METTLER TOLEDO MultiRange IND690-Base, IND690, IND690-24V, IND690xx weighing terminal Operating instructions

METTLER TOLEDO MultiRange IND690-Base, IND690, IND690-24V, IND690xx weighing terminal Operating instructions
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The METTLER TOLEDO MultiRange IND690-Base is a weighing terminal that can be used for a variety of applications, including weighing, taring, totalizing, and data transfer. It can be connected to up to 4 weighing platforms, and it has a variety of interfaces for connecting to printers, computers, barcode readers, and other devices. The terminal also has a built-in DeltaTrac display, which makes it easier to read the weighing results.

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METTLER TOLEDO MultiRange IND690-Base Operating Instructions | Manualzz

Operating instructions

METTLER TOLEDO MultiRange

IND690-Base weighing terminals www.mt.com/support

Congratulations on choosing the quality and precision of METTLER TOLEDO. Proper use according to these instructions and regular calibration and maintenance by our factory-trained service team ensure dependable and accurate operation, protecting your investment. Contact us about a ServiceXXL agreement tailored to your needs and budget.

We invite you to register your product at www.mt.com/productregistration so we can contact you about enhancements, updates and important notifications concerning your METTLER TOLEDO product.

IND690-Base

Contents

1

1.1

1.2

1.3

2

2.1

2.2

2.3

2.4

4.9

4.10

4.11

4.12

4.13

4.14

4.15

4.16

4.17

4.18

4

4.1

4.2

4.3

4.4

4.5

4.6

4.7

4.8

5

5.1

5.2

5.3

5.4

5.5

5.6

3

3.1

3.2

3.3

3.4

3.5

3.6

Contents

Page

Safety instructions .......................................................................

5

Safety instructions for IND690xx.....................................................

5

Safety instructions for IND690-24V .................................................

7

Safety instructions for IND690 ........................................................

7

Introduction and commissioning ...................................................

8

Documentation .............................................................................

8

Applications .................................................................................

8

IND690 weighing terminals ...........................................................

9

Cleaning ...................................................................................... 10

Basic functions ............................................................................ 11

Switching on and off ..................................................................... 11

Charge indicator in storage battery operation (IND690-24V only)....... 11

Setting to zero .............................................................................. 12

Taring ......................................................................................... 12

Weighing ..................................................................................... 14

Working with several weighing platforms......................................... 14

Additional functions ..................................................................... 16

Weighing with the DeltaTrac........................................................... 17

Dynamic weighing ........................................................................ 19

Change weight unit ....................................................................... 19

Working in a higher resolution ....................................................... 20

Display gross weight..................................................................... 20

Specifying dynamic set points ........................................................ 20

Multiplicative tare function ............................................................. 21

Additive tare function ..................................................................... 21

Sandwich tare .............................................................................. 21

Totalizing..................................................................................... 22

Display ID code and test weighing platform ..................................... 23

Identifications ............................................................................... 24

Recall information......................................................................... 25

Print or transfer data ..................................................................... 27

Enter values with barcode or RFID reader......................................... 27

Working with external keypad ........................................................ 28

Working with a second display ...................................................... 29

Recall data from Alibi memory ....................................................... 29

Settings in the master mode ........................................................ 33

Overview of the master mode ......................................................... 33

Operating the master mode ............................................................ 34

TERMINAL master mode block........................................................ 36

APPLICATION master mode block ................................................... 44

SCALE master mode block ............................................................. 44

INTERFACE master mode block ...................................................... 52

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3

Contents

IND690-Base

7

7.1

7.2

8

6

6.1

6.2

6.3

6.4

6.5

9

10

10.1

10.2

10.3

10.4

10.5

11

Interface description....................................................................

77

General ....................................................................................... 77

MMR command set ...................................................................... 78

METTLER TOLEDO continuous mode............................................... 89

METTLER TOLEDO SICS command set............................................. 91

Profibus DP communication with a PLC .......................................... 104

Application blocks ....................................................................... 112

Syntax and formats....................................................................... 112

List of the application blocks.......................................................... 115

What to do if …?......................................................................... 122

Technical data and accessories .................................................... 125

Appendix .................................................................................... 126

ASCII table ................................................................................... 126

Key codes ................................................................................... 127

Notes on CL handshake ................................................................ 128

Selection possibilities for the assignment of the digital inputs and outputs ................................................................................. 129

Disposal...................................................................................... 129

Index.......................................................................................... 130

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IND690-Base

Safety instructions

1 Safety instructions

1.1

Safety instructions for IND690xx

The explosion-protected IND690xx weighing terminal fulfills Device category 3 and is approved for operation in Zone 2 (gases) and Zone 22 (dusts) hazardous areas.

There is an increased risk of injury and damage when the IND690xx weighing terminal is used in a potentially explosive atmosphere.

Special care must be taken when working in such hazardous areas. The code of practice is oriented to the "Safe Distribution" concept drawn up by METTLER TOLEDO.

Competence

▲ The IND690xx weighing terminal, accompanying weighing platforms and accessories may only be installed, maintained and repaired by authorised

METTLER TOLEDO service personnel.

▲ The mains connection may only be connected or disconnected by the owner’s electrician.

Ex approval

▲ For the exact specification please refer to the statement of conformity.

▲ In order to avoid electrostatic charging the IND690xx may only be installed in rooms or areas at which strong electric field strengths cannot occur from experience.

▲ No modifications may be made to the terminal and no repair work may be performed on the modules. Any weighing platform or system modules that are used must comply with the specifications contained in the installation instructions.

Non-compliant equipment jeopardizes the safety of the system, cancels the Ex approval and renders any warranty or product liability claims null and void.

▲ The cable glands must be tightened so that a strain relief of ≥ 20 N per mm cable diameter is ensured.

▲ When connecting external devices, always observe the maximum permissible connected loads, see installation information. It must be ensured that no voltages are fed into the IND690xx than it itself provides. The interface parameters have to fulfill the standard.

▲ Peripheral devices without an Ex approval may only be operating in nonhazardous areas. It must be ensured that no voltages are fed into the IND690xx than it itself provides. In addition the maximum permissible connected loads have to be observed, see Page instalallation information. The interface parameters have to fulfill the standard.

▲ The safety of a weighing system including the IND690xx weighing terminal is only guaranteed when the weighing system is operated, installed and maintained in accordance with the respective instructions.

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5

Safety instructions

IND690-Base

▲ Also comply with the following:

– the instructions for the system modules

– the regulations and standards in the respective country

– the statutory requirement for electrical equipment installed in hazardous areas in the respective country, e.g. EN 60079-14 and EN 6124-14

– all instructions related to safety issued by the owner

▲ Before initial start-up and following service work, check the explosion-protected weighing system for the proper condition of all safety-related parts.

Operation

▲ Prevent the build-up of static electricity. Therefore:

– only operate the IND690xx in rooms or areas at which strong electric field strengths cannot occur from experience,

– always wear suitable working clothes when operating or performing service work on the system,

– do not rub or wipe off the keyboard surface with a dry cloth or glove.

▲ Do not use protective hoods.

▲ Prevent damage to the weighing terminal. Hairline cracks in the keyboard membrane are also considered damage.

