DIS2116_Operating_Manual
Typographical conventions 7
DIS2116 HBM
Typographical conventions
For clear identification and improved legibility, the following conventions have been used in
this documentation:
NOTE
Important paragraphs are marked with a symbol to draw attention to them.
Italics Indicates external documents and files
“MODE” All menus and menu commands appear in quotes, here the main menu
“MODE”.
“ENTER” Quotes and italics are used for keys, input fields and user input.
TAR Bold is used for communication commands.
Er1250 Underlined normal print is used for error messages.
8 Important information
HBM DIS2116
Important information
NOTE
Neither the design of the device nor any technical safety aspects may be modified without
the express permission of Hottinger Baldwin Messtechnik GmbH. Any modification excludes
Hottinger Baldwin Messtechnik GmbH from any and all liability for any damage resulting
therefrom.
When replacing the battery for the real-time clock, the device must be disconnected from the
power supply (service life 5 years).
It is strictly forbidden to carry out any repairs and soldering work on the motherboards or to
replace any components. Repairs may only be carried out by persons authorized by
Hottinger Baldwin Messtechnik GmbH.
The production number set at the factory cannot be changed.
When connecting the cables, the device must be disconnected from the voltage supply.
Safety instructions 9
DIS2116 HBM
Safety instructions
• There are not normally any hazards associated with the product, provided the notes and
instructions for project planning, installation, appropriate operation and maintenance are
observed.
• It is essential to comply with the safety and accident prevention regulations specific to the
particular application.
• Installation and start-up must only be carried out by suitably qualified personnel.
• Do not allow damp and dirt to get inside the device when connecting the cables.
• When connecting the cables, take action to prevent electrostatic discharge as this may
damage the electronics.
• The required power supply for the device is an extra-low voltage (10...30 V) with safe
disconnection from the mains.
• When connecting additional devices, comply with the safety requirements.
• The ground connections of the supply voltage, the interface and the load cell cable shield
are interconnected in the device. If the potentials of the devices to be connected are
different, suitable steps must be taken to isolate the signals (such as using an
optocoupler).
• Shielded cables must be used for all connections apart from the supply voltage (see note
below). The shield must be connected to the provided terminals (Chapter 5.3, page 18).
• The use of unshielded cables for the voltage supply is only permissible for cables with a
maximum length of 30 m, laid inside buildings. If cables are longer or are installed outside
buildings, shielded cables must be used (as per EN 61326-1).
• To compensate for potential differences, the metal housing of the DIS2116 must be
connected to the scale structures as well as to the ground potential of the connected
devices by a low-resistance equalizing conductor. This is unnecessary if a potential
difference of 35 V is not exceeded.
• In the device, the reference ground (GND) of all the signals and the supply voltage is
connected directly to the cable shield connection but not to the housing.
• Connection to a wide-ranging supply network is not permitted as this often causes
interfering voltage peaks to be coupled into the electronics. Instead, a local supply must
be provided for the DIS2116 (even when grouped).
• The front foil is made from high-quality materials, providing a service life appropriate to
the external conditions. The keys must only be operated by hand; under no
circumstances must pointed objects be used to press them.
10 Introduction and appropriate use
HBM DIS2116
1 Introduction and appropriate use
This User Manual contains detailed information both on operation and on the setting options
of the DIS2116 scale electronics.
The DIS2116 is designed for use in industrial applications, for example
• as a legal-for-trade main display for up to 24 digital load cells (e.g. C16i) as components
of a non-automatic scale (NAWI) 1)
• as a vehicle scale with max. 3 segments as a compound weighing machine
Use for any purpose other than the above is deemed to be inappropriate.
In the case of legal-for-trade use, national legal and safety regulations must be complied
with.
1) NAWI – non automatic weighing instrument
Special features 11
DIS2116 HBM
2 Special features
The DIS2116 is a digital display unit for connection to digital load cells.
The DIS2116 has available:
D RS485 4-wire connection for up to 24 digital load cells
D Menu for a vehicle scale with up to 3 segments and max. 8 load cells per segment
D Encrypted transmission of measured values between DIS2116 and load cells in
legal-for-trade mode
D COM port for serial communication with a PC / PLC (RS232)
D COM port for a printer (RS232 or USB)
D COM port for external large-scale display (RS232)
D COM port for connection to fieldbuses
D PS2 connection for external keyboard
D Internal SD card as alibi memory for print data and settings
D Real-time clock with battery buffering
D Supply voltage range 10...30 VDC
D Voltage output for supply of digital load cells
The electronics are set and parameterized via keyboard or interface.
Additional features:
D Use as 1, 2 or 3-range scale
D Disabling/enabling of menu functions
D Filter selection
D Max. capacity adjustment, partial load adjustment
D Zero on start-up
D Automatic zero tracking
D Weighing range linearization
D Different print functions
D Numerous monitoring and error detection functions
12 Mechanical construction and scope of supply
HBM DIS2116
3 Mechanical construction and scope of supply
3.1 Scope of supply
Fig. 3.1: DIS2116 view
• DIS2116 scale electronics in aluminum housing for panel mounting
• Adhesive label for closing and sealing the opening for the calibration pushbutton and
labeling strips
• 8 labeling strips for creating the scale type plate
• 2 8-pin mating connectors (Phoenix Mini-Combicon mating connector 8 pin
Type: MC1.5/8-ST-3.81)
• 2 connector housing with strain relief (Phoenix Mini-Combicon connector housing 8 pin
Type: KGG-MC 1.5/9)
• 4 mounting elements for panel mounting
For DIS2116 panel mounting, the cut guides are bent outward for fitting the mounting
elements. Then, the set screws are used for clamping the housing to the panel.
• SD card (1 Gbyte) installed in DIS2116
• Quick start guide
• System CD, 1-DIS2116-DOC
Mechanical construction and scope of supply 13
DIS2116 HBM
3.2 Accessories, to be ordered separately
• Power pack, AC/DC 15 V / 530 mA (for max. 8 load cells)
• Desktop housing, also for wall mounting, 1-TG2116 (for Dimensions see Chap. 22.2,
page 116)
• Junction box VKD2R-8
• Cable (connection cable for C16i)
14 Scale commissioning overview
HBM DIS2116
4 Scale commissioning overview
The permissible supply voltage for the DIS2116 is in the range of +10 ...30 VDC and must be
adequately smoothed (rms value less residual ripple >10 V).
NOTE
When the digital load cells, e.g. C16i, are supplied via the DIS2116, the permissible
supply voltage is +10 ... 17 VDC.
A 100...240 V power supply unit is available as an accessory (AC/DC15 V / 530 mA, for max.
8 load cells). This is suitable for all digital load cells.
When properly connected with shielded cables, the DIS2116 complies with the relevant
European standards and carries the CE mark.
A formatted SD card with the parameters of the factory setting is inserted in the device.
Mechanical dimensions are described in chapter 22 (page 115) and mounting information in
chapter 3, page 12 .
Subsequent sub-chapters provide an overview of the sequence of steps that need to be
taken to commission the scale, depending on the application:
• Initial commissioning
• As a component of a non-automatic scale (NAWI1)) Chapter 4.2 (page 15)
• As a component of a vehicle scale Chapter 4.3 (page 16)
This overview includes information on the respective chapters in this Manual.
1) NAWI – non automatic weighing instrument
4.1 Initial commissioning
• Mounting the device, Chapter 3 (page 12)
• Connecting the digital load cell(s), Chapter 5 (page 17) and 5.4 (page 21)
• Connecting the supply voltage, Chapter 5 (page 17) and 5.5 (page 21)
• Connecting the serial connections, Chapter 5 (page 17), 5.8 (page 24) or 5.9
(page 25)
• Switching on the device, Chapter 7.1 (page 30)
• Configuration of the load cells, Chapter 10.1 (page 66)
Scale commissioning overview 15
DIS2116 HBM
4.2 NAWI application
• Mounting the device, Chapter 3 (page 12)
• Connecting the digital load cell(s), Chapter 5 (page 17) and 5.4 (page 21)
• Connecting the supply voltage, Chapter 5 (page 17) and 5.5 (page 21)
• Connecting the serial connections, Chapter 5 (page 17), 5.8 (page 24) or 5.9
(page 25)
• Switching on the device, Chapter 7.1 (page 30)
• Calling the parameter menu via the hidden key, Chapter 8 (page 36)
• Enabling all menu functions, Chapter 8.5.11. (page 55)
• Configuration of the load cells, Chapter 10.1 (page 66)
• Setting the weighing range, Chapter 8.5.13. (page 58)
• Setting the correct filters, Chapter 9 (page 65)
• Adjusting the weighing range, Chapter 10 (page 66)
• Digital off-center load compensation (if necessary), Chapter 10.6 (page 72)
• Linearization (only when necessary), Chapter 11 (page 81)
• Settings for legal-for-trade applications, Chapter 12 (page 83)
• Parameter settings for serial interfaces, Chapter 8.5.5. (page 45), 15 (page 96) or 16
(page 99)
• Setting the date and time, Chapter 8.5.7. (page 49)
• Disabling menu functions (if necessary), Chapter 8.5.11. (page 55)
• Filling out the labeling strip, securing the labeling strip, Chapter 12 (page 83)
• Checking settings and functions
16 Scale commissioning overview
HBM DIS2116
4.3 NAWI application (vehicle scale)
• Mounting the device, Chapter 3 (page 12)
• Connecting the load cell(s), Chapter 5 (page 17) and 5.4 (page 21)
• Connecting the supply voltage, Chapter 5 (page 17) and 5.5 (page 21)
• Connecting the serial connections, Chapter 5 (page 17), 5.8 (page 24) or 5.9
(page 25)
• Switching on the device, Chapter 7.1 (page 30)
• Calling the parameter menu via the hidden key, Chapter 8 (page 36)
• Enabling all menu functions, Chapter 8.5.11. (page 55)
• Configuration of the load cells, Chapter 10.1 (page 66)
• Setting the weighing range, Chapter 8.5.13. (page 58)
• Setting the correct filters, Chapter 9 (page 65)
• Adjusting the weighing range, Chapter 10 (page 66)
• Digital off-center load compensation (if necessary), Chapter 10.6 (page 72)
• Linearization (only when necessary), Chapter 11 (page 81)
• Setting the vehicle scale function, Chapter 13 (page 86)
• Setting parameters for the serial interfaces, Chapter 8.5.5. (page 45), 15 (page 96) or 16
(page 99)
• Setting the date and time, Chapter 8.5.7. (page 49)
• Disabling menu functions (if necessary), Chapter 8.5.11. (page 55)
• Filling out the labeling strip, securing the labeling strip, Chapter 12 (page 83)
• Checking settings and functions
Electrical connections 17
DIS2116 HBM
5 Electrical connections
5.1 Notes
Please observe the safety information at the start of this description.
The load cells and the supply cables are connected by means of screw terminals on the back
of the device. The terminals are fitted with wire protection and the use of end sleeves is
recommended, particularly for the load cell cables. The assignment of the connection
terminals is displayed on the back of the device.
NOTE
All the ground connections are interconnected on the motherboard!
5.2 Cable connection
All connections are accessible from the outside, the housing does not need to be opened.
Strain relief for the connection cable can be implemented via the supplied terminal housing.
It permits the use of round cables with a diameter of 5...7 mm.
To minimize EMC problems, the individual wires from the end of the shielding to the terminal
should be as short as possible.
The cable shieldings must be twisted together and connected to one of the terminals 1.1,
1.8, 2.1 or 2.8.
18 Electrical connections
HBM DIS2116
5.3 Cable preparation
Remove the outer sheath about 20 mm.
Twist braided shield.
If necessary, remove the inner sheath.
Strip the wire ends about 5 mm.
Connect the wires to the terminals.
Supply voltage
+10...30 VDC
Output voltage
+10...30 VDC
GND
Output voltage for load Ground
cell C16i +10 ...17 V
GND
Shielding
Shielding Shielding
Shielding
COM 1 load cell
TB (RB)
TA (RA)
RB
RA
Fig. 5.1: Position of connections on terminal block K1
Shielding
ÂÂÂÂÂÂ
ÂÂÂÂÂÂ
ÂÂÂÂÂÂ
Electrical connections 19
DIS2116 HBM
5.3.1. Connecting DIS2116 with C16i
C16i Cable core colours | RS-485-4 wire | DIS2116 Clamp K1 |
Screen connection | 1.1 | |
Blue | RS-485, transmitting line A (=T-) | 1.7 RA (RX-) |
Black | RS-485, transmitting line B (=T+) | 1.6 RB (RX+) |
Green | RS-485, receiving line A (=R-) | 1.5 TA (TX-) |
Gray | RS-485, receiving line B (=R+) | 1.4 TB (TX+) |
White | Power supply ground | 2.4 GND |
Red | Power supply +, max. 17 VDC | 2.3 UB |
2.3 2.4 1.6 1.7 1.4 1,5 | ||||||
UB (10...17 V) | GND | RB (RX+) | RA (RX-) | TB (TX+) | TA (TX-) | white |
GND | ||||||
UB C | red | |||||
RB (RX+) 1 | gray | |||||
RA (RX-) 6i | green | |||||
TB (TX+) ... | black | |||||
TA (TX-) | blue | |||||
white | ||||||
red | C UB | |||||
gray | 1 RB (RX+) | |||||
green | 6i RA (RX-) | |||||
black | ... TB (TX+) | |||||
blue | TA (TX-) | |||||
GND |
RS-485 / 4 wire bus
Fig. 5.2: Cable assignment
20 Electrical connections
HBM DIS2116
5.3.2. Connecting VKD2R-8 with DIS2116 and C16i
VK... (input, signals from C16i) | RS-485-4 wire | VK... (output) | DIS2116 (Clamp K1) |
screen connection | screen | 1.1 | |
TA | RS-485, transmitting line A (=T-) | TA | 1.7 (RA) |
TB | RS-485, transmitting line B (=T+) | TB | 1.6 (RB) |
RA | RS-485, receiving line A (=R-) | RA | 1.5 (TA) |
RB | RS-485, receiving line B (=R+) | RB | 1.4 (TB) |
GND | Power supply ground | GND | 2.4 |
UB | Power supply +, max. 17 VDC | UB | 2.3 |
Fig. 5.3: Following the scheme of measuring chain C16i - VKD2R-8 - DIS2116
Electrical connections 21
DIS2116 HBM
5.4 Load cell connection
Digital load cells e.g. C16i, can be connected to the DIS2116. An RS485 interface is
available for this purpose.
The RS485 interface can be used as a 4-wire (full duplex) or as a 2-wire (half duplex)
interface.
All digital load cells (e.g. C16i) have the address 31 as the factory setting. If several load
cells are connected to a scale, the load cell addresses must first be changed. This setting is
implemented in the parameter menu ”SCALE CONFIGURATION” (Chapter 10.1, page 66)
NOTE
Call up the parameter menu ”SCALE CONFIGURATION” after connecting the load cells.
5.5 Supply voltage
Terminal | Function | Comments |
1.2 | Supply voltage | +10...30 VDC 1) |
1.3 | Ground |
1) The supply voltage must be sufficiently filtered (rms value minus residual ripple > 10V).
5.6 Voltage outputs
Terminal | Function | Comments |
2.2 | Output voltage 10 ... 30 V | The input voltage 10 ...30 V is made available di rectly at the output to supply digital load cells |
2.4 | GND | Ground |
22 Electrical connections
HBM DIS2116
2.3 | Output voltage 10 ... 17 V | NOTE This output is used to supply C16i load cells with a maximum supply voltage of 17 V. The input voltage is made available at the output up to a value of 17 V. The output is switched off at higher input voltages. |
2.5 | GND | Ground |
1.1, 1.8, 2.1, 2.8 | Shielding |
Electrical connections 23
DIS2116 HBM
5.7 RS485 interface (Terminal block K1)
The DIS2116 is the master for the connection with the digital load cells (C16i, measurement
chain).
COM5 COM3 COM4 PS2 USB
Terminal block K1
COM2
Fig. 5.4: Connection positions (back of device); assignment, see page 24
24 Electrical connections
HBM DIS2116
5.8 Terminal block K1 assignments
The terminal block K1 has the following signals:
- Supply voltage input
- Supply voltage load cell output
- RS485 4-wire load cell interface
- CAN load cell interface (dependent on load cell) for future applications
Terminal | Signal | Comments | |
1.1,1.8 2.1,2.8 | Shielding | ||
1.2 | Supply voltage | 10...30 V | |
1.3 | Supply voltage | GND | |
1.4 | COM1 load cell | TB (RB) | Serial interface RS485 Only the terminals 1.4 and 1.5 must be used for RS485 2-wire |
1.5 | COM1 load cell | TA (RA) | |
1.6 | COM1 load cell | RB | |
1.7 | COM1 load cell | RA | |
2.2 | Voltage output | 10...30 V | Output voltage = input voltage |
2.3 | NOTE Voltage output supply C16i | 10...17 V | With input voltage > 17 V this output does not supply voltage |
2.4, 2.5 | Voltage output | GND | |
2.6 | COM1 load cell | CAN_low | CAN interface |
2.7 | COM1 load cell | CAN_high |
Electrical connections 25
DIS2116 HBM
5.9 RS232 interface (COM2)
COM2 computer interface for connection to a PC via SUB-D 9-pin socket
The SUB-D socket is assigned so that a standard RS-232 cable can be used.
