active: black Inactive: grey
Active: black Inactive: grey
The data are automatically stored on the hard disk after stopping the recording. Click on the right button to play. All recorded data sequences will then appear.
i Note: Automatic scaling is selected when playing the measuring values with the recorder.
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5.3.11 Display settings:
(Can be activated on the graphic screen using the right mouse button)
Setting options RS232/RS422 Profibus
x-Axis Display in time axis "Time“
Active Inactive
Active Inactive
Display in time axis "Interval“
Inactive Active
Inactive Active
y-Axis Automatic axis adjustment
Inactive Active
Inactive Active
Manual axis adjustment
Y Max (in the selected unit of measurement Y Min see configuration window)
Y Max (in the selected unit of measurement Y Min see configuration window)
Connect measuring points
Active Inactive
Active Inactive
Display zero values Inactive Active
Inactive Active
* Factory settings are shown in bold
DMT10-2/DML40-2
22 © SICK AG • Germany • Subject to change without notice 8011242/ZMK5/2017-05-30
6 Profibus
6.1 Setting the slave address The initial configuration and the setting of the slave address are done via the RS 232 interface (see chapter "Configuration codes" or "Windows setup configuration ).
6.2 Input data format The input data include 8 bytes stored in the "Big Endian" format (increasing byte number designates decreasing byte valence).
Byte 0 Byte 1 Byte 2 Byte 3 Byte 4 Byte 5 Byte 6 Byte 7
Result counter Mirror value Command status Measurement result
high byte low byte high word low word
Please note when programming the master that special system functions are required in part to read in consistent data (e.g., Siemens S7, reading in data with SFC14; GSD supplied).
Field Significance
Result counter 16 bit modulo counter, which increases by an increment of 1 at each updating of the measurement result. This makes it possible to determine the status of a measurement result that has not been updated if the measurement timeout is switched off.
Command counter See chapter 6.3 Input/output data format and command procedure
Command status FFh in the case of an error (NOK), otherwise 0 (OK)
Measurement result Distance value
The unit of the measurement result is mm for the distance measurement. Measurement results are 32 bit values with positive or negative signs. An invalid measurement is indicated by the value 7FFFFFFFh (largest positive value). A negative distance can occur with corresponding selection of user offset and scaling.
6.3 Input/output data format and command procedure DMT10-2/DML40-2 appears in a Profibus DP network as a device with 8 byte input data and 2 byte output data. The output data are used to transmit commands to the DMT10-2/DML40-2. Because the inputs and outputs of a device are read or written cyclically in Profibus DP operation, command bytes must be transmitted with a superimposed protocol. The cyclically transmitted output data should not be interpreted continuously as a retransmitted command. The command protocol is as follows: The master together with the counter byte transmits a command byte. The sensor stores the counter value as mirror (0 mirror value) of the current counter. The command is only processed if the counter value transmitted in the command equals the mirror value increased by one. Otherwise, it is ignored. The mirror value is sent back to the master in the input data. After the command has been carried out, the mirror value is updated in the input data. Now the mirror value equals the counter value. After the power-up of the DMT10-2/DML40-2, the mirror value equals 0. Because the input data are read cyclically, a Profibus DP master must check the mirror value contained in it to determine whether the last command given has been carried out. The command has been carried out if the mirror value equals the counter value. The command counter is a modulo counter, i.e., it applies to the command counter and its mirror value: The next counter value after reaching the highest level of 255 is 0.
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Example:
Profibus data cycle
Output data Input data Remark
Command Counter value Mirror value Status
1 „M“ 0 0 OK Command "M" is ignored
2 „M“ 0 0 OK
3 „M“ 1 0 OK Command "M" is recognized; the status is invalid
4 „M“ 1 0 OK Command "M" is being processed 5 „M“ 1 0 OK
6 „M“ 1 1 OK
Confirm command "M" with OK
7 „M“ 1 1 OK
8 „M“ 1 1 OK
9 „M“ 1 1 OK
10 „k“ 2 1 OK Command "k" is recognized; the status is invalid
11 „k“ 2 1 OK Command "k" is being processed; the status is
invalid 12 „k“ 2 1 OK
13 „k“ 2 1 OK
14 „k“ 2 2 NOK Confirm command "k" with NOK
6.4 DMT10-2/DML40-2 Commands and statuses Commands are transmitted to DMT10-2/DML40-2 in a byte of the output data. The available commands, their byte representation as well as the statuses in which the respective command is permitted, are listed in the following table.