▲ If the IND690xx weighing terminal, accompanying weighing platforms or accessories are damaged:

– Switch off weighing terminal.

– Separate the weighing terminal from the mains in accordance with the applicable regulations.

– Secure the weighing terminal against accidental start-up.

Leakages

▲ The IND690xx panel unit does not comply with any freedom-from-leaks rating.

Therefore the installer is responsible for compliance with the freedom from leaks rating, e.g. at control cabinet installation. The respective national standards furthermore have to be observed. At least a freedom-from-leaks rating IP54 is required in hazardous areas, in case of conductive dust IP6X.

6

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IND690-Base

Safety instructions

1.2

Safety instructions for IND690-24V

▲ Never operate the IND690-24V weighing terminal in hazardous areas; there are special scales in our product line for this purpose.

▲ The IND690-24V weighing terminal may only be connected to a power supply

(storage battery or mains) having a 24 VDC SELV power circuit in accordance with EN 60950.

▲ Short-circuit danger!

Ensure that the power supply is connected properly: brown lead +24 V blue lead 0 V or negative pole

▲ The safety of the unit is endangered if it is not operated in accordance with these operating instructions.

▲ Only authorized personnel may open the IND690-24V weighing terminal.

Competence

▲ The IND690-24V weighing terminal, accompanying weighing platforms and accessories may only be installed, maintained and repaired by authorised

METTLER TOLEDO service personnel.

Leakages

▲ The IND690-24V panel unit does not comply with any freedom-from-leaks rating. Therefore the installer is responsible for compliance with the freedom from leaks rating, e.g. at control cabinet installation. The respective national standards furthermore have to be observed.

1.3

Safety instructions for IND690

▲ Do not operate the IND690 weighing terminal in hazardous areas. We have special suitable scales in our range of products for hazardous areas.

▲ Ensure that the power socket outlet for the IND690 weighing terminal is earthed and easily accessible, so that it can be de-energised rapidly in emergencies.

▲ Ensure that the supply voltage at the installation site lies within in the range of

100 V to 240 V.

▲ The safety of the device cannot be ensured if it is not operated in accordance with these operating instructions.

▲ Only authorised personnel may open the IND690 weighing terminal.

Competence

▲ The IND690 weighing terminal, accompanying weighing platforms and accessories may only be installed, maintained and repaired by authorised

METTLER TOLEDO service personnel.

Leakages

▲ The IND690 panel unit does not comply with any freedom-from-leaks rating.

Therefore the installer is responsible for compliance with the freedom from leaks rating, e.g. at control cabinet installation. The respective national standards furthermore have to be observed.

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7

8

Introduction and commissioning

IND690-Base

2 Introduction and commissioning

2.1

Documentation

The weighing terminal comes supplied with a CD containing all the documentation on the IND690 weighing system.

These installation instructions describe operation of the IND690 with the basic software Base-690 and all possible interfaces.

If your weighing terminal is equipped with application software (Batch-690, Com-

690, Control-690, Count-690, Fill-690, Form-690, FormXP-690, Sum-690) you’ll find the application specific information in the corresponding operating instructions.

2.2

Applications

With the weighing terminals the following applications are possible:

IND690

IND690-24V

IND690xx

Hazardous area Zone 2 / Zone 22 Safe area

Operating instructions 22012808F 07/09

IND690-Base

Introduction and commissioning

• Multi-scale operation with up to 4 weighing platforms with IND690 resp. up to 3 weighing platforms with IND690xx and IND690-24V, including weighing platforms with an analog signal output.

• Up to 9 data interfaces

– for printing,

– for data exchange with a computer,

– for connecting a barcode reader,

– for control, e.g. of valves or flaps,

– for connecting reference scales,

– for connecting an external keypad.

2.3

IND690 weighing terminals

2.3.1

Display

1 2

3

4

5

6

7

1

Weight display BIG WEIGHT

®

with sign and decimal point

2

Stability monitor: lights up until the weighing platform has levelled out, then the weight unit appears here

3

Range display for multi-range weighing platforms

4

Number of the weighing platform: shows the weighting platform just selected

5

Symbol * for identifying weight values in the second unit or in a higher resolution

6

NET symbol for marking net weight values

7

Assignment of the function keys

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9

Introduction and commissioning

2.3.2

Keypad

IND690-Base

10

1

CODE A ... CODE F keys – enter identification data

2

SCALE key – select scale

3

ZERO-SET key – set scale to zero, test scale

4

Function keys F1 … F6 – the current assignment is shown in the display above the key

5

TARA key – tare scale

6

TARE SPECIFICATION key – enter known tare values numerically

7

CLEAR key – clear entries and values

8

ENTER key – accept and transfer data

9

Cursor keys

10

Numeric keypad with decimal point

2.4

Cleaning

DANGER OF SHOCK

➜ Do not open the weighing terminal to clean.

CAUTION

➜ Make sure that unused connection sockets are covered with protective caps to protect the socket contacts from moisture and dirt.

Cleaning

➜ Wipe off the weighing terminal with a commercially available glass or plastic cleaner.

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IND690-Base

Basic functions

3 Basic functions

3.1

Switching on and off

Switch on from the standby mode

➜ Press any key.

The display shows a weight value based on the last tare value and zero point.

Note

We recommend leaving the device switched on when it is operated in humid areas or is subjected to high temperature fluctuations. This ensures that condensate does not form on the device inside.

Switch off

➜ Press function key OFF.

The display goes out and the IND690 weighing terminal is in the standby mode.

The zero point and tare value remain saved.

Note

If the function key OFF does not appear in the current assignment, press the cursor key < or > several times if necessary until OFF is displayed.

Switch on with restart

1. Relieve weighing platform.

2. Press function key OFF and hold down until METTLER TOLEDO IND690 (factory setting) or text you have specified appears in display.

Then weight value appears.

The weighing platform is restarted.

Note

The text which appears during switch-on with a restart is saved in the text

memory 20, see page 37.

3.2

Charge indicator in storage battery operation (IND690-24V only)

If the supply voltage drops below 22.5 V, a continuous whistle sound is emitted for approx. 10 to 30 minutes.

If the supply voltage drops below 21 V, the IND690-24V weighing terminal switches off automatically.

➜ If the whistle sound is emitted, complete the current weighing process and charge or replace the storage battery.

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11

Basic functions

IND690-Base

3.3

Setting to zero

Setting to zero corrects the influence of minor dirt on the load plate.

In the case of excessive dirt which cannot be compensated by setting to zero, the display shows OUT OF RANGE.

Manual zero set

1. Relieve weighing platform.

2. Press .

The display shows 0.000 kg.

Automatic zero set

On certified weighing platforms the zero point of the weighing platform is automatically corrected when the weighing platform is relieved.

The automatic zero set can be switched off in the master mode on noncertified weighing platforms.

3.4

Taring

3.4.1

Manual taring

1. Place empty container on scale.

2. Press

T

.

The tare weight is saved and the weight display set to zero.

The display shows the NET symbol.

Notes

• When the weighing platform is relieved, the saved tare weight is displayed with a negative sign.

• The weighing platform only saves one tare value.

3.4.2

Automatic taring

Condition

AUTOTARA ON must be set in the master mode, see page 48.