1
2 RS232-TX
3 RS232-RX
4
5 0 V
6 7 8 9
5.10 RS232 interface (COM3)
COM3 printer interface for connection of a serial printer via SUB-D 9-pin socket.
The SUB-D socket is assigned so that a standard printer cable can be used.
1 ---
2 RS-232-TX
3 RS-232-RX
4 DSR (DTR from printer)
5 0 V
6 7 8 9
1 5
6 9
1 5
6 9
26 Electrical connections
HBM DIS2116
5.11 RS232 interface (COM4)
COM4 interface for connection of a second display via SUB-D 9-pin socket.
The SUB-D socket has the PC standard assignment.
1 ---
2 RS232-TX
3 RS232-RX
4 DSR (DTR from second display)
5 0 V
6 7 8 9
5.12 PS2 keyboard interface
PS/2
Input for connection of an external standard keyboard.
5.13 USB printer interface
USB host socket for connection of a printer.
5.14 Interface (COM5)
COM5 is set up as an optional interface for a fieldbus module.
The function and assignment is described together with the Anybus plug-in module.
1 5
6 9
Control and display functions 27
DIS2116 HBM
6 Control and display functions
6.1 Device view
The front of the DIS2116 consists of the following elements:
8 9
1
2
345 6 7
Fig. 6.1: DIS2116 front panel
1. Info line 1; configurable in the menu ”Display → Display line 1”
2. Info line 2; configurable in the menu ”Display → Display line 2”
3. Measurement status display
4. Measurement value display
5. Function line (meaning of function keys F1 ...F4)
6. Function keys F1 ... F4
7. Hidden pushbutton for access to the calibration menu. The pushbutton can be accessed
with a pointed object (when the label is removed). After calibration, the opening is sealed
with the enclosed adhesive label or, for legal-for-trade applications, with the calibration
label. Device calibration is protected during operation and can only be changed when this
pushbutton is actuated.
8. Inspection window for inserting a labeling strip (for scale type plate with calibration data,
device name, etc.).
9. Keyboard for entering numbers and letters
The connections for serial interfaces and the terminals for the connection cables are located on
the back of the device.
28 Control and display functions
HBM DIS2116
6.2 Operator controls
• Key = Open parameter menu
• Key = Cancel input, leave parameter menu without
accepting changes
• Key = Accept input or setting and quit dialog
• Keys F1...F4
F1
= The function of the keys is displayed by the text or
the symbols in the function line (Fig. 6.2) in the display
• Hidden pushbutton for access to the calibration menu (see Fig. 6.1).
6.3 Display
The display consists of the following elements:
Info line 1
Info line 2
Status line
Measured
value display
Function
line
Fig. 6.2: Display
Info line 1 and Info line 2
The content of Info lines 1 and 2 can be set by the user.
(Menu ”DISPLAY→ DISPLAY LINE1” or ”DISPLAY → DISPLAY LINE2”)
Control and display functions 29
DIS2116 HBM
Status line
The status line is divided into 6 horizontal segments. The following symbols or texts are
displayed, where applicable:
• WR1 ... WR3: Displays the currently valid weighing range.
WR is not shown with just one weighing range
• GROSS, NET, NET PT Indicates whether a gross measured value, net measured
value or a net measured value where a manual tare
is calculated, will be displayed
• >0< Displayed when the measured value is 0 ± 0.25d
(true zero).
• 1,2 Displays the overshoot of the set limit value 1
and / or 2
• OVFL Overflow is displayed when at least one load cell
or the entire scale is loaded with more than 160 %
of its maximum capacity
• x10 10-fold resolution switched on
Measurement display
• The weight value is displayed with ± 7 digits with decimal point
• The physical unit is displayed with max. 4 characters
Display illumination
The LCD backlighting is always on once the power is connected
Display contrast
The LCD display contrast can be set in the menu ”DISPLAY → CONTRAST” in 21 stages
from -10 to +10. The lowest contrast is -10 and the highest +10.
30 Basic scale functions
HBM DIS2116
7 Basic scale functions
All device functions can be controlled in one or more of the following ways:
• Front control with 19 short-stroke keys. With the function keys F1 ... F4, the meaning of
the keys is displayed in the display function line.
• An external keyboard which can be connected via the PS2 input
• Connecting an external computer via the COM2 serial interface
The main scale functions (Gross/Net, Taring, Zero setting) are controlled via the function
keys F1...F4. For calibration and further device settings a menu is called up with the key
(or F5 on the external keyboard) . Scale operation is not interrupted during parameter input,
right up to exiting the menu. When computer commands are used for control, measurement
generally continues without interruption. The exceptions to this are settling after filter
selection and power failsafe storage to the EEPROM.
7.1 Switching on and off
The device is switched on once the supply voltage is applied.
When the electronics are switched on, a BUS-SCAN is executed initially, i.e. a check is made
as to whether the load cells listed in the PARAMETER MENU - SCALE CONFIGURATION
are present.
During initial commissioning, all digital load cells have the same address 31 (factory setting).
The load cells must be configured, before a scale adjustment can be carried out.
With verified scales, a check is made as to whether the parameters in the load cells have
been changed. If the parameters in the load cells are no longer identical to those during
verification, an error message is displayed and no measured values.
Connected load cells that are not entered in the ”PARAMETER MENU → SCALE
CONFIGURATION” are not taken into account.
During the BUS-SCAN:
• Information line 1 displays an identification string consisting of the manufacturer, TYPE,
serial number and software version
• Information line 2 displays date and time
• Measured value status line displays the legal-for-trade counter status (TCR) and
whether the scale is legal for trade (LFT)
Zero is automatically set during initialization if this function is activated.
The actions carried out during initialization are displayed in clear text in the measured value
display and the initialization progress is shown by a moving bar.
The scale must not be loaded before it is switched on.
The device is switched off by disconnecting the supply voltage from DIS2116.
Basic scale functions 31
DIS2116 HBM
7.2 Zero setting the scale
Press the F4 key until the symbol >0< appears above the F3 key.
Press the F3 key to set the measurement value to zero.
The displayed gross value is zero immediately after zero setting.
MODE ³ LEGAL-FOR-TRADE | Range of zero setting, lower limit | Range of zero setting, upper limit |
NO (not legal for trade) | - 20 % | + 20 % |
OIML, NTEP | - 2 % | + 2 % |
The % figures relate to the nominal weighing range (parameter ”SCALE PARAMETERS →
PARAMETER → NOMINAL VALUE”)
Execution is dependent on standstill recognition (Chapter 7.9, page 35).
The net display is deactivated.
NOTE
Zero setting is only possible when the function in the ”PARAMETER MENU → FUNCTION
KEYS → ZERO SETTING” is set to ACTIVE.
32 Basic scale functions
HBM DIS2116
7.3 Gross/net selection
Press the F4 key until the symbol appears above the F2 key.
Every time the F2 key is pressed, the display changes between gross and net. When
selecting the net display, the last valid tare value is used again.
NOTE
Gross/net selection is only possible when the function in the ”PARAMETER MENU →
FUNCTION KEYS → GROSS/NET” is set to ACTIVE.
7.4 10-fold resolution
Press the F4 key until the display symbol x10 appears above the F2 key.
Every time the F2 key is pressed, 10x resolution is switched on/off. This mode can be used
for test purposes. The measured value is then displayed with a factor 10 higher resolution.
NOTE
10-fold resolution is only possible when the function in the ”PARAMETER MENU →
FUNCTION KEYS → 10-FOLD RESOLUTION” is set to ACTIVE. If the scale is set to
legal-for-trade OIML or NTEP, 10-fold resolution can only be switched on while the F2 key is
pressed. When F2 is released, 10-fold resolution is switched off after 5 s.
Basic scale functions 33
DIS2116 HBM
7.5 Taring
Press the F4 key until the symbol >T< appears above the F3 key.
Pressing the F3 key stores the current gross value and deducts it from all the subsequent
weight values. The displayed (net) value is zero immediately after taring. The tare value can
be permanently displayed in the measurement value display, the setting must be made in the
menu ”DISPLAY-DISPLAY-LINE1” or ”DISPLAY-DISPLAY-LINE2”. The tare value can be
read in the ”INFORMATION-TARE VALUE” menu item.
MODE ³ LEGAL-FOR-TRADE | Tare range, lower limit | Tare range, upper limit |
NO (not legal for trade) | -100 % | 100 % |
OIML, NTEP | >0 | 100 % |
The % figures relate to the nominal weighing range (parameter ”SCALE PARAMETERS →
PARAMETER → NOMINAL VALUE”)
Execution is dependent on standstill recognition (Chapter 7.9, page 35).
Taring with this key overwrites any manual tare value that may have been entered previously
(PT symbol is switched off).
Entering manual tare value
Pressing the F3 key for more than 2 s displays a window for input of a manual tare value.
Upon entry of a manual tare value, the net value plus manual tare is displayed (NET PT).
NOTE
Taring and entry of a manual tare value is only possible when the function in the
”PARAMETER MENU → FUNCTION KEYS → TARING” is set to ACTIVE.
7.6 Manual tare function
A manual tare value can be input in the parameter menu ”SCALE
PARAMETERS-PARAMETER-MANUAL TARE VALUE” and the calculation of the manual
tare value can be switched on/off in the parameter menu ”SCALE
PARAMETERS-PARAMETER-MANUAL TARE MODE”, (see Chapter 8.5.8. (page 50) and
13 (page 86)).
When the ”Manual tare” function is active, the net value is formed by deducting a fixed tare
value.
The ”G/N” key does not change the entered manual tare value.
The .PT. symbol in the display indicates that the net value has been formed by deducting the
manual tare value. This disappears after taring with the key F3 (”>T<”).
If the tare function was activated, it will also be activated once the device is switched back
on.
34 Basic scale functions
HBM DIS2116
7.7 Zero on start-up
If this function is activated (parameter menu ”SCALE PARAMETERS → PARAMETER →
ZERO ON START-UP”), the unloaded scale is automatically set to zero when the DIS2116 is
switched on (range of zero setting device ±2...20 %). This takes into consideration the set
standstill condition.
7.8 Error displays
The permissible display range depends on the nominal value of the scale and the set mode
of operation (not legal for trade / OIML / NTEP).
MODE ³ LEGAL-FOR-TRADE | Lower display limit | Upper display limit |
NO (not legal-for-trade) | -160 % | +160 % |
OIML | -2 % | Nominal value + 9 d |
NTEP | -2 % | Nominal value + 5 % |
The percentages relate to the nominal weighing range (”NOMINAL VALUE” parameter)
The following error message appears in the display when the measured value is
outside the maximum display range: -----------------
Other errors are displayed as a four-digit code with explanation
(e.g. ERROR!
CODE 5700
No standstill
No measured value acquired
They should not occur in normal operation (see also Chapter 20.2, page 108).
Basic scale functions 35
DIS2116 HBM
7.9 Standstill recognition
The zeroing, taring and printing functions are only executed if the value in the display is
stable. This is known as standstill and is indicated by showing the unit of measurement. The
condition for standstill is that the value changes by no more than a specific fluctuation limit
per time unit. With fluctuating (wind) loads or a very high scale resolution, it is quite possible
that standstill will never be achieved. In this case, a more strongly damping filter or a lower
resolution must be selected in the parameter setting.
The various options for standstill indication can be selected in the ”SCALE
PARAMETERS-PARAMETER → STANDSTILL MON.” menu, see also Chapter 8.5.11. (page
55).
It is also possible to switch off the standstill conditions (but not for legal-for-trade
applications). The unit is always displayed when standstill monitoring is switched off.
36 Parameter menu
HBM DIS2116
8 Parameter menu
8.1 Calling the parameter menu
There are several ways to activate the parameter menu:
• Press the key or
• Press the hidden pushbutton or
• Press the F5 key on an external keyboard
The difference is the access to the legal / scale adjustment parameters:
Pressing the hidden pushbutton gives access to the legal parameters of the first menu level
(”PARAMETER MENU - FUNCTION KEYS, MODE, SCALE CONFIGURATION, SCALE
PARAMETERS, OFF-CENTER LOAD COMPENSATION, FACTORY SETTINGS”),
otherwise these parameters are only displayed.
8.2 Disabling/enabling menu functions
The parameter menu has so-called access levels (0...5). This feature is used to enable or
disable user access to the parameters. Only those menu items that are enabled are
displayed.
Access to change parameters is defined in the ”PARAMETER MENU-MODE-ACCESS
LEVEL” menu. Access level 0 disables most menus,access level 5 enables all parameter
menus. The ”PARAMETER-MODE-ACCESS LEVEL” menu is protected by the hidden
pushbutton.
Parameter ACCESS LEVEL | Enabled access levels |
0 | 0 only |
1 | 0 and 1 |
2 | 0 to 2 |
3 | 0 to 3 |
4 | 0 to 4 |
5 | All |
Parameter menu 37
DIS2116 HBM
8.3 The main menu
To make things clearer, the parameters are grouped into several sub-menus, which can be
called from the main menu. It is also possible to print out the parameters here (only when the
printer interface is active). Certain parameters are not accessible in every mode of device
operation, or are read-only. To make adjustments for legal-for-trade devices, it is necessary
to actuate a hidden pushbutton, which is only accessible once the calibration or sealing label
has been removed.
The parameter menu contains the following items:
Access level | Main menu level | Explanation | Legal-for trade parame ter!) |
0 | INFORMATION | Information (Chap. 8.5.1) | - |
1 | Print (Chap. 8.5.2) | - | |
2 | LIMIT VALUE | Limit values (Chap. 8.5.3) | - |
4 | FILTER | Filter (Chap. 8.5.4) | - |
4 | COMMUNICA TION | Interface settings (Chap. 8.5.5.) | - |
3 | PRINT PROTOCOL | Print protocol settings (Chap. 8.5.6.) | - |
4 | CLOCK | Real time settings (Chap. 8.5.7.) | - |
4 | FUNCTION KEYS | Function key assignments (Chap. 8.5.8.) | Yes |
4 | DISPLAY | Setting the Info line 1 and 2 contents, contrast (Chap. 8.5.9.) | - |
0 | FUNCTION TEST | Test functions DIS2116 (Chap. 8.5.10.) | - |
0 | MODE | Basic scale functions (Chap. 8.5.11.) | Yes |
4 | SCALE CON FIGURATION | Segments, load cells (Chap. 8.5.12.) | Yes |
4 | SCALE PARAMETERS | Basic scale functions (Chap. 8.5.13.) | Yes |
5 | OFF-CENTER LOAD COMPEN SATION | Off-center load error compensation (Chap. 8.5.14.) | Yes |
5 | FACTORY SETTINGS | Reset to factory settings (Chap. 8.5.15.) | Yes |
1) Access only via hidden pushbutton
38 Parameter menu
HBM DIS2116
8.4 Navigation in the parameter menu
The parameter menu has three levels. The first two levels are used for structuring the menu.
Parameters are displayed and entered in the third level. All four keys (F1 - F4) are used for
navigation in the parameter menu.
8.4.1 Navigation via device keys
Key | Explanation |
Open parameter menu | |
Return to higher menu level or exit parameter menu | |
Go to sub-menu / change parameter (Enter) | |
F1 | F1 - F4 depending on displayed function |
The parameter menu is opened by pressing the key.
Level 1
The selected parameter block is indicated by a black bar.
The required parameter block is selected with the keys F2 or F3.
Use (Enter) to access the selected sub-menu. The sub-menu is then displayed in Info
line 1.
Level 2
Use keys F2, F3 to select the required sub-menu and open it with the key (Enter).
Info line 1 displays the path Menu 1 - Menu 2
(e.g. COMMUNICATION – LOAD CELLS (COM1)).
Navigate to the required parameter with the keys F2, F3 and confirm your entry with
(ENTER).
Level 3
The parameter is displayed and the current setting indicated with a black bar and a * behind
the set value.
Use the arrow keys F2, F3 to move the black bar to the new setting and confirm with
(ENTER).
The setting is applied and the sub-menu exited.
To cancel an entry without changing the parameter, leave the menu via the key.