Command Byte value Significance
M 77 (4Dh) Start distance measurement
S 83 (53h) Stop measurement
P 80 (50h) Red marking laser ON
O 79 (4Fh) Red marking laser OFF
d 100 (64h) Check echo amplitude ON
e 101 (65h) Check echo amplitude OFF
f 102 (66h) 16 measurement pulses per distance measurement
g 103 (67h) 64 measurement pulses per distance measurement
h 104 (68h) 256 measurement pulses per distance measurement
i 105 (69h) 1024 measurement pulses per distance measurement
k 107 (6bh) Set filter mode: Floating average value
l 108 (6ch) Set filter mode: Simple average value
X 88(58h) Measurement in progress is stopped (only RS 232 interface)
The "d" to "l" commands only change the measurement configuration temporarily. All changes are lost after the device is switched off. Permanent configurations can be set via the RS 232 interface using VT100-compatible terminals or the setup software. Command "X" (only RS232 interface): The serial command “X” is used to immediately stop a measurement possibly in progress, regardless of the device type (Profibus/serial) and mode. A part of the current measurement value may possible still be output. Subsequently, the message "Sensor ready" is output. The status of the laser pointer is not changed. The current settings are also maintained.
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Status Description
IDLE Laser is switched off; no measurement is made
DMEAS Laser is pulsing; distances are being measured
6.5 Output data format The output data format is as follows:
Byte 0 Byte 1
Command counter Command
The command counter is reproduced in the input data for the purpose of flow control. The procedure is described in detail in chapter 6.3 (Input/output data format and command procedure ). See chapter 6.4 (DMT10-2/DML40-2 Commands and statuses ) for possible commands.
6.6 Diagnosis format In addition to the Profibus DP standard diagnosis data, DMT10-2/DML40-2 specific diagnosis data are available.
Byte Bit Position
Significance 7 6 5 4 3 2 1 0
0–5 In accordance with Profibus DP standard
6 0 0 0 0 0 0 1 1 Header for 2 byte device-specific diagnosis data
7 ECH TIMEOUT AUTO STATE DMT10-2/DML40-2 diagnosis byte 1
8 TMP PULSE FILTER DMT10-2/DML40-2 diagnosis byte 2
9 Temperature of the sensor in °C (-128...+127) DMT10-2/DML40-2 diagnosis byte 3
Bit assignment diagnosis byte 1
Field Binary value Significance
ECH 0 OFF Echo threshold check
1 ON
TIMEOUT
000 Infinite Share of the pulses per measurement, which is permitted for invalid individual
measurements before the measurement is marked as "invalid".
001 25 %
010 50 %
011 100 %
100 200 %
AUTO 0– 11
No Autostart Distance
Autostart configuration
STATE
00 IDLE
Operating status 01 DMEAS
10 VMES
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Bit assignment diagnosis byte 2
Field Binary value Significance
TMP
0– No warning
10 Subnormal temperature
11 Excess temperature
PULSE
000 1
Pulse per measurement
001 16
010 64
011 256
100 1024
FILTER 000 Simple average value
Filter method for distance measurement 001 Floating average value
i Note on the Profibus device: When Profibus devices receive a valid host mode command via the serial interface, the Profibus mode is deactivated and the device is operated in host mode. In addition, the following commands are accepted via the serial interface.
Command Significance <Space> Activate/deactivate logging. The sensor outputs measurement values of a
Profibus measurement in progress via the serial interface. Logging remains activated until <Space> is resent. When a measurement is finished and logging is activated or does not run and logging is activated then the message "<CR><LF>Idle, no data<CR><LF>" is output.
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7 Program-controlled configuration with configuration codes Configuration codes are suitable for the configuration via PLC or an industrial PC whose programs shall configure the DMT10-2/DML40-2 automatically. You will need: A computer with an available RS 232 interface, the zero modem cable, part no. 2014054, and a terminal program.
i Note: Windows 98/XP contains the terminal program HyperTerminal, which can also be used to operate the DMT10-2/DML40-2. More information on the use of HyperTerminal can be found in the Windows help system.