➜ Place empty container on scale.

The container weight is automatically saved and the weight display set to zero.

The display shows the NET symbol.

Note

The saved tare weight is automatically deleted with the load is removed from the weighing platform.

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IND690-Base

Basic functions

3.4.3

Specify tare weight

Enter numerically

1. Press

PT

.

2. Enter tare weight (container weight) and confirm with .

When weighing platform is relieved, the entered tare weight is displayed with a negative sign.

Note

The weight unit for entering the tare weight can be selected with the cursor keys

< or >.

Correct entry

➜ Clear the entry character by character with

and repeat correctly.

Copy tare constant

The IND690 has 999 tare memories for frequently used tare weights programmed in the master mode.

1. Enter memory number: 1… 999.

2. Press

PT

.

The memory number, the saved tare weight and the designation appear briefly in the display. The next to appear is the weight display with the net weight referred to the called-up tare weight and the symbol NET.

3.4.4

Recall currently saved tare weight

The saved tare weight can be recalled at any time.

➜ Enter INFO,

PT

sequence.

The saved tare weight is displayed.

3.4.5

Clear tare weight

➜ Relieve weighing platform and tare.

– or –

➜ Specify tare weight 0.

– or –

➜ Enter

PT

, sequence.

Note

If AUTO CLEAR TARE ON is selected in the master mode, the saved tare weight is automatically deleted with the load is removed from the weighing platform.

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13

Basic functions

IND690-Base

3.5

Weighing

Weighing without taring

➜ Lay weighing sample on weighing platform.

Gross weight (total weight) is displayed.

Weighing with taring

1. Place the empty container on the weighing platform and tare.

2. Pour in weighing sample.

The display shows the net weight and the NET symbol.

Weighing with tare specification

1. Place filled container on weighing platform.

The display shows the gross weight (total weight).

2. Specify tare weight or recall tare memory.

The display shows the net weight (container content) and the NET symbol.

Note

If the MinWeight function is activated in the master mode, weight values that fall below the defined minimum weight are identified with the blinking symbol .

3.6

Working with several weighing platforms

Up to 4 weighing platforms can be connected to the IND690, and up to 3 weighing platforms can be connected to the IND690xx and IND690-24V.

Depending on the setting in master mode, only the currently active scale appears in the display (serial Multi-scale mode) or all scales are operated at the same time

(parallel multi-scale mode). A constantly updated sum scale is also available in parallel multi-scale mode.

3.6.1

Switch over weighing platform

The weighing platform currently selected is shown on the terminal.

➜ Press

.

The next weighing platform is selected.

– or –

➜ Enter number of weighing platform and press

The desired weighing platform is selected.

.

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IND690-Base

Basic functions

3.6.2

Displaying several scales simultaneously

Condition

PARALLEL SCALE is selected in the master mode.

➜ Press the cursor key < or > as often as necessary until all scales are shown in the display.

Notes

• When all scales are displayed, only the function keys UNIT and GROSS are still active. These function keys then act on all connected scales.

• The sum scale can only be operated non-verifiably. It is therefore identified by the symbol

Σ.

• The calculation mode and resolution of the sum scale can be configured in master

mode, see Section 5.5.5.

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15

Additional functions

IND690-Base

4 Additional functions

The assignment of the 6 function keys of the IND690 weighing terminal differs depending on the weighing task. The current assignment is shown above the function keys. The cursor keys < or > can then be used to switch to other function key assignments.

Independent of the application software, the IND690-Base has the following additional functions:

DELT

Weighing with the

DeltaTrac,

see 4.1

DYN

Dynamic weighing,

see 4.2

UNIT

Change weight unit,

see 4.3

X 10

Increase resolution, see

4.4. This key

is not assigned when the control mode is continually switched on.

GROSS MODE

Display gross weight,

see 4.5

Activate master mode,

see Chapter 5

MUL-T ADD-T

Multiplicative tare function,

see 4.7

Additive tare function,

see 4.8

ITARE SETP OFF

Sandwich tare,

see 4.9

Set dynamic set points,

see 4.6.

This key is not assigned if no set points are defined.

Switching off terminal

INFO

Calling up information

Without additional application software, the IND690-Base still provides the following function keys for totalizing:

PLUS MAN CANC

Totalizing is described in Section 4.10

SUM TARG ITEM

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IND690-Base

Additional functions

4.1

Weighing with the DeltaTrac

The DeltaTrac is an analog display which makes it easier to read the weighing results.

In the master mode you can select how the DeltaTrac is displayed for the various weighing tasks FILLING, CLASSIFYING or CHECKWEIGHING.

Notes

• With the DeltaTrac signals you can also control lamps, flaps or valves, see page

65.

• With the AnalogOut-690 interface the net value can be output as an analog current

or voltage signal, see page 68.

Application

FILLING

For weighing-in to a target weight with tolerance monitoring.

Example: Target weight = 1.000 kg, tolerance = +/–1 %

Target weight not reached yet

Weight within the tolerance

Target weight reached exactly

Application

CLASSIFYING

To evaluate test samples as OKAY, TOO LIGHT or TOO HEAVY, based on a target weight and specified +/– tolerances.

Example: Target weight = 1.000 kg, tolerance = +/–1 %

TOO LIGHT

Weight below the tolerance

OKAY

Weight within the tolerance

TOO HEAVY

Weight above the tolerance

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17

Additional functions

IND690-Base

Application

CHECKWEIGHING

For determining the difference between the target and actual weight.

Example: Target weight = 1.000 kg, tolerance = +/–1 %

Weight below the tolerance

Difference: –0.100 kg

Weight within the tolerance

Difference: +0.002 kg

Weight above the tolerance

Difference: +0.100 kg

4.1.1

Preset DeltaTrac target values

Enter numerically

1. Press DELT key.

2. Enter target weight and confirm with .

3. Enter the lower tolerance TOL (–) as a % of the target weight and confirm with .

4. Enter the upper tolerance TOL (+) as a % of the target weight and confirm with

.

Notes

• The weight unit for entering the DeltaTrac target values can be selected with the cursor keys < or >.

• The terminal suggests symmetrical tolerances TOL. (+) and TOL. (–). However, different tolerances are also permissible.

Correct entry

➜ With

the entry is corrected character by character.

Copy constants

The IND690 weighing terminal has 999 DeltaTrac memories for frequently used target values and tolerances, which are programmed in the master mode.

1. Enter number of DeltaTrac memory: 1 … 999.

2. Press DELT key.

Reference sample

1. Press DELT key.

2. Lay sample on weighing platform and confirm with .

3. Only for FILLING and CLASSIFYING: Enter tolerance and confirm with .

4. Remove sample from weighing platform.

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IND690-Base

Additional functions

Limits

Minimum target value

10 Digit, can be adjusted in master mode, see page 38

Maximum target value configured maximum load

Minimum tolerance

Maximum tolerance

1 Digit

100 %

Note

If the limits are not observed, a message appears in the display, e.g. MIN-DEL = ..., for too small a target value.

Clear DeltaTrac target value

➜ Press DELT

key sequence.

DELTA CLEARED appears briefly in the display, then the weight is shown.