Parameter menu 39
DIS2116 HBM
8.4.2 Navigation via external keyboard
The external keyboard is connected to the PS2 connector (Fig. 5-2)
Significance of the keys | |
External keyboard (PS2) | DIS2116 front panel |
F1 to F4 | F1 to F4 |
(Enter) | |
ESC | |
F5 |
The arrow keys can also be used for navigation.
Key F5 Open parameter menu
Select parameter (analogous to keys F2, F3)
Scroll to next level e.g. from level 1 to 2
Scroll back to next level e.g. from level 2 to 1 (analogous to )
40 Parameter menu
HBM DIS2116
8.5 Full menu structure
The description follows the main menu sequence (for the first level, see Chapter 8.3 (page 37)).
8.5.1 “INFORMATION” parameter menu
Access: Key, INFORMATION I (Enter)
Sub-menu explanation | |
INFORMATION | Access level 0 |
SCALE | The scale type plate is displayed |
TARE VALUE | The tare value with unit is displayed |
WEIGHING RESULT | The last weighing result recorded with Weighing 2 is displayed. The full display contains the following parameters: Vehicle number, goods, process, Weighing1, Weighing2, tare, result, date, time and print No. |
BUSSCAN | All digital load cells connected to the DIS2116 are displayed in ascending address order. The address, type, serial number, legal-for-trade and overload counters are displayed in one line for each load cell. The header displays, for the selected load cell: the manufacturer, TYPE, serial number and software version. |
ERROR LIST | The errors occurred are displayed with the error number, date, time, load cell address and frequency. |
SOFTWARE INFO | Software version of display incl. date and time of creation. |
GRAPHIC | OSCILLOSCOPE:Graphic display of measured values |
CENTER OF GRAVITY: Graphic center of gravity display, from 3 load cells upwards |
Parameter menu 41
DIS2116 HBM
8.5.2 “PRINT” parameter menu
The Print function is only accessible if COM3 is activated for printing.
Access: Key, PRINT I (Enter),
Sub-menu explanation | |
Access level 1 | |
MEASURED VALUE | “Measured value” Sub-menu (8.5.2.1) |
PARAMETER | “Print parameters” Sub-menu (8.5.2.2) |
8.5.2.1 “PRINT - MEASURED VALUE” parameter menu
Access: Key, PRINT I MEASURED VALUE (Enter)
Sub-menu explanation | |
Access level 1 | |
MEASURED VALUE | “Measured value” Sub-menu (8.5.2.1) |
None | No print protocol selected (8.5.2.2) |
Prt01 – MV(Act) | Print protocol selection. Printing is initiated via key F1, when the symbol is displayed. |
Prt02 – MV1 | |
Prt03 – MV2 | |
Prt04 – Total | |
Prt05 – Result |
The print function is described in Chapter 15 (page 96).
42 Parameter menu
HBM DIS2116
8.5.2.2 “PRINT - PARAMETERS” parameter menu
Access: Key, PRINT I PARAMETER (Enter)
Sub-menu explanation | |
PRINT - PARAMETERS | Access level 1 |
SCALE PARAMETERS | The adjustment parameters of the load cells are printed. |
DIS2116 PARAMETER | The settings of the DIS2116 display are printed. |
BUSSCAN RESULT | The results of the BUS SCAN are printed. |
The print function is described in Chapter 15 (page 96).
8.5.3 “LIMIT VALUES” parameter menu
Access: Key, LIMIT VALUE I (Enter)
Sub-menu explanation | |
LIMIT VALUES | Access level 2 |
LIMIT VALUE 1 | Limit value 1 setting |
LIMIT VALUE 2 | Limit value 2 setting |
Parameter menu 43
DIS2116 HBM
8.5.3.1 “LIMIT VALUES - LIMIT VALUE 1” parameter menu
Access: Key, LIMIT VALUES I LIMIT VALUE 1 (Enter)
Sub-menu explanation | |
LIMIT VALUES - LIMIT VALUE 1 | Access level 2 |
INPUT SIGNAL | Selection of input signal for limit value 1 |
OFF | Limit value 1 is switched off, no monitoring |
NET* | The net measured value is monitored |
GROSS | The gross measured value is monitored |
ACTIVATION LEVEL | The activation level is input as a weight value. If the input signal exceeds the activation level, the symbol for limit value 1 is displayed |
DEACTIVATION LEVEL | The deactivation level is input as a weight value. If the input signal undershoots the deactivation level, the limit value 1 symbol disappears |
* Factory settings
Input activation level > deactivation level
If the selected measured value (gross or net) exceeds the set limit value 1 (2), this is
displayed in the status line ( 1,2).
Input deactivation level > activation level
The limit value display ( 1,2) is displayed in the status line until the measured value
(gross, net) exceeds the set limit value 1 (2).
8.5.3.2 “LIMIT VALUES - LIMIT VALUE 2” parameter menu
Access: Key, LIMIT VALUES I LIMIT VALUE 2 (Enter)
The sequence for setting limit value 2 is identical to that for limit value 1,
Chap. 8.5.3.1).
44 Parameter menu
HBM DIS2116
8.5.4 “FILTER” parameter menu
Access: Key, FILTER I (Enter)
Sub-menu explanation | |
FILTER | Access level 4 |
FILTER MODE | Selection of filter characteristics (8.5.4.1) |
FILTER MODE | |
0-IIR2* | Standard filter IIR - 2nd order low-pass filter |
1–FIR32 | 3-stage fast-settling digital filters (FIR low-pass filters) |
2–IIR8 | IIR 8th order low-pass filters |
3–IIR4FT | Fast-settling digital filters (IIR 4th order low-pass filters) |
4-FIR64 | Fast-settling digital filters (FIR low-pass filters, settling time < 100 ms) |
LIMIT FREQUENCY | The limit frequency can be set in 11 steps. The appropriate limit frequencies (in Hz) can be found in the descriptions of the connected load cells (C16i, measurement chains; FMD, ASF commands). |
The filter characteristics are described in Chapter 9, page 65.
Parameter menu 45
DIS2116 HBM
8.5.5. “COMMUNICATION” parameter menu
Access: Key, COMMUNICATION I (Enter)
Sub-menu explanation | ||
COMMUNICATION | Access level 4 | |
LOAD CELLS (COM1) | BAUD RATE | 9.6K, 19.2K, 38.4K*, 57.6K, 115.2k |
2-WIRE COMM. | OFF: Full duplex Separate transmission reception lines 4-wire ON*: Half duplex Common trans mission and - recep tion line 2-wire | |
PC/PLC (COM2) | FUNCTION | OFF * Interface is inactive ON Interface is active |
BAUD RATE | Baud rate setting for processor communication: 1.2K, 2.4K, 4.8K, 9.6K *, 19.2K, 38.4K, 57.6K, 115.2K | |
PARITY | NONE*, EVEN, ODD | |
PRINTER (COM3) | FUNCTION | |
BAUDRATE (RS-232) | 1.2K...115.2K | |
PARITY (RS-232) | NONE*, EVEN, ODD |
OFF Interface is
inactive
ON * Serial
(RS-232) interface is active
ON USB interface-
(USB) is active
* Factory settings
46 Parameter menu
HBM DIS2116
“COMMUNICATION” parameter menu (continued)
PROTOCOL (RS-232) | DTR * Hardware handshake DC1 Software handshake | |
EXT.DISPLAY (COM4) | FUNCTION | OFF * Interface inactive String 1 String 2 see String 3 Chapter 15 String 4 String 5 |
STANDARD DISPLAY1) | - No microSYST MIGRA (numeric display) microSYST MIGAN ( graphic display) | |
PROTOCOL | OFF * No handshake DTR Hardware handshake DC1 Software handshake | |
BAUD RATE | 1.2K...115.2K | |
PARITY | NONE*,EVEN, ODD | |
START STRING LENGTH | 0* = No start string 1...15 = Number of characters for start string | |
Character 1... Character 15 | For start string length 0, input character for end string |
* Factory settings
Parameter menu 47
DIS2116 HBM
“COMMUNICATION” parameter menu (continued)
END STRING LENGTH | 0* = No end string 1...5 = Number of characters for end string |
Character 1... Character 5 | For end string length > 0, input character for end string |
CRC | |
DECIMAL POINT | POINT* COMMA |
PAUSE [10ms] | Time until display string is repeated |
MEASURED VALUE LENGTH | Number of measured value digits that can be displayed Standard (9 digits) 2...9 digits for the measured value |
OFF No checksum
ON * Checksum
OFF No decimal
point
* Factory settings
1 ) When connecting and selecting a standard display, the COM4 interface is automatically configured, no further settings are
required under EXT. DISPLAY (COM4). The technical data for the standard display can be found in the manufacturer’s
documents.
48 Parameter menu
HBM DIS2116
8.5.6. “PRINT PROTOCOL” parameter menu
Access: Key, PRINT PROTOCOL I (Enter)
Sub-menu explanation | |
PRINT PROTOCOL | Access level 3 |
PRINTOUT NUMBER | Consecutive number of printout |
USER-DEF. LINE 1 | A maximum of 32 text characters can be entered for printout in line 1. |
USER-DEF. LINE 2 | A maximum of 32 text characters can be entered for printout in line 2. |
USER-DEF. LINE 3 | A maximum of 32 text characters can be entered for printout in line 3. |
BLANK LINES ABOVE | 0 to 99 blank lines above the printout of USER DEFINED LINE 1 |
BLANK LINES BELOW | 0 to 99 blank lines below the printout of USER DEFINED LINE 3 |
SPACES | 0 to 99 spaces |
PAGE FEED | OFF* After printing, a page feed is not carried out. ON Page feed after printing |
ESCAPE1 (1st CHARACTER) to ESCAPE1 (5th CHARACTER) | Input of an ESCAPE sequence that consists of maximum 5 characters. The characters are entered as ASCII characters with their decimal value. |
ESCAPE2 (1st CHARACTER) to ESCAPE2 (5th CHARACTER) | Input of an ESCAPE sequence that consists of maximum 5 characters. The characters are entered as ASCII characters with their decimal value. |
* Factory settings
2 ESCAPE sequences can be entered with ESCAPE1 and ESCAPE2. Each ESCAPE
sequence consists of maximum 5 characters.
Parameter menu 49
DIS2116 HBM
8.5.7. “CLOCK” parameter menu
The date consists of xx.yy.zz (DAY/MONTH/YEAR). When entering the day or month, inputs
of 01 to 31 and 01 to 12 are permissible; if a number combination outside 01-31 and 01-12
is entered, the previous value is displayed again and the dialog cannot be exited. DAY,
MONTH and YEAR must always be entered with 2 digits.
The 24 hour or 12 hour mode can be selected for the time display.
Access: Key, CLOCK I (Enter)
Sub-menu explanation | ||
CLOCK | Access level 4 | |
DATE | DAY | The DAY is input with 2 digits from 01 to 31 |
MONTH | The MONTH is input with 2 digits from 01 to 12 | |
YEAR | The YEAR is input with 2 digits from 00 to 99 | |
TIME | MODE | |
MINUTES | Input 00...59 minutes | |
HOURS | In 24h mode: 00...23 In 12h mode: 00...12 Toggle with F1 AM/PM |
24h 24 hour mode
12h 12 hour mode
50 Parameter menu
HBM DIS2116
8.5.8. “FUNCTION KEYS” parameter menu
The meaning of the function keys is displayed in the function line. The function line is
changed with F4.
The applicable functions are enabled/disabled in the “Function keys” dialog.
Access: Key, FUNCTION KEYS I (Enter)
Sub-menu explanation | ||
FUNCTION KEYS | Access level 4 | |
ZEROING | INACTIVE | The zeroing function is not available in measuring mode |
ACTIVE* | In measuring mode, the function key F3 (level 3) is assigned with the zeroing function (>0<) | |
TARING | INACTIVE | The taring function is not available in measuring mode |
ACTIVE* | In measuring mode, the function key F3 (level 2) is assigned with the taring function (>T<) | |
GROSS/NET | INACTIVE | The toggle GROSS/NET function is not available in measuring mode |
ACTIVE* | In measuring mode, the function key F2 (level 2) is assigned with the Gross/Net function | |
10-FOLD RESOLUTION | INACTIVE* | The 10-fold resolution function is not available in measuring mode |
ACTIVE | In measuring mode, the function key F2 -(level 3) is assigned with the 10-fold resolution (x10) function | |
INACTIVE* | The print function is not available in measuring mode | |
ACTIVE | In measuring mode, the function key F2 (level 3) is assigned with the print function ( ) |
* Factory settings
Parameter menu 51
DIS2116 HBM
8.5.9. “DISPLAY” parameter menu
The contents of information lines 1 and 2 are set in the display dialog as is the display
contrast.
Information lines 1 and 2 are divided into 2 segments each, so that you can freely assign the
listed display content options for the information lines. A maximum of four information items
can be displayed.
The following information is available:
: Nothing is displayed in the selected segment
Scale ID: Manufacturer, TYPE, serial number and software version. To display
this information in full, both segments (left and right) of the
information line are required.
Information line left: Manufacturer and type
Information line right: Serial number and software version
Weighing 1 Weighing 2 Total TCR TRUCK GOODS ERROR TARE TARE PT Date/Time | Measured value of first measurement (ckeck-in scale) Measured value of second measurement (ckeck-out scale) Weighing result weighing2 - weighing1 LFT counter displays number of verification procedures Vehicle number plate Description of goods In the case of an error, the error number is displayed The current tared weight is displayed A manually entered tare value (Manual tare/Pre-tare) Current date with time |
Select the required entry with the keys F2, F3 and accept with
Access: Key, DISPLAY I (Enter)
Sub-menu explanation | ||
DISPLAY | Access level 4 | |
DISPLAY LINE 1 | LEFT | Display in the left half of the information line 1. |
RIGHT | Display in the right half of the information line 1. | |
DISPLAY LINE 2 | LEFT | Display in the left half of the information line 2. |
RIGHT | Display in the right half of the information line 2. | |
CONTRAST | -10 ... 0* ... +10 | The contrast can be adjusted in 21 steps from -10 to +10. |
* Factory settings
52 Parameter menu
HBM DIS2116
8.5.10. “FUNCTION TEST” parameter menu
In the “FUNCTION TEST” menu, the function of the interfaces, display, keys and the SD card
can be checked.
Access: Key, FUNCTION TEST I (Enter)
Sub-menu explanation | ||
FUNCTION TEST | Access level 4 | |
BUSSCAN | A search is made for all digital load cells connected to COM1. All located digital load cells are displayed with the address, serial number, TCR status, overload counter status. A load cell can be selected with the keys F2, F3. The line above the table displays the manufacturer, type, serial number and software version of the selected load cell. | |
LOAD CELL | LOAD CELL - ADDRESS | Enter the address of the load cell to be checked |
MEASURED VALUE | The measured value of the selected load cell is displayed in internal digits. If a non-existent address is selected, 9 star symbols are displayed instead of the measured value. | |
LOAD CELL TEST | Checking the selected load cell | |
SEGMENT | SEGMENT NUMBER | Enter the number 1 to 3 of the segment to be checked |
MEASURED VALUE | The measured values of all load cells in the selected segment, and the total measured value, are displayed in weight units. Only segments that are present can be selected. |
Parameter menu 53
DIS2116 HBM
“ FUNCTION TEST” parameter menu (continued)
COM1 | COM1 test | At COM1 (load cell interface) the capital letter U (0x55) is permanently output. If the transmission outputs TB and TA are connected to the inputs RB and RA, the transmitted character is received again and displayed. In COM1 test, the number of transmitted and received characters are displayed. No load cells must be connected at the interface when checking COM1. |
COM2 | COM2 test | The capital letter U (0x55) is permanently output at the selected interfaces COM2 (PC/PLC), COM3 (printer) and COM4 (second display). If the transmission output Tx is connected to the reception input Rx, the sent character is received again and displayed. The number of transmitted and/or received characters is displayed. |
COM3 | COM3 test | |
COM4 | COM4 test | |
SD CARD | SD test | The internal memory card is checked and the free memory displayed in Byte. |
54 Parameter menu
HBM DIS2116
“FUNCTION TEST” parameter menu (continued)
DISPLAY | Various patterns are displayed in the display field for the display test. | |
KEYS | Key test | The corresponding key code is displayed if the key is recognized when a key is pressed. The exception is the CE key, as pressing the CE key ends the KEY test. |
Parameter menu 55
DIS2116 HBM
8.5.11. “MODE” parameter menu
The following functions are set in the “MODE” menu:
LANGUAGE (see following table for explanation)
ACCESS LEVEL
The “ACCESS LEVEL” menu is used to specify which menus are still accessible to
the user (see right column in following table). If the DIS2116 is verified, the access
levels can only be changed via the hidden pushbutton. The access levels can be set
in 5 levels.