7.1 Basic structure of a configuration code Configuration codes have the following basic structure: <code> <blank> <parameter string> <CR> A configuration code is composed of a three-digit ASCII number sequence ("code"), followed by a blank and an ASCII string as parameter field ("parameter string"). The configuration code ends with a CARRIAGE RETURN (line break, ASCII character 13). The DMT10-2/DML40-2 responds to valid configuration codes with the letter „O“ (ASCII character 79): Invalid configuration codes are acknowledged with an "E" (ASCII character 69). Start measurement M ASCII 77
Stop measurement S ASCII 83
Pointer ON P ASCII 80
Pointer OFF O ASCII 79
Activate individual measurement b ASCII 98 Activate continuous measurement c ASCII 99 Check echo amplitude ON d ASCII 100 Check echo amplitude OFF e ASCII 101 16 measurement pulses per distance measurement f ASCII 102 64 measurement pulses per distance measurement g ASCII 103 256 measurement pulses per distance measurement h ASCII 104 1024 measurement pulses per distance measurement i ASCII 105 Set filter mode: Moving average value k ASCII 107 Set filter mode: Simple average value l ASCII 108
Temperature query T ASCII 84
Current configuration output C ASCII 67
Place sensor in defined receiving state X ASCII 88 (Response of the sensor: „Sensor ready“)
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7.2 List of configuration codes
Code Description Parameter (Factory settings shown in bold)
General codes
000 Reset all parameter to factory defaults None
001 Reset sensor device None
999 Save current configuration None
RS 232/RS 422 Data format and unit
100 Set default output format None
101 Set output format "ASCII", "ASCII+UNIT", "BINARY" or "BINARY+CRC"
110 Set default units None
111 Set distance unit "MM", "M", "IN", "FT", "YD", "MI" or "NM"
Measurement
300 Set defaults None
301 Set laser pulses per measurement (average depth) "1", "16", "64", "256" or "1024"
302 Set timeout "0" (infinite), "25", "50", "100", "200"
304 Set moving average on/off "0" (=off), "1" (=on)
305 Set autostart mode "0" (=off), "1" (=on)
306 Set echo amplitude bounds checking "0" (=off), "1" (=on)
311 Set nearfield suppression "0" (=off), "1" (=on)
351 Set rain filter Only available at DMT10-2-2111 and DMT10-2-2211 “OFF” (=off), “DISTECHO” (=on)
Analog output
400 Set defaults (min = 1000, max = 9000) None
401 Set analogue output MIN -1,000,000 ... 1,000,000 [mm] 1000
402 Set analogue output MAX -1,000,000 ... 1,000,000 [mm] 9000
403 Switch-on/off analog output "0" (=off), "1" (=on)
Switching outputs
500 Set defaults (on/off 1: 10000/9900, 2: 1000/900) None
501 Set switch 1 ON distance threshold -1,000,000 ... 1,000,000 [mm] 10,000
502 Set switch 1 OFF distance threshold -1,000,000 ... 1,000,000 [mm] 9900
503 Set switch point 1 logic "0" (=negative), "1" (=positive)
504 Set switch 2 ON distance threshold -1,000,000 ... 1,000,000 [mm] 1000
505 Set switch 2 OFF distance threshold -1,000,000 ... 1,000,000 [mm] 900
506 Set switch point 2 logic "0" (=negative), "1" (=positive)
Interface parameters
600 Set RS 232/RS 422 defaults None
601 Set RS 232/RS 422 baud rate "1200", "2400", "4800", "9600", "19200" or "38400"
603 Set output mode "C" (=continuous), "S" (=single), "R" (=on request)
610 Set profibus node address "0" ... "125"
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Code Description Parameter (Factory settings shown in bold)
Offset and scaling
700 Set defaults None
701 Set offset "-32768" ... "32767" [mm] 0
702 Set scale "-32768" ... "32767" [1/1000] 1000
Air temperature and pressure
800 Set defaults None
801 Set temperature "-100" ... "500" [°C/10] 200
802 Set air pressure "800" ... "1200" [hPa] 1013
7.3 Configuration overview The current configuration (Config codes) as well as the device type and status are shown via the command 'C'. The command is only permitted outside of a measurement. General status information is output first. The following table shows the output format and the sequence. Some values only constitute sample information. A colon and a blank always conclude the heading. Then the value, followed by <CR><LF> is output.
Heading Value
Type: Serial or Profibus
Serial-No: 12345
Version: V1.0.0
Build: 00000151
Date: 26.08.04
Temperature: 35 C, OK
Pointer: on, off or tempshutdown. The last status means that the pointer is activated but is currently switched off because of a temperature cut-off.