4.2

Dynamic weighing

With the dynamic weighing function you can weigh restless weighing samples, e.g. live animals. To do this, specify the number of weighing cycles for which the mean weight value is to be taken.

1. Set container on the weighing platform.

2. Tare weighing platform.

3. Place weighing sample in container.

4. Press DYN key and enter number of weighing cycles.

Possible values: 1 … 255.

5. Start dynamic weighing with .

6. After cycle time has expired, center line of display shows:

RESULT x.xxxx kg.

This display is retained until the next weighing is started or until it is cleared.

Delete result

➜ Press

.

Notes

• Dynamic weighing results are automatically printed when AUTO PRINT is set in the

master mode, see page 41.

• During dynamic weighing it is not possible to display the weight value BIG

WEIGHT DISPLAY, which fills the entire display.

• Dynamic weighing can also be started with the interface command AW016..., see

page 116.

4.3

Change weight unit

If an additional, second weight unit is configured in the master mode, it is possible to switch back and forth between the two weight units.

➜ Press UNIT key.

The weight value is shown in the second unit.

Note

Possible second weight units are: mg, g, kg, lb, oz, ozt, dwt.

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19

Additional functions

IND690-Base

4.4

Working in a higher resolution

Depending on the setting of the master mode block CONTROL MODE (see page 41),

the weight value can be displayed in a higher resolution continuously or when called.

Weight values in a higher resolution are marked with a *.

Displaying weight values in higher resolution

➜ Press X 10 key.

The weight value is displayed in at least a 10x higher resolution.

The higher resolution is displayed until the X 10 key is pressed again.

Note

With certified weighing platforms, the weight value only appears in a higher resolution as long as the X 10 key is pressed.

4.5

Display gross weight

The gross weight can only be displayed when a tare weight has been saved.

➜ Press GROSS key and hold down.

The gross weight is displayed.

4.6

Specifying dynamic set points

Conditions

• 4 I/O-690 interface or 8-690 relay box connected.

• SETPOINT MODE ON is selected and a dynamic switching point is allocated to at least one output in the mastermode.

Use

If the specified set point values are exceeded or dropped below, digital outputs are set, e.g. for controlling lamps, flaps, valves etc.

Dynamic set points can be set for each weighing procedure individually.

The set points are retained until they are overwritten with a new value or deleted.

Specifying set points

1. Press the SETP key; the entry prompt for the first dynamic set point appears.

2. Enter the desired weight value and confirm with .

3. If additional dynamic set points are configured, the entry prompt appears for the next dynamic set point.

4. Enter the desired weight value and confirm with .

5. Repeat the procedure until all set points have been entered.

Deleting set points

➜ Press the SETP key and delete the value with the

.

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IND690-Base

Additional functions

4.7

Multiplicative tare function

The multiplicative tare function is particularly suitable when pallets with identical containers are filled. If the number of containers and tare of the individual container are known, the weighing terminal calculates the total tare.

1. Press MUL-T key.

2. Enter known tare weight of individual container and confirm with .

3. Enter number of containers and confirm with .

When the weighing platform is relieved, the total tare value is shown in the display with a negative sign.

Note

The weight unit for entering the tare weight can be selected with the cursor keys

< and >.

4.8

Additive tare function

With the additive tare function you can subtract the tare of additional containers with a know tare weight for related weighings, e.g. if containers with different weights are filled on one pallet.

1. Place container on scale and press ADD-T key.

2. Enter known tare weight and confirm with .

The total net weight appears in the weight display.

Note

The weight unit for entering the tare weight can be selected with the cursor keys

< or >.

4.9

Sandwich tare

With the sandwich tare function you can detect additional tare weights for related weighings without loosing the total gross and total net.

Example

In production or shipping boxes are laid between individual layers in the transport container. The weight of these boxes can be subtracted with this function.

1. Press ITARE key.

2. Place sandwich tare, e.g. box, on scale and confirm with .

The net weight is retained.

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21

Additional functions

IND690-Base

4.10

Totalizing

Totalizing is only possible at the IND690-Base without additional software.

The following function keys are available for totalizing:

PLUS

Totalize the items

MAN CANC SUM

Totalize manual weight values

Remove the last item from the total

Display and print out the total

TARG ITEM

Enter the target value for the total

Enter a start and end value for the item counter

4.10.1

Course

1. Place an item on the scale.

If the weight exceeds the minimum deflection specified in mastermode, the "+" sign flashes behind the concurrent total.

NO.: 0001

SUM: 1,000 kg+

1,000 kg

2. Press PLUS key.

The item is added to the total and transferred to the printer/PC.

3. Totalize further items.

The item counter (NO.) and the transaction number are both increased by 1.

4.10.2

Printing the total and finalising

1. Press the SUM key.

The total is displayed and printed out.

2. In order to continue with totalizing, press the key.

– or –

➜ To clear the sum, press the

key.

The item counter is reset to the start value.

4.10.3

Manual entry

In order to add known weights to the total proceed as follows:

1. Unload the scale and press the MAN key.

2. Enter the weight and use the key to add to the total.

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Operating instructions 22012808F 07/09

IND690-Base

Additional functions

4.10.4

Totalizing to a target value

If a target value is entered, the TARGET REACHED message is displayed when this weight value is reached.

1. Press the TARG key.

2. Enter the target weight and confirm with .

3. Totalize the items.

4. When the TARGET REACHED message is displayed, finalize the total.

4.10.5

Totalizing with an item counter

The start and end value of the item counter can be specified between 1 and 9999.

1. Press the ITEM key.

2. Enter the start value and confirm with .

3. Enter the end value and confirm with .

4. Totalize the items.

5. When the TARGET REACHED message is displayed, finalize the total.

4.10.6

Cancelling an item

The last added item can be removed from the total.

➜ Press the CANC key.

The last item is removed from the total, the item counter is reduced by 1.

4.11

Display ID code and test weighing platform

Each time the weighing platform configuration is changed the ID code counter is increased by 1. On certified weighing platforms the displayed ID code must match the ID code on the ID code sticker, otherwise the calibration is no longer valid.

Display ID code

➜ Press

and hold until IDENTCODE = ... appears in the display.

Test weighing platform

➜ Press

again.

The connected weighing platform is checked. The display shows CHECK SCALE and then SCALE IS OK after completing the test.

Note

If weighing platform is defective, display shows SCALE ERROR.

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23

Additional functions

IND690-Base

4.12

Identifications

The weighing terminal is equipped with 6 identification data memories for storing identification data Code A … Code F.

The memories have a name, e.g. Article No., and a content which identifies the current weighing, e.g. 1234567.

The memories are named in the master mode, and the names can be noted on the keyboard. When the CODE keys are pressed, the name appears in the display.

Identification data Code A … Code F can be entered or recalled for each weighing and are printed immediately.

4.12.1

Enter identification

An identification may contain a maximum of 30 characters.

Enter numerical identification

1. Press one of the keys CODE A … CODE F.

2. Enter identification data Code A … Code F via the numeric keypad and confirm with .

Enter alphanumeric identification

1. Press one of the keys CODE A … CODE F.

The functions keys are given the following assignment:

ABCDE

Selection of letters A to E

FGHIJ

Selection of letters F to J

KLMNO

Selection of letters K to O

PQRST

Selection of letters P to T

UVWXY

Selection of letters U to Y

Z/-()

Selection of letter Z or a special character

2. Select desired group of letters, e.g. press KLMNO key.

3. Select desired letter.

The display changes again to the above selection.