LEGAL-FOR-TRADE CAPABILITY (see following table for explanation)
Weights and measures regulation and class settings. If the DIS2116 is set to ”OIML,
NTEP”, this setting can only be changed via the hidden pushbutton.
ENCRYPTION (see following table for explanation)
OPERATING MODE (see following table for explanation)
Access: Key, MODE I (Enter)
Sub-menu explanation | ||
MODE | Access level 0 | |
LANGUAGE | ENGLISH | Menu texts and dialog in English |
DEUTSCH* | Menu texts and dialog in German | |
Menu texts and dialog in Russian | ||
FRANCAIS | Menu texts and dialog in French | |
ITALIANO | Menu texts and dialog in Italian | |
ESPANOL | Menu texts and dialog in Spanish | |
CATALA | Menu texts and dialog in Catalan | |
PORTUGUES | Menu texts and dialog in Portuguese | |
ACCESS LEVEL | 0 | Enabled menus: INFORMATION FUNCTION TEST MODE |
1 | Enabled menus: INFORMATION FUNCTION TEST MODE |
* Factory settings
56 Parameter menu
HBM DIS2116
“MODE” parameter menu (continued)
2 | Enabled menus: INFORMATION LIMIT VALUE FUNCTION TEST MODE | |
3 | Enabled menus: INFORMATION LIMIT VALUE PRINTER FUNCTION TEST MODE | |
4 | INFORMATION LIMIT VALUE FILTER COMMUNICATION PRINTER CLOCK FUNCTION KEYS DISPLAY FUNCTION TEST MODE | |
5* | All menus are accessible | |
LEGAL-FOR- TRADE CAPABILITY | NO* | Not legal for trade |
OIML III | ||
OIML IIII | Ordinary accuracy weighing machines up to 1000 d | |
NTEP III | ||
NTEP IIIL | US truck scales up to 10000 d | |
ENCRYPTION | OFF* | The measured values are transmitted unencrypted. |
ON | The measured values are transmitted encrypted. In verified operation, this setting can only be changed via the hidden pushbutton. | |
OPERATING MODE | Standard* | |
Vehicle | See Chap. 13, Vehicle scale. |
* Factory settings
Parameter menu 57
DIS2116 HBM
8.5.12. “SCALE CONFIGURATION” parameter menu
Access: Key, SCALE CONFIGURATION I (Enter)
Sub-menu explanation | ||
SCALE CONFIGURATION | Access level 4 | |
SEGMENT NUMBER | 1 segment* | Segment selection Each segment can contain up to eight load cells. |
2 segments | ||
3 segments | ||
SEGMENT 1 | NUMBER OF LOAD CELLS | Number of load cells used in segment 1. Selection: 1*, 3, 4, 6, 8 |
SERIAL NUMBER LC11 to LC18 | The load cell serial number must be entered for the selected load cell. The load cell with this serial number is assigned the applicable address. Example: Serial number LC11: 102345. The load cell with the serial number 102345 is assigned the address 11 | |
SEGMENT 2 The dialog SEGMENT 2 is only displayed when 2 segments are selected in the menu ”SEGMENT→NUMBER” | NUMBER OF LOAD CELLS | Number of load cells used in segment 2. Selection: 1*, 3, 4, 6, 8 |
SERIAL NUMBER LC21 to LC28 | Inputs as in Segment 1 Example: Serial number LC21: 102345. The load cell with the serial number 102345 is assigned the address 21 | |
SEGMENT 3 The dialog SEGMENT 3 is only displayed when 3 segments are selected in the menu ”SEGMENT→NUMBER” | NUMBER OF LOAD CELLS | Number of load cells used in segment 3. Selection: 1*, 3, 4, 6, 8 |
SERIAL NUMBER LC31 to LC38 | Inputs as in Segment 1 Example: Serial number LC31: 102345. The load cell with the serial number 102345 is assigned the address 31 | |
CONFIGURATION |
* Factory settings
58 Parameter menu
HBM DIS2116
8.5.13. “SCALE PARAMETERS” parameter menu
The following functions are set in the ”SCALE PARAMETERS → PARAMETER” menu:
MANUFACTURER | (see following table for explanation) |
IDENTIFICATION | (see following table for explanation) |
LOAD CELL MEASURING RATE | (see following table for explanation) |
UNIT | (see following table for explanation) |
The unit is displayed with the measured value and is also used for standstill check.
Visible unit of measurement means standstill.
DECIMAL POINT
x = no decimal place
x.x = one decimal place
x.xx = two decimal places, etc.
NOMINAL VALUE
The nominal value must be entered numerically correct with all places.
E.g. 50kg with 5000 divisions resolution input: 50.00 kg
MULTIRANGE 1
The measuring range is displayed with measured value status.
Example: 100.00 kg scale MULTIRANGE 1 50.00 kg
0...50 kg measuring range 1 resolution 10g >|1|<
50...100 kg measuring range 2 resolution 20g >|2|<
MULTIRANGE 2
The measuring range is displayed with measured value status.
Example. 100.00 kg scale MULTIRANGE 1 50.00 kg
MULTIRANGE 2 80.00 kg
0 ...50 kg measuring range 1 resolution 10g >|1|<
50...80 kg measuring range 2 resolution 20g >|2|<
80...100 kg measuring range 3 resolution 50g >|3|<
RESOLUTION
Increment input. The value determines the resolution of the last place(s)
E.g.: Nominal value = 50.00 kg = 5000d
Resolution = 1d Resolution = 2d Resolution = 5d | Total resolution = 5000d Total resolution = 2500d Total resolution = 1000d |
In multi-range scales, the increment is automatically increased when switching to the next range. The resolution for the first range must be input. E.g. 3-range scale, resolution set = 1d | |
Weight < MR 1 | Resolution 1d |
MR 1 < Weight < MR 2 Resolution 2d | |
Weight > MR 2 MR= Multi-range | Resolution 5d |
The settings made are also entered into the electronic type plate (”INFORMATION →
SCALE” Menu)
Parameter menu 59
DIS2116 HBM
ZERO TRACKING
The automatic zero tracking occurs for a gross or net measured value <0.5 d in the
range + 2 % of the nominal value of the scale. The maximum tracking speed is 0.5 d/s
when the scale is at standstill. Standstill recognition can be set in the Standstill monitoring
parameter . The unit d (digit) is equal to one verified scale division e.
ZERO ON START-UP
Zero on start-up means that, when the scale is switched on, a weight up to max. ±20 %
of the nominal value is set to zero once. In legal-for-trade applications, a max. of ±10 %
of the nominal value can be set to zero. Zero setting is only implemented at a standstill
and when the weight is within the specified range. Possible settings are OFF, ±2 %, ±5
%, ±10 % and ±20 % of the nominal value.
STANDSTILL MONITORING
Standstill check. Standstill means that the weight does not change by more than the
set value in one second. Standstill is indicated by the unit of measurement. If the
standstill condition is not met, the unit of measurement is not displayed. The setting
1d/s applies for a legal-for-trade scale.
The following settings are possible:
OFF Standstill monitoring is disabled, the display is always in the standstill
mode, the unit of measurement is permanently displayed.
0.25d/s Standstill is when the weight value does not change by more
than 0.25 d in one second.
0.5d/s | Standstill is when the weight value does not change by more than 0.5 d in one second. Standstill is when the weight value does not change by more than 1 d in one second. Standstill is when the weight value does not change by more than 2 d in one second. Standstill is when the weight value does not change by more than 3 d in one second. |
1d/s | |
2d/s | |
3d/s |
Example:
If a resolution of 1 g and standstill monitoring of 1 d/s is set, the standstill condition is met
when the weight value does not change by more than 1 g/s.
G-FACTOR CALIBRATION /APPLICATION
The g-factor setting is only required when the scale is calibrated at the production
site and operated at another place with this setting. If the scale is calibrated at the
installation site, both g-factors must be identical.
MANUAL TARE MODE/VALUE
Input of a known TARE value. The input TARE value is displayed as a manual tare
value with the symbol PT in the display. The display [Tare PT] must be activated for
this in ”DISPLAY→DISPLAY LINE 1(2)”.
60 Parameter menu
HBM DIS2116
Access: Key , SCALE PARAMETERS I (Enter)
Sub-menu explanation | ||
SCALE PARAMETERS Access level 4 | ||
PARAMETER | MANUFACTURER | Enter a manufacturer ID with max. 3 letters. This designation can be found in the scale ID. |
IDENTIFICATION | Enter a type designation or name with max. 15 characters. This designation can be found in the scale ID. | |
LOAD CELL MEASURING RATE | Standard* High speed1) | |
UNIT | Enter a unit of measurement with max. 4 letters. | |
DECIMAL POINT | Enter the number of decimal places. | |
NOMINAL VALUE | Enter the scale maximum capacity. The decimal point and unit must be set before. | |
MULTIRANGE 1 | Changeover point from measuring range 1 to measuring range 2. | |
MULTIRANGE 2 | Changeover point from measuring range 2 to measuring range 3. | |
RESOLUTION | 1d*; 2d; 5d; 10d; 20d; 50d; 100d; | |
ZERO TRACKING | OFF* ON | |
ZERO ON START-UP | OFF* 2 % 5 % 10 % 20 % |
* Factory settings
1) The current measuring ranges in measurements/sec can be found in the documentation of the load cells used
(measurement chains).
Parameter menu 61
DIS2116 HBM
“SCALE PARAMETERS” parameter menu (continued)
STANDSTILL MONITORING | OFF* 0.25 d 0.5 d 1 d 2 d 3 d | |
G-FACTOR CALIBRATION | Enter g (gravitational acceleration) at calibration location e.g. 98104 | |
G-FACTOR APPLICATION | Enter g (gravitational acceleration) at operating location e.g. 98109 | |
MANUAL TARE MODE | OFF* ON | |
INPUT CHARACTERISTIC CURVE | CALIBRATION WEIGHT | The calibration weight must be set to the maximum capacity. |
ZERO LOAD | Enter the value for the unloaded scale in internal digits. | |
MAXIMUM CAPACITY | Enter the value for the scale loaded with the maximum capacity. | |
MEASUREMENT CHARACTERISTIC CURVE | CALIBRATION WEIGHT | The calibration weight is entered in weight units. It should be min. 20% and max. 120% of the scale maximum capacity. An adjustment of up to 5% of the scale maximum capacity is also possible for non-legal-for-trade scales. It must be noted that the smaller the balancing weight is, the greater the error in the final value. |
62 Parameter menu
HBM DIS2116
“SCALE PARAMETERS” parameter menu (continued)
ZERO LOAD | The measured value for the unloaded load cell is displayed in internal digits. When the display is settled, the value is accepted with and the dialog exited. | |
MAXIMUM CAPACITY | The measured value for the load cell loaded with the calibration weight is displayed in internal digits. When the display is settled, the value is accepted with and the dialog exited. | |
LINEARIZATION | WEIGHT 1 | see Chap. 11 |
MEASURED VALUE 1 | ||
INPUT MEASURED VALUE 1 | ||
WEIGHT 2 | ||
MEASURED VALUE 2 | ||
INPUT MEASURED VALUE 2 | ||
LOAD CELL REPLACEMENT | LOAD CELL ADDRESS | Enter the address of the load cell to be replaced. |
NEW SERIAL NUMBER | Serial number of the new load cell. | |
UPLOAD PARAMETER | Initialization of the new load cell with the parameters of the replaced load cell. |
The parameters of the defective load cell are transferred to the new load cell. After a
defective load cell is replaced, a new adjustment is not necessary, but the new load cell must
be installed in the same manner as the replaced one.
Parameter menu 63
DIS2116 HBM
8.5.14. “OFF-CENTER LOAD COMPENSATION”
parameter menu
The scale is loaded at different points with a weight of 20 % (5 %) to 120 % of the nominal
value. Once this procedure is complete, the off-center load error is compensated and the
scale adjusted.
There are three methods for compensation of off-center load errors:
Example: Method for off-center load error compensation for a scale with 4 load cells
(addresses 11...13)
Access: Key, OFF-CENTER LOAD COMPENSATION I (Enter)
Sub-menu explanation | ||
OFF-CENTER LOAD COMPENSATION | Access level 5 | |
MEASURE | MODE | SIMPLE AVERAGE PRECISE |
CALIBRATION WEIGHT | Weight used for off-center load compensation. | |
SEGMENT 1 | Segment in which the off-center load compensation is made. The steps are explained in the Chapter “Off-center load compensation”. | |
INPUT SEGMENT 1 | CORRECTION VALUE | Numerical input |
The procedure for digital OFF-CENTER LOAD COMPENSATION is described in detail from
Chapter 10.6 onwards.
The entry of a correction value is described in Chapter 10.6.4, page 79.
64 Parameter menu
HBM DIS2116
8.5.15. “FACTORY SETTINGS” parameter menu
Access: Key, FACTORY SETTINGS I (Enter)
Sub-menu explanation | ||
FACTORY SETTINGS Access level 5 | ||
DIS2116 | Factory settings? YES NO | You are asked again Factory settings? YES (F2) The factory settings are restored, all data reset to factory settings. NO (F3) The Restore factory settings function is cancelled. |
LOAD CELLS | Reset load cells? YES NO | You are asked again Reset load cells? YES (F2) The factory settings are restored in all load cells connected to the DIS2116. NO (F3) The Restore factory settings function is cancelled. |
DATABASE | Delete yard list | You are asked again Delete yard list? YES (F2) All vehicles will be deleted from the yard list (list of accepted vehicles). NO (F3) The dialog is exited without deleting the yard list. |
Database repair | You are asked againStart repair? YES (F2) The database entries list will be restored. NO (F3) The dialog is exited. The function will not be carried out. |
Filter selection 65
DIS2116 HBM
9 Filter selection
The DIS2116 has five different filters. These can be selected via the ”FILTER-FILTER
MODE” parameter menu :
• Standard filter (IIR low-pass filter)
• Fast-settling filter (FIR low-pass filter)
• IIR 8th order low-pass filter
• Fast-settling digital filter (IIR 4th order low-pass filter)
• Fast-settling digital filter (FIR low-pass filter)
The filter limit frequency can be set in 10 steps (0...9). The settings are made in the
”FILTER-LIMIT FREQUENCY” parameter menu.
Setting 0 means that the filter is disabled.
The particular application determines which filter mode is selected.
A low bandwidth has a longer settling time and should be selected for greater accuracy.
Scale resolution (”NOMINAL VALUE” parameter) and standstill recognition are interlinked. If
standstill is not achieved, the filter bandwidth must be reduced.
NOTE
The filters are part of the load cells, their properties are described in the documentation
for the load cells (C16i, measurement chains). (Commands FMD, ASF, HSM).
66 Scale adjustment
HBM DIS2116
10 Scale adjustment
The scale is adjusted by setting the user characteristic curve on the DIS2116, that is to say,
the scale electronics adapt to the current output signals that the digital load cell(s) supplies
when the scale(s) is not loaded or at nominal weight. Calibration weights are usually required
for this, although the alternative is to input the measured values, if these are known.
The adjustment range depends on the maximum capacity of the load cells used. The factory
setting is a resolution of 10,000d for the maximum capacity of the scale, adjusted (factory
settings, see Chapter 8.5.12. (page 57).
Two methods are available to adjust a scale.
1. Scale adjustment by measuring the characteristic curve
This method is described in Chapter 10.2 to 10.5.
2. Scale adjustment with digital off-center load compensation
From a scale configuration with minimum 4 load cells, the scale adjustment
can also be implemented with digital off-center load compensation.
This method is described in Chapter 10.6.
10.1 Configuration of the load cells
During initial commissioning, all load cells have the same address (31), measured value
display is not possible, the display will show an initialization error [INIT ERROR].
Each load cell must be assigned its own address. This is possible with the aid of the load cell
serial number.
Proceed as follows:
• The parameter menu must be called via the hidden pushbutton
• ”SCALE CONFIGURATION” parameter menu
The addresses for the load cells must be assigned for each segment increasing clockwise
(e.g. in segment 1, start in one corner with the address 11).
NOTE
If the load cells have already been assigned individual addresses (e.g. with the AED panel),
measured values are displayed after switching on and you can start directly with scale
adjustment.
Scale adjustment 67
DIS2116 HBM
10.2 Prerequisites for scale adjustment
Before the scale can be adjusted, the nominal range of the scale and other parameters must
be set.
The prerequisites here are:
• The parameter menu must be called via the hidden pushbutton
• ”MODE-ACCESS LEVEL” parameter menu= 5 (access to all menus)
• ”MODE-LFT CAPABILITY” parameter menu = OFF (LFT application disabled)
• Set ”SCALE PARAMETERS-PARAMETER UNIT–DECIMAL POINT–NOMINAL
VALUE-RESOLUTION” parameter menu
• Set ”SCALE PARAMETERS-PARAMETER-G-FACTOR CALIBRAT” parameter menu to
the gravitational acceleration value of the adjustment location.