Subsequently, all adjustable configuration codes are output. The codes are always output in 3-digit format. The respective setting is always output numerically and corresponds to the values specified when using the respective configuration code. If the configuration code does not expect a direct number but a selection of values then the number of the respective value is specified, beginning with 0. The sequence of the corresponding codes, including the consecutive number, results from the following table:
Setting options
Code 0 1 2 3 4 5 6
101 ASCII ASCII+UNIT BINARY BINARY+CRC
111 MM M IN FT YD MI NM
301 1 16 64 256 1024
302 0 25 50 100 200
601 1200 2400 4800 9600 19200 38400
603 C S R
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8 Measurement configuration Autostart The measurement with the parameters stored last is started automatically after switching on the sensor. The difference between a mechanical aperture and electronic compensation The sensors of the DMT10-2-1X11 and DMT10-2-1X13 series are equipped with a mechanical aperture that automatically adjusts the light reflected from the measurement target to an optimum echo value. This ensures measurement accuracy – even with very different reflectivities, i.e. from very low levels of reflected light with dark targets up to a great deal of reflected light, e.g. with measurements from bright targets. The mechanical aperture operates with a maintenance-free motor. However, a concession to the high measurement accuracy over the wide range of differing reflectivities is an aperture adjustment time of up to one second when there is a large jump in reflectivity. The sensors of the DMT10-2-2111 and DMT10-2-2211 series operate by means of an electronic compensation without delay, i.e. the measurement values are fast available even with rapidly changing reflectivities. The disadvanatage of electronic compensation, however, is a limited measurement accuracy.
Temperature query The temperature (incl. status) can be queried using the command “T”. In Profibus devices, the temperature is output via the diagnosis buffer. This command is not permitted during a measurement. In the ASCII mode (output format of the measurement value), the output is always in integer format and with the appended unit of measure, degree Celsius ("C"). The temperature output is followed by the statement ",_OK" if the temperature lies in the valid range. Otherwise the statement "_NOK" is added. The complete output is formatted to 12 characters aligned at the right so that it is flush with the measurement value output (without unit of measure). In the binary mode, the output is also in integer format as 1 byte (with positive or negative signs) followed by a status byte (0=NOK, 1=OK). When the mode BINARY+CRC is activated, the two checksum bytes are attached in addition. Temperature switch-off The DMT10-2/DML40-2 sensor has a Temperature Switch-off Mode that is activated when the permissible internal device temperature is exceeded or undercut. This operating mode is signalled by the flashing red LED, unless the sensor is in Stand-by Mode. The DMT10-2/DML40-2 sensor also signals a diagnostic alarm to the master. The internal device temperature at moment of the actual exceeding or undercutting is transmitted in Byte 9 of the diagnostic buffer. Within the permissible working range of internal device temperatures of from -15° to +78°C the master can request the current distance data via “M” or “T” (distance and temperature data). On reaching an internal temperature of approx. 78°C the DMT10-2/DML40-2 sensor transmits a diagnostic alarm to the master. The current internal device temperature is available in the diagnostic buffer. Distance data can also be called up with “M” or “T” (incl. temperature data). On exceeding the internal temperature of approx. 81°C the sensor re-transmits a diagnostic alarm to the master. No distance measurements are possible in this state, the device exits Measurement Mode. The sensor regains measurement capability again on cooling of the device until the internal temperature is less than approx. 78°C. This is shown by the output of a status message without a set bit for external diagnosis. The “over-temperature” status is still shown in diagnostic byte 2. A status message is transmitted on cooling below an internal temperature of approx. 73°. The “overtemperature” status is cancelled in diagnostic byte 2. The following graph shows the relationship:
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Similarly, the same behaviour occurs on an undercutting of the permissible internal temperature. Whereby the switching points are: Warning ~ -15°C Switch-off ~-18°C Cancellation of the warning ~-10°C. Start of measurement If a sensor is in the status temperature cut-off without having interrupted a measurement in progress, then a measurement can be started using the command “M”. The measurement is started in the host or Profibus mode but interrupted immediately as described in section "Continuous measurement". Continuous measurement If the status temperature cut-off is reached during a continuous measurement then a message is output and the measurement is interrupted. In ASCII mode, the message is "TempErr!_ _??" followed by the unit of measure values, if applicable, in binary mode, the value 0x7FFFFFF0 is output, supplemented by a CRC value, if applicable. Switched on marking laser When the marking laser is switched on and the status temperature cut-off is reached, the laser is switched off, regardless of the measuring status. Permitted commands in the temperature cut-off status When no continuous measurement was interrupted then all commands are permitted that would otherwise also be permitted outside of a measurement. Only the marking laser cannot be switched on. The command “P” is ignored. The command “M” to start a measurement is permitted with restrictions; see section "Starting a measurement". When a continuous measurement was interrupted then all commands are permitted that are permissible during a measurement. Only the marking laser cannot be switched on. The command “P” is ignored. The marking laser, in particular, can be switched off using the command “O” preventing the marking laser to be switched on again, when the valid operating temperature has been reached. The command “S” to finish a measurement is also permitted. The sensor then does not continue the measurement when the valid operating temperature has been reached. Reaching the valid operating temperature The status temperature cut-off can only be left by reaching a valid operating temperature. In this case, the marking laser is activated again if its status is still "switched on". If the measuring status is still "interrupted", the measurement will be resumed without additional messages.