4. Repeat entry in steps 2 and 3 for additional characters.

Notes

• Letters and numbers can be combined as desired.

• It is possible to switch between upper case and lower case with the cursor keys and . The following special characters are then also available with the lower case letters: *, $, %, &.

Recall fixed text

memory

The IND690 weighing terminal is equipped with 999 memories for fixed texts which can be programmed in the master mode and used as identifications.

1. Enter memory number: 1 ... 999.

2. Press a key CODE A … CODE F.

The saved fixed text is now assigned to the selected identification Code A …

Code F.

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Operating instructions 22012808F 07/09

IND690-Base

Additional functions

Other entry possibilities

Identifications can also be entered with a barcode or RFID reader, see section 4.15,

or with an external keypad, see section 4.16.

4.12.2

Clear identifications

➜ Press desired key CODE A … CODE F and clear memory content with

.

4.13

Recall information

On the weighing terminal memory contents and system information can be recalled.

1. Press INFO key.

Then the following function key assignment appears:

DELT

Display

DeltaTrac values

TARE

Display tare weight

TEXT ALIBI DATE

Display fixed texts and name of keys

CODE A …

CODE F

Recall content of alibi memory, see

section 4.18.

This selection only appears when Alibi-

Memory-690 is installed.

Display date and time

VERS

Display version numbers of installed software modules

W&M

Display checksum of the software relevant to calibration.

The correct checksum is documented in the calibration approval.

ERROR COM AB DNGLE

Fault /

Event memory display

Calling up the settings of the interfaces

Display designation and contents of application blocks including subblocks

To access directly first enter the number of the desired application block.

Display of production date, number and type of the hardware dongle

2. Select desired information.

The information is displayed for the set DISPLAY DURATION, then the weighing terminal changes to the weighing mode again.

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25

Additional functions

IND690-Base

Notes

• When several values are displayed, the IND690-Base automatically changes to the next value after the set DISPLAY DURATION.

• With it is possible to switch to the next value or back to the weighing mode.

• When the GA46 printer is connected, the version numbers of the installed software modules are automatically printed.

• After COM has been pressed, the settings of all 9 interfaces are displayed consecutively, for example

COM1: RS232

MODE: DEFAULT

SETTING: 9600, N, 8, 1

STATUS: ACTIVE

4.13.1

Recall memory

1. Press INFO key.

2. Enter number of memory and press DELT, TARA or TEXT key depending on desired memory.

Recall name of CODE A … CODE F keys

1. Press INFO key.

2. Press one of the keys CODE A … CODE F.

The display shows the current Code.

4.13.2

Calling up information on the installed interface modules

Information on the installed interface modules can be called up with the following key combinations:

INFO 50 Type and software version of the installed WLAN module

INFO 51 Status of the WLAN module

INFO 60 Type and software version of the installed Bluetooth module

INFO 61 Status of the Bluetooth module

4.13.3

Recall application-specific information

See operating instructions of the relevant application software.

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Additional functions

4.14

Print or transfer data

If a printer or computer is connected, weighing results can be printed out or transferred to the computer.

In the master mode you can set the following for this purpose:

• Data to be printed or transferred,

• Manual or automatic data transfer,

• Key which triggers printing or data transfer.

Factory setting

• Manual triggering with .

• The content of the display is transferred or printed.

4.15

Enter values with barcode or RFID reader

If you have connected a barcode or RFID reader to the weighing terminal, you can make all required entries, such as identifications or target specifications, easily with the barcode or RFID reader.

4.15.1

Read in any desired entries with the barcode or RFID reader

Example Read in identification Code A

1. Press CODE A key; the weighing terminal expects the entry of Code A.

2. Enter identification Code A with the barcode or RFID reader.

The identification read in appears in the display.

3. Confirm barcode entry with .

4.15.2

Read in a frequently used entry directly with the barcode or RFID reader

If your working procedure repeatedly requires the same entry, you can configure the

barcode or RFID reader in the master mode (see page 63) so that no additional keys

need to be pressed on the weighing terminal.

Example Barcodes are automatically read in as Code A

If the working procedure requires the entry of Code A:

➜ Enter identification Code A with barcode reader.

The information read in appears in the display and is automatically processed by the weighing terminal as Code A.

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27

Additional functions

IND690-Base

4.16

Working with external keypad

If the weighing terminal is equipped with the interface PS2-690, an external keyboard can be connected so that alphanumerical values can be entered conveniently.

In addition to the alpha and numerical keys, the following additional scale functions can also be operated with the external AK-MFII keypad.

Function for IND690-Base

Function key F1

Function key F2

Function key F3

Function key F4

Function key F5

Function key F6

T

PT

key

key

key

key

External keypad

Function for IND690-Base

F5

F6

F9

F1

F2

F3

F4

CODE A key

CODE B key

CODE C key

CODE D key

CODE E key

CODE F key

key

F10

key

F11

T

key

F12

PT

key

External keypad

Shift F1

Shift F2

Shift F3

Shift F4

Shift F5

Shift F6

Shift F9

Shift F10

Shift F11

Shift F12

Note

The language of your external keyboard can be set in the master mode block LAYOUT

EXT. KEYBOARD, see page 68.

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Operating instructions 22012808F 07/09

IND690-Base

Additional functions

4.17

Working with a second display

An ID1 Plus, ID3s, ID7 or another IND690 weighing terminal can be connected to the

IND690 weighing terminal as a second display.

Conditions

• Interface CL 20mA-690 installed in passive operating mode (factory setting).

• AUTO-DIR setting selected in master mode (see page 56).

• Weighing terminal is connected as second display with cable 00 504 511.

Operation possibilities on second display

The following functions are also possible on the second display:

• Set to zero

• Taring

IND690 as second display

With IND690 as a second display, the weight value fills the entire display (BIG

WEIGHT DISPLAY ON).

4.18

Recall data from Alibi memory

With the AlibiMemory-690 memory module you can fulfill your recording obligations in certified operation without having to archive paper.

AlibiMemory-690 automatically assigns every weighing operation a consecutive data record number that also appears on the printout, saves the net and tare value, the date and the time and also the scale number, tare source, MinWeigh and, if necessary, additional ID codes.

Immediately after the following actions, entries are made in the alibi memory:

• Interface commands "S" and "SX"

• Interface command "SR" as soon as a stable weight value has been determined

• Pressing

• Automatic transfer key printout when a certain weight value is reached (AutoPrint)

The AlibiMemory-690 operates according to the principle of a ring memory: When the capacity limit of 675500 data records is reached, the oldest data record is deleted and overwritten with data from the latest weighing.

By entering suitable search criteria you can quickly access the data of a very specific weighing.

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29

Additional functions

30

IND690-Base

4.18.1

Initiate

➜ Press INFO, ALIBI key sequence.

The function keys change to the following assignment:

FIND

Enter search criteria

>>...