• ”SCALE PARAMETERS-PARAMETER-G-FACTOR APPLICATION” parameter menu =
G-FACTOR CALIBRAT.” (disable gravitational acceleration correction).
• Disable linearization in ”SCALE PARAMETERS- LINEARIZATION” parameter menu:
WEIGHT1 = WEIGHT2 = MEASURED VALUE1 = MEASURED VALUE2 = 0)
See Chapter 8.5.10. (page 52) and 8.5.11. (page 55).
68 Scale adjustment
HBM DIS2116
10.3 Scale adjustment with maximum capacity
(standard method, calibration weight = nominal value)
In most scale applications, the adjustment is made at two points, that is to say, when the
scale is not loaded and when a calibration weight is placed on it. Calibration is carried out as
follows:
1. Call up ”SCALE PARAMETERS” parameter menu
2. Check that the calibration weight is the same as the maximum capacity (calibration
weight = nominal value).
3. Go to the ”MEASUREMENT CHARACTERISTIC CURVE” (measurement) sub-menu.
4. Zero value:
• The scale is not loaded
• Call up ”ZERO LOAD” sub-menu
• The current measured value is displayed with internal resolution (the displayed value is
e.g. dependent on the number of load cells).
• Wait for a steady measurement display
• Press the ”ENTER” key to store the value.
5. Calibration weight:
• Place the calibration weight (= maximum scale capacity) onto the scale
• Call up sub-menu ”MAXIMUM CAPACITY”
• The current measured value is displayed with internal resolution.
• Wait for a steady measurement display
• Press the ”ENTER” key to store the value.
Use the ”CE” key to cancel at any time. This will reset the parameter that has just been
called (and this one only!) to its former value. The former value is only deleted after storing.
The two values are stored internally at high resolution (internal digits).
If the measurement display is too unsteady, reduce the filter bandwidth (Chapter 9, page 65)
The other parameters must then be set.
Scale adjustment 69
DIS2116 HBM
10.4 Scale adjustment with partial load
(calibration weight = 20 (5)... 120 % nominal value)
If there is no calibration weight corresponding to the maximum scale capacity available, a
partial calibration can be performed. The ”CALIBRATION WEIGHT” parameter must be set
to the value of the calibration weight used. This must be in the range of 5 %...120 % of the
maximum scale capacity. In LFT applications, the adjustment should be carried out with a
calibration weight of at least 20% of the scale maximum capacity. The calibration weight is
scaled like the display value (e.g. 2 kg = 2.000, with 3 decimal places).
Until a calibration has been performed, the calibration weight is the same as the nominal
value.
NOTE
Before calibration, the ”SCALE PARAMETERS → PARAMETER → NOMINAL VALUE”
parameter must be set to the maximum scale capacity!
Calibration is carried out as follows:
1. Call up ”SCALE PARAMETERS” menu
2. Go to the ”MEASUREMENT CHARACTERISTIC CURVE” (measurement) sub-menu.
3. Set the calibration weight [CALIBRATION WEIGHT].
4. Zero value:
• The scale is not loaded
• Call up ”ZERO LOAD” sub-menu
• The current measured value is displayed with internal resolution (the displayed value is
e.g. dependent on the number of load cells).
• Wait for a steady measurement display
• Press the ”ENTER” key to store the value.
5. Calibration weight:
• Place the calibration weight (= CALIBRATION WEIGHT) onto the scale.
• Call up ”MAXIMUM CAPACITY” sub-menu
• The current measured value is displayed with internal resolution.
• Wait for a steady measurement display
• Press the ”ENTER” key to store the value.
Use the ”CE” key to cancel at any time. This will reset the parameter that has just been called
(and this one only!) to its former value. The former value is only deleted after storing.
The two values are stored internally at high resolution (internal digits).
The other parameters must then be set.
If the measurement display is too unsteady, reduce the filter bandwidth (Chapter 9, page 65)
The other parameters must then be set.
70 Scale adjustment
HBM DIS2116
10.5 Adjustment without calibration weight
(computational adjustment)
If there is no calibration weight available, an adjustment can be performed by entering the
calculated values.
When scales have vast maximum capacities, it is often not possible to use calibration
weights for adjustment. The digital load cells (e.g. C16i) connected to the DIS2116 are
calibrated at the factory to output a measured value of 1,000,000 at maximum capacity.
The user characteristic curve can therefore be determined from the known nominal value of
the load cells. The zero value is defined by automatic measurement, but the nominal value is
defined by manual input.
All load cells connected to a scale must have the same maximum capacity.
Prerequisite:
• Off-center load compensation must be disabled (”OFF-CENTER LOAD →
COMPENSATION → MEASURING → SEGMENT1(2,3)” parameter menu
See Chapter 8.5.14., page 63.
1. Measuring the zero value of the characteristic curve when the scale is not loaded:
• Call up ”SCALE PARAMETERS” parameter menu
• Go to the ”MEASUREMENT CHARACTERISTIC CURVE” (measurement) sub-menu.
• Zero value:
• The scale is not loaded
• Call up ”ZERO LOAD” sub-menu
• The current measured value is displayed with internal resolution. (The displayed value
is e.g. dependent on the number of load cells).
• Wait for a steady measurement display
• Make a note of the measured value (mw0) for later input
2. Calculating the nominal value of the scale
The digital load cells (e.g. C16i) connected to the DIS2116 are calibrated at the factory to
output a measured value of 1,000,000 at maximum capacity. The nominal value of the scale
characteristic curve is composed of the zero value and the weighing range. As the zero value
has already been measured, it only remains to define the weighing range.
Weighing range = Load cell sensitivity [Digits] . | Scale maximum capacity Load cell maximum capacity |
The load cell sensitivity is 1,000,000 at load cell maximum capacity. The load cell maximum
capacity is stated on the load cell type plate. The following applies:
Scale maximum capacity < Load cell maximum capacity
The weighing range result is therefore a value in internal resolution (digits).
Scale adjustment 71
DIS2116 HBM
3. Input of characteristic curve
If you add the value for the weighing range to the previously measured zero value, you
obtain the nominal value of the scale (mw1). The characteristic curve can now be input:
• Call up ”SCALE PARAMETERS” parameter menu
• Go to the ”INPUT CHARACTERISTIC CURVE” sub-menu.
• ”CALIBRATION WEIGHT” menu . Enter the weight used for adjustment.
• Call up menu ”ZERO LOAD” and enter measured value for unloaded scale (mw0).
• Call up ”MAXIMUM CAPACITY” menu.
• Enter nominal value (mw1).
Scales with several load cells supply the nominal output signal (1000000 or the nominal
value entered under SCALE PARAMETERS-PARAMETER-NOMINAL VALUE), if the weight
applied is the maximum capacity.
NOTE
Adjustment in digits (internal resolution) does not achieve the same accuracy as adjustment
with calibration weights and must therefore only be used for applications where accuracy is
less.
72 Scale adjustment
HBM DIS2116
10.6 Adjustment with digital off-center load compensation
In this adjustment variant, both the characteristic curve is determined and the off-center load
error is compensated. A scale configuration with at least 4 load cells is required for digital
off-center load compensation. An adjustment with off-center load compensation is only
successful when the load cells in the segments 1...3 are arranged with clockwise ascending
addresses (see illustrations on adjustment modes).
The following settings were made:
10.1 Configuration of load cells
10.2 Prerequisites for scale adjustment:
• Call up “OFF-CENTER LOAD COMPENSATION” parameter menu
• Call up menu ”MEASUREMENT”.
• In the “MODE” menu, select an adjustment variant Simple – Average – Precise
• In the “CALIBRATION WEIGHT” menu, enter the weight value used for adjustment.
The calibration weight is entered as the weight in weight units used for off-center load
compensation. The balancing weight should be min. 20 % and max. 120 % of the scale
maximum capacity. An adjustment of up to 5 % of the scale maximum capacity is also
possible for non-legal-for-trade scales.
It must be noted that the smaller the balancing weight is, the greater the error in the final
value.
• In SEGMENT 1, measure the weight values as specified and accept with F1. If the scale
consists of more than one segment, the adjustment procedure for segments 2 and 3 is
identical to that for segment 1.
There are three adjustment modes for off-center load compensation (simple - average -
precise) These are described below.
NOTE
In the AVERAGE and PRECISE adjustment variants, the adjustment dialog indicates the
point (corner) of the segment that has to be loaded. If the load is not applied to the indicated
point, the measured value display of the loaded point (corner) flashes.
Remedy: Apply weight to indicated point.
Scale adjustment 73
DIS2116 HBM
10.6.1 Off-center load compensationmode “SIMPLE”
Address 11
Address 14 Address 13
Address 12 The scale is loaded in the center. The measured values of
all participating load cells are acquired for the unloaded
scale and the scale loaded with the balancing weight. The
off-center load error is compensated using the measured
values of the participating load cells.
Load in center of the
scale platform
Fig.: Segment 1 with four load cells
LC CALIBRATION (SIMPLE) : SEGMENT 1 |
Measured value ADR 11 Measured value ADR12 |
CHARACTERISTIC CURVE WILL BE RESET ! |
Measured value ADR 14 Measured value ADR13 |
START |
F1 F2 F3 F4
Display illustration: SIMPLE adjustment with 4 load cells ADR11 - ADR14 current value
The 4 load cells with the addresses 11...14 display the measured values of the respective
load cells above the address.
Use the F1 key (START) to clear a previous adjustment, the dialog continues with the
“UNLOADED SCALE” window. The scale should be unloaded now. The four load cells with
the addresses 11...14 disply the measured values of the respective load cells for the
unloaded scale above the address.
Use the CE key to quit the dialog without clearing the previous adjustment.
LC CALIBRATION (SIMPLE) : SEGMENT 1 |
Measured value ADR 11 Measured value ADR12 |
UNLOADED SCALE |
Measured value ADR 14 Measured value ADR13 |
ZERO |
F1 F2 F3 F4
Display illustration: SIMPLE adjustment with 4 load cells ADR11 - ADR14 zero value
74 Scale adjustment
HBM DIS2116
The four load cells with the addresses 11 ... 14 display, the measured values of the
corresponding load cells for the unloaded scale above the addresses.
The measured values are accepted with the F1 key (ZERO) when the display is still.
CALIBRATION WEIGHT (Balancing weight)
LC CALIBRATION (SIMPLE) : SEGMENT 1 |
Measured value ADR 11 Measured value ADR12 |
5.000 |
Measured value ADR 14 Measured value ADR13 |
LOAD |
F1 F2 F3 F4
Display illustration: Simple adjustment with 4 load cells ADR11 - ADR14 load value
The selected balancing weight is displayed in the center. The scale has to be loaded with the
calibration weight at the indicated place. The load cells display the measured value of the
load cell above the address for the scale loaded with the balancing weight. The measured
values are accepted with the F1 key when the display is still.
The set scale characteristic curve is calculated. The message ”Completed successfully!”
appears in the display. This message must be acknowledged with the F4 key.
The off-center load compensation in SIMPLE mode is then complete.
Scale adjustment 75
DIS2116 HBM
10.6.2 Off-center load compensationmode “AVERAGE”
Address 11 Address 12 1st load 2nd load |
Address 14 Address 13 |
Mode: AVERAGE
The scale is loaded each time with the calibration weight
in the center between two neighboring load cells. Three
measured values are recorded for a platform scale with 4
load cells.
Unloaded scale
1. Calibration weight between load cell 11 and 14
2. Calibration weight between load cell 12 and 13
Fig.: Segment 1 with four The load location is displayed in the adjustment menu.
load cells
LC CALIBRATION (AVERAGE) : SEGMENT 1 |
Measured value ADR 11 Measured value ADR12 |
CHARACTERISTIC CURVE WILL BE RESET ! |
Measured value ADR 14 Measured value ADR13 |
START |
F1 F2 F3 F4
Display illustration: AVERAGE adjustment with 4 load cells ADR11 - ADR14 current value
The 4 load cells with the addresses 11...14 display the measured values of the respective
load cells above the address.
Use the F1 key (START) to clear a previous adjustment, the dialog continues with the
“UNLOADED SCALE” window. The scale should be unloaded now. The four load cells with
the addresses 11...14 disply the measured values of the respective load cells for the
unloaded scale above the address.
Use the CE key to quit the dialog without clearing the previous adjustment.
LC CALIBRATION (AVERAGE) : SEGMENT 1 |
Measured value ADR 11 Measured value ADR12 |
UNLOADED SCALE |
Measured value ADR 14 Measured value ADR13 |
ZERO |
F1 F2 F3 F4
Illustration:AVERAGE adjustment with 4 load cells ADR11 - ADR14 zero value
The four load cells with the addresses 11 ... 14 display, the measured values of the
corresponding load cells for the unloaded scale above the addresses.
The measured values are accepted with the F1 key (ZERO).
76 Scale adjustment
HBM DIS2116
CALIBRATION WEIGHT (Balancing weight)
LC CALIBRATION (AVERAGE): SEGMENT 1 |
Measured value ADR 11 Measured value ADR12 |
5.000 |
Measured value ADR 14 Measured value ADR 13 |
LOAD 1 |
F1 F2 F3 F4
Display illustration: AVERAGE adjustment with 4 load cells ADR11 - ADR14 load value
The balancing weight with the black background indicates where the scale must be loaded
with the calibration weight (in the center between ADR11 and ADR14). The measured values
are accepted with the F1 key (LOAD 1).
The balancing weight is then displayed between ADR12 and ADR13, the scale must be
loaded there with the balancing weight. LOAD 2 is displayed above the F1 key. The
measured values for this loading point are accepted with F1.
The set scale characteristic curve is calculated. The message ”Completed successfully!”
appears in the display. This message must be acknowledged with the F4 key.
The off-center load compensation in AVERAGE mode is then complete.
Scale adjustment 77
DIS2116 HBM
10.6.3 Off-center load compensation mode “PRECISE”
Address 11
Address 14 Address 13
Address 12
1st load 2nd load
4th load 3rd load
Mode: PRECISE
In the adjustment mode “PRECISE”, each load cell is
loaded with the calibration weight. Five measured values
are acquired for a platform scale with 4 load cells.
Unloaded scale
1. Calibration weight on load cell 11
2. Calibration weight on load cell 12
3. Calibration weight on load cell 13
4. Calibration weight on load cell 14
The load location is displayed in the adjustment menu.
Fig.: Segment 1 with
four load cells
LC CALIBRATION (PECISE) : SEGMENT 1 |
Measured value ADR 11 Measured value ADR12 |
CHARACTERISTIC CURVE WILL BE RESET ! |
Measured value ADR 14 Measured value ADR13 |
START |
F1 F2 F3 F4
Display illustration: PRECISE adjustment with 4 load cells ADR11 - ADR14 current value
The 4 load cells with the addresses 11...14 display the measured values of the respective
load cells above the address.
Use the F1 key (START) to clear a previous adjustment, the dialog continues with the
“UNLOADED SCALE” window. The scale should be unloaded now. The four load cells with
the addresses 11...14 disply the measured values of the respective load cells for the
unloaded scale above the address.
Use the CE key to quit the dialog without clearing the previous adjustment.
LC CALIBRATION (PRECISE) : SEGMENT 1 |
Measured value ADR 11 Measured value ADR12 |
UNLOADED SCALE |
Measured value ADR 14 Measured value ADR13 |
ZERO |
F1 F2 F3 F4
Display illustration: PRECISE adjustment with 4 load cells ADR11 - ADR14 zero value
The four load cells with the addresses 11 ... 14 indicate the measured values for the
unloaded scale. The measured values of the corresponding load cells are displayed above
the addresses. The measured values are accepted with the F1 key (ZERO).
78 Scale adjustment
HBM DIS2116
CALIBRATION WEIGHT (Balancing weight)
LC CALIBRATION (PRECISE) : SEGMENT 1 |
Measured value ADR 11 Measured value ADR12 |
°5.000 |
Measured value ADR 14 Measured value ADR13 |
LOAD 1 |
F1 F2 F3 F4
Display illustration: PRECISE adjustment with 4 load cells ADR11 - ADR14 load value
The balancing weight with the black background indicates which load cell must be loaded
with the calibration weight. The measured value is accepted with the F1 key (LOAD 1).
The next load cell to be loaded is displayed as ADR12 and the measured value is accepted
with F1 (LOAD 2).
Then load ADR13 and accept the measured values with F1 (LOAD 3);
finally load ADR14 and accept measured values with F1 (LOAD 4).
The set scale characteristic curve is calculated. The message ”Completed successfully!” appears
in the display. This message must be acknowledged with the F4 key.
The off-center load compensation in PRECISE mode is then complete.