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9 Troubleshooting
9.1 Data output malfunctions RS 232 Malfunction Check No communication - Check the wiring of the zero modem cable
- Maximum cable length (RS 232: 15 m) exceeded? - Open the plug cover and check the setting of the DIP switches
Data error during transmission - Check the RS 232 settings on the DMT10-2/DML40-2 and on the PC or the PLC
- Check maximum cable length Speed of the data output is not correct
- Check baud rate - Check filter and timeout
9.2 Malfunction display of the LED RS232/RS422 Malfunction Check All LED off - Check voltage supply:
18-30 Volt ( 24 V DC ± 25 %) - Supply lines connected correctly to the terminal strip in the
plug cover? - Lines with correct poles? - Select "None" for the "Protocol" in "Connection properties" in
the terminal program on the PC Red LED lights, green LED blinks, No data output
No target contact. - Focus DMT10-2/DML40-2 to a target - Set timeout to value different than „infinite“ - Notify service if the problem continues
Red LED lights, green LED is off
- System is not OK: - Switch off DMT10-2/DML40-2 briefly - Notify service if the problem continues
Red LED blinks Temperature exceeded of fallen short of
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9.3 Malfunction display of the LED for the Profibus
Malfunction Check All LED off - Check voltage supply:
18-30 Volt (DC 24 V ± 25 %) - Supply lines connected correctly to the terminal strip in the
plug cover? -Lines with correct poles?
Select "None" for the "Protocol" in "Connection properties" in the terminal program on the PC when the serial interface has been connected
Red LED lights, green LED blinks, No data output
No target contact. - Focus DMT10-2/DML40-2 to a target - Set timeout to value different than „none“
Notify service if the problem continues Red LED lights, green LED is off
System is not OK: -Switch off DMT10-2/DML40-2 briefly. - Clean the optics.
Notify service if the problem continues Red LED blinks Temperature exceeded of fallen short of
9.4 Measurement problems with the Profibus Malfunction Check Targets are not detected
Check target: - Target in measurement range? - Glass panes and reflecting surfaces cannot be detected or
lead to faulty measurements - The size of the target must correspond at least to the diameter
of the measurement beam. - Check alignment of reflectors, if applicable. - Clean the optics
Measurement is inaccurate Observe the specification of the measuring accuracy! - Increase the number of individual measurements per
measurement result - Check whether other beam sources with 905 nm wavelength
could disturb the measurement - Rain, snow, fog, smoke and dust can be the cause of
malfunctions! - Clean the optics
Nonsense measuring result Data output in binary format: Synchronization may have been lost during transmission. Restart measurement. Automatic echo evaluation deactivated?