Search for next matching data record starting with oldest

PRINT

Print displayed data record

-> Num

Search for data record with known data record number

END

Exit Info Alibi and return to normal mode

4.18.2

Fast search with entry of data record number

1. Press ->Num key.

2. Enter number of data record to be searched for and confirm with .

AlibiMemory-690 now searches for the desired data record.

Notes

• The search may take up to 10 seconds.

• If no data record with the entered number is found, the message NO MATCHING

DATA RECORD appears.

4.18.3

Search with other search criteria

➜ Press FIND key.

The function keys are given the following assignment:

DATE

Enter date as search criterion

TIME

Enter time as search criterion

NET

Enter net value as search criterion

TARE

Enter tare value as search criterion

START

Start search with entered search criteria

END

Terminate search

All offered search criteria can be combined with each other.

The entered search criteria are shown in the display in clear text.

This enables you to search for a find a specific weighing.

Enter date

➜ Press DATE key and enter complete date in DD.MM.YY form.

Enter time

➜ Press TIME key and enter desired time in one of following formats.

Format HH all weighings between HH.00.00 and HH.59.59 are found

Format HH.MM

all weighings between HH.MM.00 and HH.MM.59 are found

Format HH.MM.SS only the weighing at the time HH.MM.SS is found

Operating instructions 22012808F 07/09

IND690-Base

Additional functions

Enter net/tare value

1. Press NET or TARE key.

2. Enter weight value and confirm with .

The function key assignment changes back again for selection of the search criteria.

Note

The weight unit for entering the weight values can be selected with the cursor keys

< or >.

Start search

➜ Press START key.

AlibiMemory-690 searches for the oldest data record which meets the entered search criteria.

Notes

• The search may take up to 10 seconds.

• If no data record with the entered values is found, the message NO MATCHING

DATE RECORD appears.

• If no search criterion has been entered, the oldest data record is displayed.

4.18.4

Displaying data records

Found data records are shown in the display on 2 pages. You can change between the two pages with the cursor keys < or >.

1/2

Example 1st page

D/Z:

NUM:

NET:

TARE:

02.04.98

000987

09:25:51

25.000 KG

100,346 KG PT

1

Example 2nd page

ARTICLE NO.

A: 123456789

ORDER NO.

B: 55555

2/2

Scroll forward/back

The key >>... enables you to scroll within the found data records.

Notes

• When, during scrolling with the key >>... all entries of the AlibiMemory-690 have been searched through, the message END OF FILE appears.

• If a weight value has fallen below the set minimum weight, the weight value is also shown in the alibi memory with the symbol .

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31

Additional functions

4.18.5

Printing records

1. Press the PRINT key.

2. Press the PRINT key in the next window.

3. Enter the number of the first record to be printed.

4. Enter the number of records to be printed.

5. Enter the output port (COM1 ... COM9).

The selected records are printed at the specified interface.

IND690-Base

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IND690-Base

Settings in the master mode

5 Settings in the master mode

5.1

Overview of the master mode

In the master mode you adapt the IND690-Base weighing terminal to meet your needs. Depending on the configuration, the master mode is divided into 4 or 5 master mode blocks, which are in turn divided into further blocks.

TERMINAL

For system settings, such as entering the date and time or loading permanent texts,

see section 5.3.

PAC

To set application-specific parameters, see operating instructions of the respective application software.

APPLICATION is displayed instead at the IND690-Base, see Section 5.4.

SCALE

To select one of the connected weighing platforms. For each selected weighing platform the parameters are then set which concern the weight value, e.g. stability

detector, unit, etc., see section 5.5.1.

INTERFACES

To select an interface. The communication parameters are then set for each interface,

see section 5.6.

SERVICE

For configuring the weighing platform(s).

On IDNet weighing platforms only for METTLER TOLEDO service technicians.

On weighing platforms with an analog signal output, see service manual A/D converter Point ME-22004256.

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33

Settings in the master mode

IND690-Base

5.2

Operating the master mode

5.2.1

Enter the master mode

1. Press MODE key.

If the current function keys assignment does not contain MODE, press the cursor keys < or > as often as necessary until the MODE key appears.

2. Enter personal code if configured.

The display shows the first master mode block TERMINAL.

5.2.2

Assignment of function keys in the master mode

Assignment on the top level

On the top level of the master mode the function keys are assigned as follows:

← →

Change to previous block within a level

Change to next block within a level

Exit level and return to higher-level block

END OK

Exit the master mode and return to normal mode

Recall lowerlevel block or confirm selection

➜ Select the function by pressing the function key.

Example

➜ Press the END key to exit the master mode and return to the normal mode.

When the function keys are otherwise allocated

➜ Press the cursor keys < or > repeatedly until the function key assignment shown above appears.

Assignment in input masks

In input masks for several parameters, the function keys are assigned as follows:

Select parameters

< >

Setting parameters

F EDIT

Select function of function key

F5:

EDIT, STD,

ADD, INS, etc.

Possible assignments:

ADD

INS

EDIT

DEL

PRINT

STD

EDIT

GOTO

Accept settings and return to higher-level block

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Settings in the master mode

5.2.3

Master mode operation with the navigation keys

Instead of the function keys, it is also possible to use the navigation keys to operate the master mode.

Function key

F1 (

←)

F2 (

→)

F4 (

↑)

F6 (OK)

Navigation key

<

>

5.2.4

Orientation in the master mode

For improved orientation the display shows the last steps in the path of the current master mode block.

Example

The upper 3 lines of the display show the following path for selecting the DeltaTrac application FILLING:

5.2.5

Entries in the master mode

The following basic rules apply to entries made in the master mode:

• Confirm (alpha)numeric entries with .

• Alphanumeric entries with the IND690: see page 24.

• To accept the displayed value: Press .

5.2.6

Emergency entrance into the master mode

If a personal code has been assigned for entering the master mode and you have forgotten your code, you can still enter the master mode:

➜ Enter the character sequence C, L, E, A, R as your personal code.

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35

Settings in the master mode

IND690-Base

5.3

TERMINAL master mode block

5.3.1

Overview of the TERMINAL master mode block

In the TERMINAL master mode block you enter the following system settings:

36

Legend

• Blocks highlighted in grey are described in detail in the following.

• Factory settings are printed in bold print.

Operating instructions 22012808F 07/09

IND690-Base

Settings in the master mode

FIXED TARE

LOAD FIXED TARE

DELETE ALL TARES

Notes

5.3.2

Settings in the master mode block TERMINAL

Store tare values in the tare memory as a safeguard against power failure

1. Select memory number with GOTO: 1 ... 999.

2. With , change to WEIGHT, press EDIT and enter the tare weight in the unit displayed.

3. With , change to TEXT, press EDIT and enter the designation of the tare memory, max. 30 characters.

4. To load additional tare weight constants, press and repeat steps 1 to 3.

Delete all tare memories.

• With the cursor keys < or > you can scroll through the existing tare memories.

• When entering the tare weight, it is possible to change the weight unit with the cursor keys < or >.

FIXED TEXT

LOAD FIXED TEXTS

DELETE ALL TEXTS

Notes

Store texts in the text memory as a safeguard against power failure

These texts can for example be assigned as identifications or can be additionally output when printing.