Scale adjustment 79
DIS2116 HBM
10.6.4 Off-center load compensation mode “INPUT”
• Call up “OFF-CENTER LOAD COMPENSATION” parameter menu
• Call up “INPUT SEGMENT 1(2,3)” menu
Segments 2 and 3 are only displayed when 2 or 3 is set in the menu SCALE
CONFIGURATION-SEGMENT-NUMBER.
A scale configuration with at least 4 load cells is required for digital off-center load
compensation.
The load cells belonging to the selected segment are displayed with their addresses.
(E.g. Segment 1 with 4 load cells? Display correction value 11... 14)
To input the correction values, proceed as follows:
1. Display measured value display (exit parameter menu).
2. Load the four corners consecutively with a known weight. Note the weight values.
3. Note the deviation between displayed weight and known weight.
4. Calculate, for each corner, the compensating value based on the scale maximum
capacity using the formula
Maximum capacity/known weight * measured deviation.
5. Enter the calculated values for the individual load cells in the parameter menu
OFF-CENTER LOAD COMPENSATION / INPUT SEGMENT 1.
6. Check the deviations in the measured value display and adjust where necessary.
Example:
The scale consists of one segment (segment 1)/ The scale maximum capacity is 100 kg
(display = 100.00 kg), the known balancing weight is 25 kg. At corner 11, the weight is
displayed at 24.90 kg
Calculate the deviation: 24.90kg – 25.00kg = -0.10kg (displayed weight – balancing weight)
Convert deviation using nominal value (100.00 kg) = 100.00/25.00* (-0.10) = -40 kg
Input -0.40 kg into parameter menu OFF-CENTER LOAD COMPENSATION CORRECTION
VALUE 11.
Proceed in the same way for correction values 12, 13 and 14.
After input check the corners again and repeat the inputs if necessary.
80 Scale adjustment
HBM DIS2116
10.7 Multi-range scale
The DIS2116 can be operated as a single-range or multi-range scale.
Two parameters are available in the parameter menu ”SCALE
PARAMETERS-PARAMETER”: MULTIRANGE1 and MULTIRANGE2. The weighing range
(NOMINAL VALUE) must be set before this setting.
Scale type | Parameters |
Single-range scale | MULTIRANGE1 = MULTIRANGE2 = 0 |
Dual-range scale | 0 < MULTIRANGE1 < NOMINAL VALUE and MULTIRANGE2 = 0 |
Three-range scale | 0 < MULTIRANGE1 < MULTIRANGE2 < NOMINAL VALUE |
The increment for the second/third weighing range is automatically derived from the
”RESOLUTION” parameter, whereby this parameter always describes the increment of the
first measuring range:
Example:
”RESOLUTION” = 1 d Increment range 2 = 2 d Increment range 3 = 5 d
10.8 Taking gravitational acceleration into account
The gravitational acceleration and thus the scale display, is dependent on the geographical
data of the installation location. The maximum variation between the different regions within
the Federal Republic of Germany is 0.1%; worldwide, this is 0.6%.
The function described below allows adjustment to take place on the scale manufacturer’s
premises, even if the device is to be operated at a different geographical location.
If the fault effect at the new installation location exceeds the scale accuracy limits, it is usually
necessary to re-adjust. But instead of this, it is also possible to use an internal correction function
in the DIS2116 to compensate for the effect of the installation location.
To do this, input the following in the ”SCALE PARAMETERS → PARAMETER menu, (access
authorization required!):
• G-FACTOR CALIBRATION = gravitational acceleration factor for the calibration location
• G-FACTOR APPLICATION = gravitational acceleration factor for the destination location
(where the scale is used)
This must be input after scale adjustment.
With the setting G-FACTOR CALIBRATION = G-FACTOR APPLICATION, the correction
calculation can be disabled. The display is then always related to the location of the last
calibration.
NOTE
This setting is not required if the scale is adjusted in situ!
Linearization 81
DIS2116 HBM
11 Linearization
For most scale applications, standard adjustment with the zero and full scale values
(”INPUT” or ”MEAS”) is sufficient. The signal only needs to be linearized (”LINEARIZATION”)
if unacceptable errors occur with this method. Linearization corrects errors when scale
structures have an output signal that is not proportional to the weight (e.g. because there are
mechanical transmission elements).
Correction selection via the menu ”SCALE PARAMETERS → LINEARIZATION:
Calibration steps | Zero value, full scale value1) | Two additional calibration weights | Two additional calibration weights |
Recom mended for: | Standard application | Structures with a linearity error | Structures with a linearity error |
Possible to correct the following errors: | Error proportional to the measured value | One maximum of the er ror char. curve | Two maximums of the error char. curve |
Example: (Scale out put signal error, as per OIML) |
1) Zero and full scale value adjustment is already described in Chapter 10.
For the linearization method, proceed as follows:
• Set the scale parameters
• Calibrate the scale at two points (zero and calibration weight) or via off-center load
calibration (Chapter 10 (page 66)
• Measure the linearity error in the weighing range with two additional calibration weights
NOTE
Correction is only possible when performing measurements. Input only makes sense when
the linearity adjustment has been implemented and the determined values are reset for test
purposes and now need to be input again.
Linearization always takes place at two measurement points (current values). First establish
whether the error characteristic curve has one or two maximums (see above).
If the error characteristic curve has one maximum, the first measurement point is put at
about 500 d = e (the narrowest part of the error characteristic curve). The second
measurement point is put at the maximum of the error characteristic curve.
If the error characteristic curve has two maximums, the first measurement point is put at the
first maximum. The second measurement point is put at the second maximum of the error
characteristic curve.
82 Linearization
HBM DIS2116
The table below shows an extract from the parameter menu:
SCALE PARAMETERS-LINEARIZATION Access level 4 | |
WEIGHT 1 | Setpoint input for measurement point 1 |
MEASURED VALUE1 | The measured value of the scale loaded with weight 1 is displayed and accepted with Enter. |
INPUT MEASURED VALUE 1 | If the measured value for weight 1 is known, it can be input again here. |
WEIGHT 2 | Setpoint input for measurement point 2 |
MEASURED VALUE 2 | The measured value of the scale loaded with weight 2 is displayed and accepted with Enter. |
INPUT MEASURED VALUE 2 | If the measured value for weight 2 is known, it can be input again here. |
Procedure for adjustment:
• The scale is already adjusted in its weighing range
• Any linearization present is disabled
(weight 1 = weight 2 = measured value 1 = measured value 2 = 0))
• Call up ”Weight 1” sub-menu
• Input the value for calibration weight 1
• Load the scale with calibration weight 1
• Call up the ”Measured value 1” sub-menu , the measured value is displayed with internal
resolution
• Wait until measured value display is still
• Press ”Enter” to store the value (the first value pair is recorded)
• Call up ”Weight 2” sub-menu
• Input the value for calibration weight 2
• Load the scale with calibration weight 2
• Call up the ”Measured value 2” sub-menu, the measured value is displayed with internal
resolution
• Wait until measured value display is still
• Press the ”Enter” key to store the value.
After input and measurement of both interpolation points, the linearization coefficient is
calculated. The characteristic curve is linearized.
Legal-for-trade applications 83
DIS2116 HBM
12 Legal-for-trade applications
Once the scale parameters have been set and the scale adjusted in the ”SCALE
PARAMETERS” menu, the DIS2116 must be set to legal-for-trade applications (OIML or
NTEP) using the parameter menu ”Mode → LFT capability”. This protects the legal-for-trade
parameters in the DIS2116 and load cells against further change and the legal-for-trade
counter, which cannot be reset, increases by one. The max. counting volume of the
legal-for-trade counter is 9 999 999. The counter has no overflow and is not resetable.
Legal-for-trade counter (TCR) display:
There are two methods for TCR display:
1. Permanently in INFO line 1 or 2 (select parameter menu DISPLAY-DISPLAY LINE 1 or
DISPLAY-DISPLAY LINE 2 TCR)
2. In the scale label (key F1 when “i” is displayed in the function line, switch function line
with F4)
TCR stands for ”Trade Counter” .
NOTE
The DIS2116 does not check whether the parameter settings made are valid under OIML
R76 or NTEP!
Before leaving the ”MODE” menu, the parameter access authorization parameter menu
”MODE-ACCESS LEVEL” must be appropriately set.
ACCESS Parameter:
The various menu levels have so-called access authorizations. The “MODE → ACCESS
LEVEL” parameter is used to define the access for changing parameters. The level with the
most restrictions is zero. This feature is used to restrict user access to these parameters.
The ”MODE → ACCESS LEVEL” parameter is protected by the hidden pushbutton. The
applicable access level is given for each parameter in the parameter description.
ACCESS parameter | Enabled access levels |
0 | 0 only |
1 | 0 and 1 |
2 | 0 to 2 |
3 | 0 to 3 |
4 | 0 to 4 |
5 | All, HBM setting |
84 Legal-for-trade applications
HBM DIS2116
LFT parameters in the main menu:
Access level | Main menu level | Explanation | Legal-for trade parameters!) |
0 | INFORMATION | Information | - |
1 | Printing | - | |
2 | LIMIT VALUES | Limit values | - |
4 | FILTER | Filter | - |
4 | COMMUNICAT ION | Interface settings | - |
3 | PRINT PROTOCOL | Print protocol settings | - |
4 | CLOCK | Real-time setting | - |
4 | FUNCTION KEYS | Function key assignments | Yes |
4 | DISPLAY | Setting Info line 1 and 2 contents, contrast | - |
0 | FUNCTION TEST | DIS2116 test functions | - |
0 | MODE | Basic scale functions | Yes |
5 | SCALE CONFIGURA TION | Segments, load cells | Yes |
5 | SCALE PARAMETERS | Basic scale functions | Yes |
5 | OFF-CENTER LOAD COM PENSATION | Off-center load error compensation | Yes |
5 | FACTORY SETTINGS | Restores the factory settings | Yes |
!) Access only via hidden pushbutton
When you now exit the ”MODE” parameter menu , all the legal-for-trade parameters are
protected (display only, changes cannot be made).
The legal-for-trade counter can be read in the ”INFORMATION → SCALE” menu (Chapter
8.5.1, page ).
Fill out the supplied insertion strip in accordance with the set application and insert in the
front foil. Attach the calibration label to then secure the hidden switch and the insertion strip.
The calibration label is applied according to the applicable national regulations.
The parameter menu can now only be called up via the key.
Legal-for-trade applications 85
DIS2116 HBM
If the scale has to be re-adjusted or new parameters have to be set that are relevant to
calibration, proceed as follows:
• Remove the calibration label and the insertion strip
• Call the parameter menu via the hidden key
• Change the ”MODE → LFT CAPABILITY” parameter to NO
• The ”MODE → ACCESS LEVEL” parameter must be set to five.
Setting the parameter to legal-for-trade applications produces the following display
and tare ranges:
MODE ³ LEGAL-FOR-TRADE | Display, lower limit value | Display, upper limit value |
NO (not legal-for-trade) | -160 % | 160 % |
OIML | -2 % | Nominal value + 9 d |
NTEP | -2 % | 105 % |
MODE ³ LEGAL-FOR-TRADE | Tare range, lower limit | Tare range, upper limit |
NO (not legal-for-trade) | -100 % | 100 % |
OIML, NTEP | >0 | 100 % |
MODE ³ LEGAL-FOR-TRADE | Range of zero setting, lower limit | Range of zero setting, upper limit |
NO (not legal-for-trade) | - 20 % | + 20 % |
OIML, NTEP | - 2 % | + 2 % |
The % figures relate to the nominal weighing range ( ”SCALE PARAMETERS →
PARAMETER →NOMINAL VALUE” menu).
The scale electronics must be labeled and sealed in accordance with the scale application.
Different labeling strips are included for use as a Class III and IIII non-automatic scale. The
labeling strip must contain at least the following data:
Max Maximum scale loading
Min Minimum scale loading
e Increment
Type Name of scale
S.N. Individual serial number of scale
In the case of legal-for-trade scales, verification must be performed by a notified body, in
accordance with current national laws. The sealing and calibration labels must be attached in
accordance with the approval.
86 Vehicle scale
HBM DIS2116
13 Vehicle scale
In the “VEHICLE SCALE” operating mode, all functions required for weighing vehicles are
activated.
• Additional vehicle weighing functions on keys ”F1” to ”F4”
• Database for storage of vehicle data, material, procedure. Max. 65.000 vehicles can be
stored.
• ”Yard list” for vehicles checked in with Weighing1 but which have not yet checked out
(Weighing2). The “yard list” includes max. 50 vehicles.
• Functions for creating and editing vehicle data
• Storage of weighing results with Weighing1(2), tare, vehicle data, date and time
13.1 Activate “VEHICLE SCALE” operating mode
Access: Key, MODE I OPERATING MODE (Enter)
Sub-menu explanation | |
OPERATING MODE | Standard* |
Vehicle | Activate “vehicle” operating mode |
If the DIS2116 has been set to legal-for-trade applications (OIML, NTEP), the operating
mode cannot be changed.
When the DIS2116 is set to vehicle scale with ”MODE-OPERATING MODE-VEHICLE”, the
F1 to F4 function keys are assigned additional functions for vehicle weighing. The
assignment of keys F1 to F4 for vehicle weighing are displayed in the measured value
display function line by pressing F4 several times.
In the vehicle scale setting, there are three switchable function lines which can be selected
with the F4 key.
Function line for vehicle weighing
F1 + Database | F2 →] Vehicle list | F3 [→ Yard list | F4 ↓ Level 1 Scroll to Level 2 |
Vehicle scale 87
DIS2116 HBM
13.2 Edit database
Press F4 until this function line appears
+ | →] | [→ | ↓ | Function line |
F1 | F2 | F3 | F4 | Keys |
Database Vehicle list Check-in Yard list Check-out Scroll to Level 2 |
The vehicle list is selected by pressing F1.
Note: Each time F1 is pressed, the mode switches between Edit database and Vehicle
selection.
Vehicle list: The following window appears on the screen:
Display illustration: Vehicle list
Truck list - total | |||
Search: | |||
Truck | Goods | Procedure | Date |
F-RA 123 ..... | Gravel .... | Pickup .... | 10.09.08 |
o | x | ||
F1 | F2 | F3 | F4 |
A maximum of 10 characters can be entered in the columns Truck, Goods and Procedure.
The date cannot be entered, the last date on which the vehicle data was edited is displayed.
• Vehicle search
There are two ways to search for a vehicle in the Truck list:
1. Search with keys ±(F2) °(F3)
The F2 key is used to search the entries in the “Truck” column alphabetically from AZ and
F3 key from ZA. The applicable vehicle is indicated by a black bar.
2. Search using text
Use the keyboard to enter the number plate of the vehicle being sought. The search starts with
the first character entered. The first number plate that starts with this character is now displayed in
the first line under ”Truck” and is marked by a black bar. The search is refined with every
additional character that is entered.
If there is no vehicle that starts with the entered letter, the next vehicle is shown that starts
alphabetically with the letter after that entered.
The search text can be deleted with the F4 key (x). The vehicle display changes to match
the remaining search text. If the search text is completely deleted, the first vehicle in the list
is displayed alphabetically.
directly opens the editor window of the selected vehicle, see Editing vehicle data.
88 Vehicle scale
HBM DIS2116
13.2.1 Editing vehicle data
The F1 ↵ key switches the function line mode between “Find vehicle” and “Edit vehicle”.
Display illustration: “Edit vehicle data” function line
+ | 3/ | x | 0 |
Press the F2 key to open the editor window for the selected vehicle (marked with a black
bar).
Display illustration: Editor window
Truck list 3/
Truck :F-RA 123 J
Goods :Gravel
Procedure :Pickup
Emptyw. :10.000 t
Max. weight :15.000 t
Min. weight :10.100 t
² | ³ | x |
F1 moves the cursor to the required line
F2 moves the cursor left, F3 right
F4 deletes the line character by character from the right
The unit cannot be deleted, it corresponds to the unit set in the parameter menu ”SCALE
PARAMETERS-PARAMETER”.
13.2.2 x Delete vehicle
The F1 ↵ key switches the function line mode between “Find vehicle” and “Edit vehicle”.
+ | 3/ | x | 0 |
F1 | F2 | F3 | F4 |
Display illustration: Edit vehicle data function line
Press the F3 (x ) key to delete the selected vehicle (marked by a black bar) from the
database.
Vehicle scale 89
DIS2116 HBM
13.2.3 0 Create vehicle
The F1 ↵ key switches the function line mode between “Find vehicle” and “Edit vehicle”.
+ | 3/ | x | 0 |
F1 | F2 | F3 | F4 |
Display illustration: “Edit vehicle data” function line
Press the F4 (0) key to open an empty editor window. The entries can be made here as
described in Point 13.2.1 ”Edit vehicle data”.
The entered data is stored with the key. An empty window cannot be saved.
Use the key to close the window without saving the data.