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10 Specifications Specifications RS 232/RS 422 DMT10 -2 -1111 DMT10 - 2-1113 DMT10-2-2111 DML40- 2 -1111
Measurement range 0.5 … 155 m 0.5 … 600 m on Diamond Grade 8) 0.5 … 800 m on reflector PL 880 FS01 0.5 … 1200 m on reflector OP 55 0.5 … 20 m, max. object temp. 1200 °C Light spot diameter 25 mm/1 m, 70 mm/10 m, 520 mm/100 m Resolution 1 mm Light source, Light type Laser diode, infrared
Laser protection class 1 (EN/IEC 60825-1:2014, Identical laser class for issue EN/IEC 60825-1:2007)
Supply voltage UV 18 ... 30 V DC 1) Residual ripple < 5 VSS
2) Power consumption ≤ 6 W 3) Switching outputs Q1 and Q2 Input L+/Q 4) 5) +5 V DC.. +30 V DC, supply Q1/Q2 Output current IA max. 100 mA Analog output 4 ... 20 mA, programmable Response time 500 ms Serial interface RS 422/RS 232 selectable Measurement value output
Averaging 16/64/256/1024 values Output rate (min) 16 ms, 64 ms, 256 ms, 1024 ms
(min) 3.2 ms, 12.8 ms, 50 ms, 200 ms Temperature drift °C...+40°C Typical 0.3 mm/K
-10°C...0°C;+40°C...+55°C Typical 0.6 mm/K -10°C...+55°C Typical 3.0 mm/K
Initialization period 6 s VDE protection class 4) III Circuit protection 5) A, B Enclosure rate IP 65 Ambient temperature Operation - 10 °C ... + 55 °C Storage – 25 °C ... + 70 °C Weight Approx. 1200 g 1) Limit values 2) May not exceed or fall short of UV
tolerances 3) Without load
4) Rated voltage DC 50 V PELV voltage (EN 50178)
5) A = UV Reverse polarity protected B = Output Q short-circuit protected
6) Surrounding conditions constant, minimum switched on period 30 min.
7) 23 °C air temperature, 977 hPa, minimum switched on period 30 min.
8) On Diamond Grade 9) To PL 880 FS01 10) To OP 55
Reproducibility and accuracy depending on the measurement distance 6) 7)11)12)13)14) Order information RS232/RS422
DMT- Type Order no. 10-2
10-2
10-2
10-2
10-2
DMT10-2-1111 1027603
Measurement range 1 m 15 m 40 m
65 m
155 m DMT10-2-1113 1027605 Reproducibility 6) DMT10-2-2111 1028540 White, 90 % remission 7 mm
7 mm
7 mm
7 mm
10 mm DML40-2-1111 1027607
Gray, 18 % remission 7 mm
7 mm
7 mm
10 mm - Black, 6 % remission 7 mm
7 mm
10 mm
- - Accuracy 7)
White, 90 % remission ± 10 mm
± 10 mm
± 10 mm
± 10 mm
± 10 mm
Gray, 18 % remission ± 10 mm
± 10 mm
± 10 mm
± 10 mm
- Black, 6 % remission ± 10 mm
± 10 mm
± 10 mm
- -
DML40-2 Measurement range 0.5 ... 600 m 8) / 0.5 … 800 m 9) / 0.5 … 1200 m 10) Reproducibility 6) 6 mm Accuracy 7) ± 10 mm
11) Accuracy may be reduced by a factor of 2.5 when operated between +40°C and +50°C. Accuracy of the DMT10-2-2111, compared to the DMT10-2-1111, may be reduced by a factor of 4. Reproducibility of the DMT10-2111 is 10mm.
12) The accuracy and repeatability values are based on an average depth of 1024 measurement values. 13) Accuracy and repeatability can decrease when influenced by HF-currents above 60 MHz 14) In environments with high HF-currents it is recommended not to use the analog interface. Instead the serial interface can be
used.
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Specifications Profibus DMT10 -2-1211 DMT10-2-1213 DMT10-2-2211 DML40-1211
Measurement range 0.5 … 155 m 0.5 … 600 m on Diamond Grade 0.5 … 800 m to reflector PL 880 FS01 0.5 … 1200 m to reflector OP 55 0.5 … 20 m, max. object temp. 1200 °C Light spot diameter 25 mm/1 m, 70 mm/10 m, 520 mm/100 m Resolution 1 mm Light source, Light type Laserdiode, Infrarot
Laser protection class 1 (EN/IEC 60825-1:2014, Identical laser class for issue EN/IEC 60825-1:2007)
Supply voltage UV 18 ... 30 V DC 1) Residual ripple < 5 VSS
2) Power consumption ≤6 W 3) Serial interface Profibus DP Parameterization interface RS 232 Measurement value output Averaging 16/64/256/1024 values Output rate (min) 16 ms, 64 ms, 256 ms, 1024 ms Response time (min) 3.2 ms, 12.8 ms, 50 ms, 200 ms Temperature drift 0°C...+40°C Typical 0.3 mm/K
-10°C...0°C;+40°C...+55°C Typical 0.6 mm/K -10°C...+55°C Typical 3.0 mm/K
Initialization period 6 s VDE protection class 4) III Circuit protection 5) A, B Enclosure rate IP 65 Ambient temperature Operation - 10 °C ... + 55 °C Storage - 25 °C ... + 70 °C
Weight Approx. 1200 g
1) Limit values 2) May not exceed or fall short of UV
tolerances 3) Without load
4) Rated voltage DC 50 V PELV voltage (EN 50178)
5) A = UV Reverse polarity protected B = Output Q short-circuit protected
6) Surrounding conditions constant, minimum switched on period 30 min.