1. Select memory number with GOTO: 1 ... 999.

2. With , change to TEXT, press EDIT and enter the designation of the text memory, max. 30 characters.

3. To load additional fixed texts, press and repeat steps 1 and 2.

Delete all text memories.

• With the cursor keys < or > you can scroll through the existing text memories.

• Fixed text No. 20 is displayed when switching on with a restart, see Page 11.

Operating instructions 22012808F 07/09

37

Settings in the master mode

IND690-Base

FIXED DELTA

LOAD FIXED DELTA

DELETE ALL DELTA

Notes

Store target weight/tolerance combinations in DeltaTrac memories as a safeguard against power failure

1. Select memory number with GOTO: 1 ... 999.

2. With , change to TARGET, press EDIT and enter the target weight in the unit displayed.

3. With , change to TOL.(–), press EDIT and enter the lower tolerance in the unit displayed.

4. With , change to TOL.(+), press EDIT and enter the upper tolerance in the unit displayed.

5. To load additional DeltaTrac constants, press and repeat steps 1 to 4.

Delete all DeltaTrac memories.

• With the cursor keys < or > you can scroll through the existing DeltaTrac memories.

• When entering the target weight and tolerances, it is possible to change the weight unit with the cursor keys < or >.

• The terminal suggests symmetrical tolerances TOL. (+) and TOL. (–). However, different tolerances are also permissible.

DELTATRAC

TYPE

Set DeltaTrac application

Select DeltaTrac application

FILLING

CLASSIFYING

Weigh in target weight within a tolerance range (factory setting)

Evaluate the test samples as good, too light or too heavy based on the target weight and tolerance

CHECKWEIGHING Determine difference between target and actual weight

AUTO PRINT WITHIN

TOL

PRINT ONLY WITHIN

TOL

MIN. DELTA

Automatic printout when actual weight lies within the specified tolerance

Printout only when actual value lies within the specified tolerance

Specify minimum target weight, adjustable from 10 ... 100 d, factory setting: 40 d

LANGUAGE Select dialog language

Possible settings: German, English, French, Dutch, Italian, Spanish

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Operating instructions 22012808F 07/09

IND690-Base

Settings in the master mode

KEYS A B C D E F

KEY A (B, C, D, E, F)

TEXT

LENGTH

REQUEST FOR

INPUT

Name identification keys CODE A … CODE F

Identification data CODE A (CODE B, CODE C, CODE D, CODE E, CODE F)

Naming the ID key

Max. 30 characters possible, factory setting: 20 characters

Set request for input for the selected key

Possible settings:

OFF CODE A (CODE B, CODE C, CODE D, CODE E, CODE F) does not have to be entered

RENEW

REUSE

A new identification must be entered for every weighing

An identification can be used for several weighings

DATE / TIME

SET DATE AND TIME

DATE

TIME

FORMAT

DATE

SEP

TIME

SEP

Enter date and time

Enter date in the displayed format

Enter time in the displayed format

Select date format

Possible settings:

DD.MM.YY (factory setting), MM.DD.YY, YY.MM.DD, DD.MM.YYYY, MM.DD.YYYY,

YYYY.MM.DD

Select separating character in date format

Possible settings:

"." (factory setting), ":", "/", "–"

Select time format

Possible settings:

HH:MM:SS 24 h (factory setting), HH:MM:SS 12 h, HH:MM 24 h, HH:MM 12 h

Select separating character in time format

Possible settings:

":" (factory setting), “.“

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39

Settings in the master mode

IND690-Base

40

DATE / TIME Enter date and time

SUMMER TIME

SUMMER TIME OFF No automatic changeover to summer time

SUMMER TIME ON Configure automatic changeover to summer time

Other settings, factory settings in brackets:

START WEEKDAY

WEEK

MONTH

(Sunday)

(4)

(MARCH)

END

TIME

WEEKDAY

WEEK

MONTH

TIME

(2:00)

(Sunday)

(4)

(October)

(03:00:00)

PERSONAL CODE

CODE

Comment

Load or delete code for entering the master mode

Enter code with a maximum of 8 alphanumeric characters.

• If no code is entered, access to the master mode is unrestricted.

• The personal code can be entered as ASCII characters (default), hexadecimal code (activation using the IDENT E key) or decimal code (activation with the

IDENT F key).

MASTER MODE START

POS.

NORMAL

LAST POSITION

Select start position for entering the master mode

Selection of the master mode blocks always begins with the TERMINAL block

(factory setting).

When entering the master mode, the last block edited is displayed immediately.

SCREEN SAVER

WAITING TIME

Comment

Switch screen saver on or off

Enter time until screen saver is activated.

Possible values: 1 ... 60 minutes

To hold all display elements at the same luminosity, we recommend not switching off the screen saver.

BIG WEIGHT DISPLAY Switch full-display indication of the weight on or off

Factory setting: BIG WEIGHT DISPLAY ON

Operating instructions 22012808F 07/09

IND690-Base

Settings in the master mode

CONTROL MODE

X10 KEY

CONTROL MODE ON

Adjust control mode

Activation of control mode with X10 key (factory setting).

This setting is only possible with non-certified scales.

The weighing terminal always operates with the higher resolution.

DYNAMIC WEIGHING

NO PRINT

AUTO PRINT

Set printing during dynamic weighing

Results during dynamic weighing are not automatically printed out (factory setting).

Each result during dynamic weighing is automatically printed.

Dynamic weights are marked with "Result:" on the printout.

ID5 MODE

ID7 MODE

Deactivating or activating downward compatibility with ID5 or ID7

If ID5 MODE ON or if ID7 MODE ON is selected, the IND690 is operated with downward compatibility to the ID5 or ID7. This also applies to the other application pacs. For details please contact the METTLER TOLEDO customer service.

Factory setting: ID5 MODE OFF, ID7 MODE OFF

DISPLAY DURATION

ERROR MESSAGES

INFO MESSAGES

STATUS MESSAGES

Set display duration for messages

Set display duration for error messages; factory setting: 2 seconds

Set display duration for informational messages; factory setting: 3 seconds

Set the display duration for status messages, factory setting: 3 seconds

MODE SCALES

SCALES SERIAL

SCALES PARALLEL

SUM SCALE

Select between serial and parallel operating mode for the connected scales

Serial operation of the connected scales: Only the weight value of the current scale is displayed.

Parallel operation of the connected scales: All weight values of the connected scales are displayed simultaneously.

A sum scale can be defined in parallel scale operation.

1. SUM SCALE: Select ACTIVATED.

2. With , change to SCALE 1 and select YES with < or > if this scale is to be the sum scale.

3. Repeat the procedure for SCALE 2 - SCALE 4.

Factory setting: SUM SCALE DEACTIVATED

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41

Settings in the master mode

IND690-Base

ACOUSTIC SIGNAL Signal tone On/Off

Factory setting: SIGNAL ON

OPERATION WITHOUT

SCALE

Set the behaviour when the weighing terminal is operated without a scale

STANDARD

DEMO

TERMINAL

IND690 searches for connected weighing platforms while booting.

If no scale is found, the following behaviour patterns are possible.

If no scale is found, the booting process stops and the message NO SCALES

DETECTED is displayed (factory setting).