90 Vehicle scale
HBM DIS2116
13.3 Vehicle weighing mode Check-in/Check-out
In the vehicle weighing mode Check-in/Check-out, the weight determination for the load is
based on 2 measurements. The weight of the arriving truck is recorded with Weighing1 and
the weight of the departing truck with Weighing2. The difference is the weight of the loaded
or unloaded material.
It is also possible to use the emtpy weight (pretare) stored with the truck data as the weight
for the arriving truck. The arriving truck then does not need to drive onto the scale.
Arriving vehicle
Press F4 until this function line appears
+ | →] | [→ | ↓ | Function line |
F1 | F2 | F3 | F4 | Keys |
Database Vehicle list Check-in Yard list Check-out Scroll to Level 2 |
F2 opens the vehicle list which contains all stored vehicles.
Use the arrow keys (F2), (F3) or the search text to select the applicable vehicle or create a
new one with F1 (Chapter 13.2.1 or 13.2.3).
The key confirms the selection. The measured value window with the current measured
value is displayed. The weight of the arriving vehicle is recorded in the window ”Weigh1”.
Weigh1
Record measured value?
10.535 t
Pretare | ↵ |
F1 is used to accept the stored empty weight (pretare) without having the vehicle stand on
the scale.
The displayed weight is accepted with F4.
After check-in of the vehicle, it is entered into the list of the accepted vehicles, the so-called
”yard list”.
This completes the check-in procedure.
Departing vehicle
Set the function line displayed here with F4.
+ | →] | [→ | ↓ | Function line |
F1 | F2 | F3 | F4 | Keys |
Database Vehicle list Check-in Yard list Check-out Scroll to Level 2 |
F3 opens the vehicle list (yard list) which contains all arrived vehicles.
Use the arrow keys (F2), (F3) or the search text to select the applicable vehicle.
Vehicle scale 91
DIS2116 HBM
The key confirms the selection. The measured value window with the current measured
value is displayed. The weight of the departing vehicle is recorded in the window ”Weigh2”.
Weigh2
Record measured value?
11.535 t
↵ |
The displayed weight is accepted with F4. After the weight of the departing vehicle is
recorded with Weigh2, the vehicle is deleted from the yard list.
The weighing result and the weight during check-in and check-out are stored together with
the vehicle number plate, date and time, plus a sequential print number on the SD card and
can be viewed in the parameter menu INFORMATION-WEIGHING RESULT (Chapter 8.5.1,
page 40).
This completes the weighing process for a vehicle.
The weighing result can be displayed on a second display (COM4) and printed out on a
printer (Chapter 14, page 92).
92 Print function
HBM DIS2116
14 Print function
A printer can be connected to the serial interface COM3 (RS-232) or the USB printer
interface of the DIS2116 to print out the weight values.
14.1 Activating the printer interface
Access: Key , COMMUNICATION I PRINTER (Enter)
Sub-menu explanation | |
FUNCTION | Selecting the printer interface |
OFF | COM3 and USB disabled |
ON (COM3) | Serial printer connection active (RS232) |
ON (USB) | USB printer connection active |
If the USB printer interface is used, no further settings are necessary, the following menu is
only displayed when COM3 is selected as the serial printer connection.
Sub-menu explanation | |
BAUD RATE | The following baud rates can be set: 1.2k, 2.4k, 4.8k, 9.6k, 19.2k, 38.4k, 57.6k and 115.2k Bd |
PARITY | The following settings can be selected for parity: None - Even - Odd |
PROTOCOL | The DIS2116 has two transmission protocols to the printer DTR = Hardware protocol controlled via the DTR signal DC1 = Software protocol controlled with DC1/DC3 |
* Factory settings
14.2 DIS2116 - printer connection
The DIS2116 is equipped with a serial printer output COM3 and a USB printer connection.
The interface selection is described in Chapter 8.5.5., page 45.
Printer connection
COM3Standard printer cable, 9-pin SUB-D. The assignment of the COM3 interface is
described in Chapter 5.10, page 25.
USB Standard USB cable
Print function 93
DIS2116 HBM
14.3 Print protocol selection
The Print function is only accessible if COM3 or USB is activated for printing.
Sub-menu explanation | ||
Access level 4 | ||
MEASURED VALUE | Selection of print protocol Prt01 to Prt05 | |
PARAMETER | SCALE PARAMETERS | Printout of load cell parameters |
DIS2116 PARAMETERS | Printout of DIS2116 parameters | |
BUSSCAN RESULT | Printout of load cells connected to the DIS2116 |
* Factory settings
14.4 Start printing
• With F1 in the measured value display when the symbol for printing is displayed
above F1.
The symbol is only displayed when the function is set to ACTIVE in Parameter menu -
Function keys - Print
If the symbol is not displayed above F1, press F4 to change the assignment of the
function keys until the print symbol is displayed.
What is printed out depends on the operating mode of the scale and always corresponds to
what is shown on the display. Printing only takes place when there is standstill, so the unit of
measurement is always printed out. With non legal-for-trade applications, printing can take
place as often as required.
With a legal-for-trade setting, the printout cannot be repeated. There must be a change in weight
and a renewed standstill before there can be a new printout. There is no printing outside the
display limits.
Every measured value printout and print protocol PRT01 is stored in the ALIBI memory on
the SD card.
14.5 Different print protocols
• Prt01 MV: Gross or NET and Tare
• Prt02 MV1: Gross or NET Weighing1 and Tare for vehicle scale
• Prt03 MV2: Gross or NET Weighing2 and Tare for vehicle scale
• Prt04 Total: Gross or NET Weighing1 Weighing2 Result (Weighing2 - Weighing1)
and Tare for vehicle scale
• Prt05 Result: Gross or NET Result (Weighing2 - Weighing1) and Tare for vehicle scale
94 Print function
HBM DIS2116
Protocol Prt01 MV:
User-defined line 1
User-defined line 2
User-defined line 3
Date : xx.xx.2xxx
Time : xx.xx
Scale ID : xxxxxxx
Printout No. : xxxxxxx
Weight G : xxx.xx kg
Weight N : xxx.xx kg
Tare : xxx.xx kg
Tare PT : xxx.xx kg
The first three lines (Identstring 1..3) can be input via the
Parameter menu - Print protocol User-defined line 1 (2..3)
• Via the membrane keypad
• Via an external keyboard which can be connected via the PS2 input
• Via the computer interface COM2 (see Manual Part 2, Command PS1,PS2,PS3)
Any content, up to a maximum of 30 characters in each case, can be stored here. These
three strings are inactive by default and the lines are not printed out.
The scale ID line is the production number of the scale (given by the manufacturer).
The printout No. is a sequential number which is increased with each printout.
In the weight line, only the line with the gross value (G) or the net value (N) is printed out. In
the Tare line, only the tare value or the manual tare value (PT) is printed out.
Print function 95
DIS2116 HBM
Protocol Prt04 Total:
User-defined line 1
User-defined line 2
User-defined line 3
Date : xx.xx.2xxx
Time : xx.xx
Scale ID : xxxxxxx
Printout No. : xxxxxxx
Truck ID : DA-HM 123
Goods ID : xxxxxxxxxx
Operation ID : xxxxxxxxxx
Weight1 G : xxx.xx kg
Tare1 : xxx.xx kg
Tare1 PT : xxx.xx kg
Weight2 N : xxx.xx kg
Tare2 : xxx.xx kg
Tare2 PT : xxx.xx kg
Result N : xxx.xx kg
Supplementary to protocol Prt01 MV, this protocol contains the vehicle data, a procedure ID
and the empty vehicle (Weight1) and the loaded vehicle (Weight2).
96 Interface for a second display
HBM DIS2116
15 Interface for a second display
An external, second display can be connected to COM port 4 (RS232). The connection of
COM4 (9 pin SUB-D) is described in Chapter 5.8 (page 24).
15.1 Activating COM4 for a second display
Access: Key , COMMUNICATION I EXT. DISPLAY (Enter)
COMMUNICATION - EXT. DISPLAY (COM4) Access level 4 | |
FUNCTION | OFF* - COM4 disabled Selection of display strings String 1 to String 5 |
STANDARD DISPLYA1) | - none microSYST MIGRA (numeric display) microSYST MIGAN (graphic display) |
PROTOCOL | The DIS2116 has two transmission protocols for the Ext. display OFF* = No handshake DTR = Hardware protocol controlled via the DTR signal DC1 = Software protocol controlled with DC1/DC3 |
BAUD RATE | The following baud rates can be set: 1.2k, 2.4k, 4.8k, 9.6k*, 19.2k, 38.4k, 57.6k and 115.2k Bd |
PARITY | The following settings can be selected for parity: NONE EVEN ODD |
START STRING LENGTH | 0* = No start string 1...15 character start string |
Character 12) ......character 15 | Input of any ASCII character as decimal value |
END STRING LENGTH | 0* = No end string 1...5 character end string |
Interface for a second display 97
DIS2116 HBM
Parameter menu COMMUNICATION - EXT. DISPLAY (continued)
Character 13) ...character 5 | Input of any ASCII character as decimal value |
CRC | OFF* = No checksum ON = Checksum |
DECIMAL POINT | POINT* = The decimal point is displayed as a point COMMA = The decimal point is displayed as a comma OFF = No decimal point |
PAUSE [10ms] | Time between two display changes, can be set in 10 ms steps up to max. 2.5s |
MEASURED VALUE LENGTH | Number of measured value digits that can be displayed Standard (9 digits) 2...9 digits for the measured value |
There are 5 selectable telegrams, String 1 to String 5, which can be displayed on an external
display. The telegrams have the following contents:
• String 1 Gross or net value + unit max. 19 characters
• String 2 Gross or net value + unit and tare value max. 28 characters
• String 3 Weighing result + unit max. 19 characters
• String 4 Gross or net value max. 9 characters
• String 5 Gross or net value + unit + status max. 17 characters
* Factory settings
1) When connecting and selecting a standard display, the interface COM4 is automatically configured, no further settings are
required under EXT. DISPLAY (COM4). The technical data for the standard display can be found in the manufacturer’s
documents.
2) A start string consisting of max. 15 characters can be sent before strings 1 - 5. The characters are input as
decimals (e.g. an empty space is input with the value 32 (20hex). The values can be found in an ASCII table.
Only the number of characters can be input as specified in ”Start string length”. This menu item is not displayed
if the start string length = 0.
3) An end string consisting of max. 5 characters can be sent before strings 1 - 5. The characters are input as
decimals (e.g. an empty space is input with the value 32 (20hex). The values can be found in an ASCII table.
Only the number of characters can be input as specified in ”End string length”. This menu item is not displayed if
the end string length = 0.
98 Interface for a second display
HBM DIS2116
The checksum CRC is a XOR operation of all transmitted characters (first start string
character to last end string character).
Detailed description
Char. | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 |
String1 | SN | M1 | M1 | M1 | M1 | M1 | M1 | M1 | M1 | ES | U | U | U | U |
String2 | SN | M1 | M1 | M1 | M1 | M1 | M1 | M1 | M1 | ES | U | U | U | U |
String3 | SN | W1 | W1 | W1 | W1 | W1 | W1 | W1 | W1 | ES | U | U | U | U |
String4 | SN | M1 | M1 | M1 | M1 | M1 | M1 | M1 | M1 | - | - | - | - | - |
String5 | SN | M1 | M1 | M1 | M1 | M1 | M1 | M1 | M1- | S1 | S2 | S3 | ES | U |
Char. | 15 | 16 | 17 | 18 | 19 | 20 | 21 | 22 | 23 | 24 | 25 | 26 | 27 | 28 |
String1 | ES | GN | GN | GN | GN | - | - | - | - | - | - | - | - | - |
String2 | ES | GN | GN | GN | GN | SN | T1 | T1 | T1 | T1 | T1 | T1 | T1 | T1 |
String3 | ES | GN | GN | GN | GN | - | - | - | - | - | - | - | - | - |
String4 | - | - | - | - | - | - | - | - | - | - | - | - | - | - |
String5 | U | U | U | - | - | - | - | - | - | - | - | - | - | - |
* If no decimal separator is set (CMD_KC4=0), the characters are offset
SN M1 W1 T1 ES U GN | Sign ’-’ or empty space Measured value* (7/8 characters) Weighing result* (7/8 characters) Tare value* (7/8 characters) Empty space Unit (4 characters) Gross/Net display (’G ’,’NET ’,’N PT’) at standstill, otherwise empty space (4 characters) Gross/Net display (’G’,’N’) (1 character) Standstill display (’M’) or empty space (1 character) Weighing range (’1’,’2’,’3’) or empty space (1 character) |
S1 S2 S3 |
NOTE
The length of the values M1, W1 and T1 depend on whether a decimal separator has been set.
Limit values 99
DIS2116 HBM
16 Limit values
The DIS2116 has two programmable limit values. Each channel becomes active when the
activation value is exceeded and inactive when the deactivation value is undershot. The
different values give a free choice of hysteresis. The values can be related to the gross or
the net weight as desired; this is not dependent on the current display mode.
The parameters for the limit value switches are described in Chapter 8.5.3 (page 42).
Active limit value channels are displayed by the symbols ( 1,2) in the status line of the
display.
1 Limit value 1 active, limit value 2 not active or off
12 Limit value 1 and 2 active
2 Limit value 1 not active or off, limit value 2 active
If this symbol is not displayed, no limit values are active
100 Alibi and calibration memory
HBM DIS2116
17 Alibi and calibration memory
The DIS2116 is equipped with an SD card to store the legal-for-trade parameters. The main
print protocol information is stored on the SD card during every printout. The data is stored
encrypted on the SD card.
Storage is implemented irrespective of whether it is a legal-for-trade application or if a printer
is connected.
The following data are stored during printing (F1 when the symbol is displayed):
Print number, date, time, gross, net and tare values, decimal point, unit, measured value
status
If vehicles are weighed, the vehicle number, goods, procedure ID, check-in weight and
check-out weight are also stored.
The SD card is only accessible after the housing has been opened. In legal-for-trade
applications, the housing is prevented from being opened by an adhesive label.
17.1 Reading the stored files
The stored data can be displayed via the parameter menu ”INFORMATION - WEIGHING
RESULT”. The required result can be found and displayed with the arrow keys F2 (↓) or F3
(↑), or by inputting the print number.
To search via the print number, use the keyboard to enter the print number you are looking
for. Press the F4 key to delete the search text. Start the search with the (Enter) key.
NOTE
Print data and time are only correct if the real time clock has previously been set.
Alibi and calibration memory 101
DIS2116 HBM
17.2 SD memory card
The DIS2116 is delivered with an installed memory card with a capacity of 1 GByte.
Maximum SD card memory capacity: Maximum number of alibi print data | 2 GByte 7,5 million 15 million | in a 1GB SD card: in a 2GB SD card: |
Maximum number of data records in the vehicle database: | 65 000 | |
Maximum number of vehicles in yard list: | 50 |
NOTE
Error No. 9123
Maximum number of alibi print data exceeded SD card full, no further alibi print data can be
saved. Alibi print data cannot be deleted!
In legal-for-trade mode, the DIS2116 will initially no longer continue to operate with anything
other than the installed SD card. In order that the device can operate again with the new SD
card, the hidden pushbutton (secured with the verification seal) must be pressed. The
verified mode is left and the legal-for-trade counter is increased by 1.
What to do if the device or the SD card is defective?
1. Open housing
2. Remove SD card
3. Insert SD card in new device
4. Close housing
5. Switch on the device
6. Press the hidden pushbutton
7. Set the required settings again in the menu MODE/LEGAL-FOR-TRADE CAPABILITY.
In the case of legal-for-trade use, national legal and safety regulations must be complied with.
102 Alibi and calibration memory
HBM DIS2116
What to do if the SD card defective (device legal-for-trade):
1. Remove seal
2. Open housing
3. Replace SD card with new SD card
4. Fixing of the exchanged SD card with an adhesive strip against slipping or
sliding out by shaking
5. Close housing
6. Switch on the device, the SD card is initialized with default data
(Alibi data and vehicle data are lost)
7. Proceed as described in Chapter ”4.1 Initial commissioning”
After commissioning is complete:
8. Press the hidden pushbutton and execute the function CONFIGURE in the
menu SCALE CONFIGURATION
9. Press the hidden pushbutton again and set the required settings in the menu
MODE / LEGAL-FOR-TRADE CAPABILITY
In the case of legal-for-trade use, national legal and safety regulations must be complied with.
NOTE
After all adjustments and settings have been made, we recommend that you copy the SD
card data. This enables data to be easily transferred to the replacement card in the event of
a defect in the card.
Graphic display 103
DIS2116 HBM
18 Graphic display
The measured value curve is displayed graphically in the graphic display.
The measured value from a load cell, segment or a scale consisting of several segments can
be displayed.