7) 23 °C air temperature, 977 hPa, minimum switched on period 30 min.
8) On Diamond Grade 9) To PL 880 FS01 10) To OP 55
Reproducibility and accuracy depending on the measurement distance 6) 7)11)12)13)14) Order information Profibus
DMT- Type Order no. 10-2 10-2 10-2 10-2 10-2 DMT10-2-1211 1027604 Measurement range 1 m 15 m 40 m
65 m
155 m DMT10-2-1213 1027606
Reproducibility 6) DMT10-2-2211 1028541 White, 90 % remission 7 mm
7 mm
7 mm
7 mm
10 mm DML40-2-1211 1027608
Gray, 18 % remission 7 mm
7 mm
7 mm
10 mm - –
Black, 6 % remission 7 mm
7 mm
10 mm
- –
- –
Accuracy 7)
White, 90 % remission ± 10 mm
± 10 mm
± 10 mm
± 10 mm
± 10 mm
Gray, 18 % remission ± 10 mm
± 10 mm
± 10 mm
± 10 mm
-
Black, 6 % remission ± 10 mm
± 10 mm
± 10 mm
-
-
DML40-2 Measurement range 0.5 ... 600 m 8) / 0.5 … 800 m 9) / 0.5 … 1200 m 10) Reproducibility 6) 6 mm Accuracy 7) ± 10 mm
11) Accuracy may be reduced by a factor of 2.5 when operated between +40°C and +50°C. Accuracy of the DMT10-2-2211, compared to the DMT10-2-1211, may be reduced by a factor of 4. Reproducibility of the DMT10-2111 is 10mm.
12) The accuracy and repeatability values are based on an average depth of 1024 measurement values. 13) Accuracy and repeatability can decrease when influenced by HF-currents above 60 MHz 14) In environments with high HF-currents it is recommended not to use the analog interface. Instead the serial interface can be
used.
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11 Dimensional drawings
11.1 Dimensional drawing of DMT10-2-1111,1113,2111 and DML40-2-1111 RS232/RS422
1 Dust shield
2 Laser pointer pilot light
3 Alignment sight
4 Status indicators
5 Device zero point
6 Mounting holes, M6 x 6 deep
7 Plug cover
8 PG 9
9 Sub D 9-pole plug connector (male)
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11.2 Dimensional drawing of DMT10-1211,1213,2211 and DML40-1211 Profibus
26
221,5
1 Dust shield
2 Laser pointer pilot light
3 Alignment sight
4 Status indicators
5 Device zero point
6 Mounting holes, M6 x 6 deep
7 Plug cover
8 PG 9
9 Sub D 9-pole plug connector (male and female)
DMT10-2/DML40-2
8011242/ZMK5/2015-05-30 © SICK AG · Germany · Subject to change without notice 37
12 Accessories
12.1 Triple prism for DML Order number: 1000141 Type: OP60-00
12.2 Triple prism with heater DML Order number: 5309132 Type: OP 55 H 12.3 Combi-reflector PL 880 FS01 Order number: 1017865 Type: PL 880 FS01 12.4 Reflector PL 880 DG Order number: 1018975 Type: PL 880 DG
DMT10-2/DML40-2
38 © SICK AG • Germany • Subject to change without notice 8011242/ZMK5/2017-05-30
12.5 Reflector PL 560 DG Order number: 1016806 Type: PL 560 DG 12.6 Joint bracket for DMT10-2 / DML40-2 Order number: 5309130 Type: BEF-GH-DMT 13 Maintenance SICK sensors do not require any maintenance. We recommend that you clean the optical components and check the screw and plug connections at regular intervals.
SICK AG | Waldkirch | Germany | www.sick.com
8011
242/
ZMK5
/201
7-05
-30
∙ 8M
_DR
(201
7-05
) ∙ A
4 4c
int4
7
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