Another function of the graphic display is the determination and graphical display of the scale
center of gravity. The center of gravity can be determined if the scale consists of at least 3
load cells.
18.1 Oscilloscope
The measured value from a load cell, segment or a scale consisting of several segments can
be graphically displayed in the oscilloscope function.
Access: Key , INFORMATION I GRAPHIC
OSCILLOSCOPE (Enter)
5.002 t t 5.000 MENU | M. ...................................................................................... 0 7.5 15 t[s] |
Various measured values can be displayed in the oscilloscope window. The measured
values recording runs continuously and is stopped with F1 (MENU). If the CE key is pressed,
the recording will be continued.
104 Graphic display
HBM DIS2116
Press F1 MENU key for two selection options:
F1 FOCUS F2 MEASURED VALUE | (Zoom function) (Measured value selection) |
• F1 FOCUS
This function can be used to look at a section of the recorded measured
values. To do this, position CURSOR 1 with the keys F1, F2 at the start and
CURSOR 2 with the keys F3, F4 at the end of the area of interest. The
measured values along the Y axis will be zoomed in on. The MAX value
and the MIN value of the section observed will be displayed on the Y axis.
Return to the entire recording by placing CURSOR 1 on the left edge and
CURSOR 2 on the right edge.
Use CE to leave the FOCUS function and reset the CURSOR 1 (2) so that
when F1 is pressed again, they will be positioned on the left and right
edges.
• F2 MEASURED VALUE
Keys F1 and F4 can be used to select various measured values and
display them in the line graphic.
1. Select the required signal (measured value) with F1 and F4 and
confirm with .
2. Leave the measured value selection menu with CE.
The selected signal will be displayed in the recording window in the upper
right corner. The abbreviations:
M | = Measured value of the scale |
S: 1..3 = Segment with segment number | |
A:11 | = Signal of a single load cell indicated by the address |
Graphic display 105
DIS2116 HBM
18.2 Center of gravity
The center of gravity of a loaded scale is displayed. The scale must consist of at least 3 load
cells to display the center of gravity.
Access: Key , INFORMATION I GRAPHIC
CENTER OF GRAVITY (Enter)
Display illustration: Center of gravity
ADR 11 ADR 12 |
X |
ADR 14 ADR 13 |
Center of gravity display for a scale consisting of 1 segment and 4 load cells. The individual
load cells are displayed with their addresses; in this example segment 1 with the addresses
11 .... 14. The determined center of gravity is marked by an ”X. ”Error” is displayed if the
scale platform is lifted.
No center of gravity is determined with a load of < 1 d, the message ”No load” is displayed.
NOTE
To ensure that the center of gravity determination works correctly, the load cell addresses
must be assigned clockwise during scale configuration as shown in the center of gravity
determination example above. If the scale consists of several segments, the load cell
arrangement must be implemented the same way in each segment.
ADR 11 ADR 12 ADR 21 ADR 22 ADR 31 ADR 32 | ||
Segment 1 | Segment 2 | Segment 3 |
ADR 14 ADR 13 ADR 24 ADR 23 ADR 34 ADR 33 |
Fig.: Address assignment for 3 segments
ADR 11 ADR 32 |
X |
ADR 14 ADR 33 |
Fig.: Center of gravity determination with 3 segments as a compound scale
Only the outer 4 load cells are shown in the center of gravity window.
106 Parameter factory settings
HBM DIS2116
19 Parameter factory settings
When the DIS2116 is delivered, it comes with specific factory settings:
• The (7-digit) production number is entered
As the DIS2116 has undergone certain tests during production, the following information can
deviate from zero:
• Legal-for-trade counter (Menu ”INFORMATION SCALE” or F1 key with symbol i)
• Sensor-overflow counter (Menu ”INFORMATION BUSSCAN”)
Parameter | Default value | Explanation |
Limit values 1...2 | Deactivated | |
Filter mode | 0 | Standard filter |
Filter | 5 | 0.3 Hz (AD104C, C16i) |
Manual tare value | 0 | Deactivated |
COM1, baud rate | 38400 | |
COM1, parity bit | even | |
COM2,COM3,COM4, Function | OFF | Deactivated |
COM2,COM3,COM4,baud rate | 9600 | |
COM2,COM3,COM4,parity bit | even | |
Printing, ESC sequences | 0 | Deactivated |
Basic scale function | Standard | Non-automatic scale |
Menu access | 5 | All menus |
Legal-for-trade operation | OFF | Deactivated |
Unit | OFF | No unit of measurement |
Zero on start-up | OFF | Deactivated |
Zero tracking | OFF | Deactivated |
Standstill monitoring | OFF | Deactivated |
Increment | 1d | |
Decimal point | 0 | right |
Maximum capacity | 10000 | |
Multi-range scale | 0 | Deactivated |
Calibration weight | 10000 | Max. capacity adjustment |
Gravitational acceleration correction | 9,8102 | Deactivated |
Scale char. curve, zero | 0 | |
Scale char. curve, nom. value | 10000 | At load cell maximum capacity |
Linearization | Deactivated |
When restoring the factory settings (”FACTORY SETTINGS DIS2116” menu), the
parameters described above are set to their default values.
Monitoring functions and error messages 107
DIS2116 HBM
20 Monitoring functions and error messages
20.1 Monitoring functions
The following monitoring functions are implemented for load cell connection:
• Detecting whether a load cell is connected to COM1
• Detecting failure of a load cell
• Sensor input signal exceeds the range -160 %…+160 % of the maximum capacity
(NOMINAL VALUE)
There are also other monitoring functions available:
• Short circuit of output voltages OUT1 and OUT2
• Error in parameter storage (SD card)
Error message display:
To indicate an error, [Erxxxx] appears on the display for 3 s (Erxxxx is the error code). The
last ten errors can also be read in the parameter menu (”INFORMATION ERROR LIST”).
Error message | Meaning | Remedy |
Display shows --------- | Measured value outside the max. display range (depending on the set scale standard) | Reduce scale loading. Check set max. capacity: NOMINAL VALUE parameter in menu ”SCALE PARAMETERS-PARAMETER”. |
Display shows xxxxxxxxx | Verification error Serial number of LC not identical with verification TRC status in LC not identical with verification | Load cells were replaced or adjusted. Scale must be verified again. |
LC = load cell or AD104C
108 Monitoring functions and error messages
HBM DIS2116
20.2 Error messages
The error code is subdivided into different sections:
Error code | Description |
Err xxxx | Error message in display |
Error group | (First character) |
1 | Busscan |
2 | Load cell initialization |
3 | Load cell parameter check |
4 | No function |
5 | Measurement |
6 | Off-center load compensation |
7 | Database |
8 | COM1/2/3/4 interfaces |
9 | Hardware |
BusScan | ||
Error code | Description | Remedy |
10xx | Error BusScan ADRxx no response (time_out) E.g. 1011 error at address 11 (Segment1 No.1), | Check production number in configuration menu, then carry out busscan, check cables, check load cell interfaces, check DIS2116 interface |
11xx | Error BusScan ADRxx incorrect response (NAK) E.g. 1011 error at address 11 (Segment1 No.1), |
Monitoring functions and error messages 109
DIS2116 HBM
Init_Load cells | ||
Error code | Description | Remedy |
2000 | FMD error | Carry out busscan or test load cells (Test menu) |
2001 | ASF error | |
2002 | LIV1 error | |
2003 | LIV2 error | |
2004 | TAS1 error | |
2005 | TAV0 error | |
2006 | MRAO error | |
2007 | CWT1000000 error | |
2008 | MTD0 error | |
2009 | ENU”d ” error | |
2010 | ZSE0 error | |
2011 | ZTR0 error | |
2012 | HSM0 error | |
2013 | DPT0 error | |
2014 | NOV1000000 error | |
2015 | COF8 error | |
2016 | LIC0,1000000,0,0 error | |
2017 | CSM2 error | |
2018 | NTF error | |
2019 | RSN1 error | |
2020 | ICR0 error |
Test_Load cells | ||
Error code | Description | Remedy |
30xx | Error IDN PART1 (Manufacturer_code), ADRxx | Reload load cell with parameters (Menu Adjust/Repair) or replace load cell |
31xx | Error IDN PART3 (F number), ADRxx | |
32xx | Error read TCR?, ADRxx | |
33xx | Error LFT, ADRxx | |
34xx | Error LDW/LWT, ADRxx | |
35xx | Error read SZA/SFA, ADRxx | |
36xx | Error CRC, ADRxx | |
37xx | Error Type, ADRxx | |
38xx | Error GCA, ADRxx | |
39xx | Error GDE, ADRxx |
110 Monitoring functions and error messages
HBM DIS2116
Measurement | ||
Error code | Description | Remedy |
50xx | Load cell with address xx not supplying measured value | Carry out busscan or test load cell (Test menu), emergency operation possible if only one load cell fails per segment |
51xx | Load cell with address xx has incorrect F number | Reload load cell with parameters (Menu Adjust/Repair) or replace load cell |
52xx | Load cell with address xx has incorrect TRC status | Reload load cell with parameters (Menu Adjust/Repair) or replace load cell |
5701 | Vehicle empty weight > Weighing2 result | Check vehicle data Repeat measurement if necessary |
5702 | Weighing result < minimum vehicle weight | Adjust minimum vehicle weight Vehicle loaded |
5703 | Weighing result > maximum vehicle weight | Adjust maximum vehicle weight Vehicle overloaded |
5801 | Measurement invalid | Printout measured value at 0 Printout 2x same measured value |
5802 | No standstill | Standstill conditions not applicable during measured value printout |
Off-center load compensation | ||
Error code | Description | Remedy |
6001 | Measured value differences in corners too large | Check scale construction |
6002 | Zero point outside off-center load range cannot be compensated | |
6003 | Nominal value outside off-center load range cannot be compensated |
Database | ||
Error code | Description | Remedy |
7001 | Yard list full (50 entries) | |
7002 | Database error | Repair database (Menu FACTORY SETTINGS-DATABASE) |
Monitoring functions and error messages 111
DIS2116 HBM
COM1-4 interfaces | ||
Error code | Description | Remedy |
8x01 | Input buffer overflow | Carry out a BUSSCAN |
8x02 | Overrun Possible causes: Incorrect baud rate, parity settings | |
8x03 | Parity error Possible causes: Incorrect baud rate, parity settings | Carry out a BUSSCAN |
8x04 | Framing error Possible causes: Incorrect baud rate, parity settings | |
8x05 | Framing error Possible causes: Incorrect baud rate, parity settings | |
x represents the interface e.g. 8101 error at COM1, 8201 error at COM2, etc. |
Hardware | ||
Error code | Description | Remedy |
9100 | SD card error | Replace SD card |
9123 | SD card is full. It is not possible to store further Alibi print data. | |
9200 | EEPROM error | |
95xx | Error ESR, BIT2 (ADC OVFL), ADRxx | Replace load cell |
96xx | Error ESR, BIT3 (EEPROM), ADRxx | |
97xx | Error ESR, BIT4 (Excitation voltage), ADRxx | |
98xx | Error ESR, BIT5 (parameter input), ADRxx | Test load cell (Test menu) |
The battery is only important for the real-time clock function. The device also works without
a battery. In this case, the date and time have to be reset after a power failure (see
Chapters 8.5.6. (page 48)).
112 Specifications
HBM DIS2116
21 Specifications
Type NAWI (non automatic weighing indicator) | DIS2116 | |
Voltage supply UB | ||
Range Power consumption (without outputs) Current consumption (with 24 V) | VDC W mA | 10...30 (24 nominal) 0.88 40 |
Load cell connection | RS485 interface COM1 | |
Supply voltage OUT1 Output current | VDC A | 10...30 <1 |
Supply voltage OUT3 (C16i) Output current Maximum cable length | VDC A m | 10...17 <1 see table in the annex to the specifications |
Display | ||
LCD with backlighting and status symbols | Pixel | 240x64 |
Character height (measured value) | mm | 8 |
Output rate | / s | 5 |
Keys | ||
Number Function keys | 15 4 | |
Serial interface (COM1), Load cells | ||
Baud rate Parity bit Data bits Stop bit Type RS485, 2-wire, signals RS485, 4-wire, signals | Bd Bit Bit - | 9600,...,115200 even 8 1 RS485 (2/4-wire) TRxA, TRxB TRA,TRB,TXA,TXB |
Max. cable length RS485 | m | 500 |
Serial interface (COM2), PC/PLC | ||
Baud rate Parity bit Data bits Stop bit Type RS232, signals Max. cable length RS232 | Bd Bit Bit m | 1200,...,115200 Even,odd,none 8 1 RS232 RxD, TxD, GND 25 |
Specifications 113
DIS2116 HBM
Serial interface (COM3), Printer | ||
Baud rate (RS232) Parity bit (RS232) Data bits (RS232) Stop bit (RS232) Type RS232, signals Max. cable length RS232 | Bd Bit Bit m | 1200,...,115200 Even,odd,none 8 1 RS232 RxD, TxD, GND,DTR 25 |
USB (COM3), Printer | ||
Max. cable length Printer language | m | 5 PLC |
Serial interface (COM4), Second display | ||
Baud rate Parity bit Data bits Stop bit Type RS232, signals Max. cable length RS232 | Bd Bit Bit m | 1200,...,115200 Even,odd,none 8 1 RS232 RxD, TxD, GND,DTR 25 |
PS2 interface, stand. keyboard Output current | mA | 100 |
Ambient conditions | ||
Temperature range Nominal temperature range Operating temperature range Storage temperature range Relative humidity, non-condensing in operation Storage | °C [°F] °C [°F] °C [°F] % % | -10...+50 [14...122] -20...+60 [-4...140] -30...+80 [-22...176] 20...85 10...90 |
DIS2116 housing | ||
Degree of protection per EN 60529 (IEC 529) | IP20 | |
Degree of protection per EN 60529 (IEC 529) for front panel when installed Material Weight, approx. | IP65 Aluminum 540 | g |
The DIS2116 is not sensitive to HF irradiation and conducted interference in accordance with
OIML R 76, EN 45501:1992(B3), EN 61326: 2006 emission (EME) class B, Immunity from
interference: industrial environment.
114 Specifications
HBM DIS2116
Maximum cable lengths1) between DIS2116 and C16i load cell(s)
If the supply voltage of the DIS2116 is less than 17 V, the digital load cells can be directly supplied from the scale electronics.
Please note the below table for dimensioning. With a nominal (rated) supply voltage of 24 V, the load cells require a separate
voltage supply.
Nominal (rated) voltage 12 VDC | Nominal (rated) voltage 15 VDC | ||||||
Core cross section (mm2) | |||||||
0.14 | 0.25 | 0.5 | 0.14 | 0.25 | 0.5 | ||
Number of load cells | Total Power consumption (mA) | Cable length (m) | |||||
1 | 50 | 393 | 500 | 500 | 500 | 500 | 500 |
2 | 100 | 197 | 350 | 500 | 315 | 500 | 500 |
3 | 150 | 131 | 234 | 468 | 210 | 375 | 500 |
4 | 200 | 98 | 176 | 351 | 157 | 281 | 562 |
6 | 300 | 66 | 117 | 234 | 105 | 187 | 375 |
8 | 400 | 49 | 88 | 176 | 79 | 140 | 281 |
10 | 500 | 39 | 70 | 140 | 63 | 112 | 225 |
12 | 600 | 33 | 59 | 117 | 52 | 94 | 187 |
16 | 800 | 25 | 44 | 88 | 39 | 70 | 140 |
1) Cable length up to max. 500m.
Dimensions 115
DIS2116 HBM
22 Dimensions (in mm; 1 mm = 0.03937 inches)
22.1 DIS2116 and cutout in the panel-frame
Fig. 22.1: DIS2116 - Dimensions
102
227
Fig. 22.2: Dimensions for the cutout in the panel-frame
116 Dimensions
HBM DIS2116
22.2 Desktop housing, also for wall mounting (1-TG2116)
310
290
7x30=210 ∅6 |
25 |
89 40 |
158.5
202
50° |
100 49
Material: Aluminum, powder coated
(RAL7035, light gray)
Fig. 22.3: Dimensions for the desktop housing, Order No.: 1-TG2116
Dimensions 117
DIS2116 HBM
118 Dimensions
HBM DIS2116
Dimensions 119
DIS2116 HBM
I2533-1.1 en
Hottinger Baldwin Messtechnik GmbH
Postfach 10 01 51, D-64201 Darmstadt
Im Tiefen See 45, D-64293 Darmstadt
Tel.: +49 6151 803-0, Fax: +49 6151 8039100
Email: support@hbm.comInternet: www.hbm.com
Modifications reserved.
All details describe our products in general form only.They
are not to be understood as express warranty and do not
constitute any liability whatsoever.