To continue the booting process press the SCALE key.

During operation a virtual scale is shown whose weight value can be changed and which otherwise behaves like a "real" scale.

If no scale is found, the message NO SCALES DETECTED is displayed briefly.

During operation a virtual scale is shown whose weight value can be changed and which otherwise behaves like a "real" scale.

If no scale is found, the message NO SCALES DETECTED is displayed briefly.

A scale is not displayed during operation, the message TERMINAL is shown.

All the scale-specific functions, keys and application blocks are deactivated.

STEALTH MODE

DELTATRAC

STANDARD

LINEAR

STANDARD-I

Comment

Switch the scale on/off without weight display

Under certain circumstances, such as high quality goods or top secret recipes, working without a weight display may be desirable. The DeltaTrac is then the only filling aid.

Select the display behaviour of the DeltaTrac optical weighing aid

"Normal" DeltaTrac, high resolution in the range of the target weight

The optical weighing aid behaves linearly to the weighed-in weight

The display behaviour of the DeltaTrac is inversely to that of the "normal" DeltaTrac

STEALTH MODE can only be activated at non-certifiable scales.

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IND690-Base

Settings in the master mode

RESET TERMINAL

Comment

Reset all terminal functions to the factory setting

DELTATRAC

DATE/TIME

Filling

Autoprint within tol: no

Print only within tol: no

Min.Delta = 40 d

Format = DD.MM.YY / HH:MM:SS 24h

Summertime: off

Normal

ON

MASTER MODE START POS.

SCREENSAVER

BIG WEIGHT DISPLAY

DYNAMIC WEIGHING

CONTROL MODE

ID5 MODE

ID7 MODE

DISPLAY DURATION

On

No printout

X 10 key

Off

Off

2 / 3 seconds

MODE SCALES Serial

ACOUSTIC SIGNAL on

OPERATION WITHOUT SCALE Standard

STEALTH MODE Off

The memories are not affected by this.

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43

Settings in the master mode

IND690-Base

5.4

APPLICATION master mode block

This block is only displayed at the IND690-Base.

TOTALIZING Adapting the totalizing function

FUNCTION KEYS

TARG

MAN

If TOTALIZING ON is selected, the following setting options are displayed.

Displaying/hiding the function keys permitted for totalizing

Display/hide the TARG key

Display/hide the MAN key

CANC

ITEM

Display/hide the CANC (cancel) key

Display/hide the ITEM (item counter) key

MINIMUM DEFLECTION Entry of the minimum deflection that has to be exceeded so that the next item can be totalized.

Possible settings: 1 ... 999 d

Factory setting: 10 d

TRANSACTION NUMBER The transaction number is increased by 1 at every totalization. When the transaction number has reached 999 999, it begins again at 000 001.

Nonetheless the transaction number in this block can be set to a specific value.

SQC FUNCTION Recording of the mean value standard deviation, minimum and maximum

Factory setting: SCQ FUNCTION OFF

RESET APPLICATION Reset the TOTALIZING function to the factory setting

5.5

SCALE master mode block

The weighing platform is selected in the first block: SCALE 1 ... SCALE 4 and SCALE

Σ for IND690 or SCALE 1 ... SCALE 3 and SCALE

Σ for IND690xx and IND690-24V.

The SCALE master mode block depends on the connected weighing platform.

METTLER TOLEDO industrial scales

see Section 5.5.1

METTLER TOLEDO SICS scales

see Section 5.5.2

LabTec X-/XP-/XS scales

WM/WMH scales

Sum scale

see Section 5.5.3

see Section 5.5.4

see Section 5.5.5

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Operating instructions 22012808F 07/09

IND690-Base

Settings in the master mode

5.5.1

SCALE master mode block for METTLER TOLEDO industrial scales

Overview

In the SCALE master mode block the following settings for the weight can be carried out:

Legend

• Blocks highlighted in grey are described in detail in the following.

• Factory settings are printed in bold print.

• Blocks which only appear under certain conditions have a dotted outline.

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45

Settings in the master mode

IND690-Base

Settings

Adapt weighing platform to weighing sample WEIGHING-PROC

ADAPT

UNIVERSAL WEIGHING

STATIC WEIGHING

FINE FILLING

For solid bodies, coarse filling or checkweighing (factory setting).

For solid bodies and weighing under extreme conditions, e.g. strong vibrations or weighing animals.

For liquid or powdered weighing samples.

VIBRATION ADAPTER Adapt weighing platform to the vibration influences of the environment

AVERAGE CONDITIONS Factory setting.

EXTREME CONDITIONS The weighing platform operates more slowly, however is less sensitive, e.g. suitable with building vibrations and vibrations at the weighing location.

IDEAL CONDITIONS The weighing platform operates very quickly, however is very sensitive, e.g. suitable with very calm and stabile weighing location.

STABILITY DETECTOR Adapt automatic stability detector

Possible settings:

ASD = 0 Stability detector switched off

(only possible with non-certified weighing platforms)

ASD = 1 fast display

ASD = 2

ASD = 3

ASD = 4 slow display good reproducibility

▼ (factory setting)

▼ very good reproducibility

AUTOZERO

Comment

Switch automatic zero-point correction on or off

The automatic zero-point correction corrects the weight of minor dirt with the weighing platform unloaded.

Factory setting: AUTOZERO ON

On certified weighing platforms the zero-point correction is always switched on.

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Operating instructions 22012808F 07/09

IND690-Base

Settings in the master mode

AUTOTARE

AUTO SET TARE

OFF

ON

AUTO CLEAR TARE

OFF

ON

THRESHOLD

RESTART

SECOND UNIT

Comment

DISPLAY UPDATE

Comments

Configuring automatic taring

Activate/deactivate automatic taring

No automatic taring, factory setting

Taring when the weight threshold is exceeded

Activate/deactivate automatic clearing of the tare

No automatic clearing of the tare weight, factory setting

Delete the tare automatically when the weight drops below the weight threshold

Entry of the weight threshold at which taring or tare clearing is carried out.

Possible settings: 1 d ... 99 d, factory setting: 10 d

Switch restart function on or off

When RESTART ON is set, the zero point and tare value remain stored after the power supply is interrupted. When the weighing platform is switched on again, the terminal shows the current weight.

Factory setting: RESTART OFF

Select second weight unit

Possible units: g, kg, lb, oz, ozt, dwt

Unit

Kilogram

Pound

Ounce

Troy Ounce

Pennyweight

Gram

Abbreviation Conversion to g

kg lb oz ozt dwt g

= 1000 g

≈ 453.59237 g

≈ 28.349523125 g

≈ 31.1034768 g

≈ 1.555173843 g

= 1 g

On certified weighing platforms only the units permitted by certification appear.

Set display speed of the weight display

Select number of updates per second (UPS).

Possible values: 6, 10, 15, 20 UPS

• This block only appears when the DISPLAY UPDATE function is supported by the connected weighing platform.

• The possible settings are dependent on the connected weighing platform.

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47

Settings in the master mode

IND690-Base

MINWEIGH

MINWEIGH ON

TYPE

MINWEIGH OFF

Comment

Configure minimum weighing-in quantity

In this setting, the blinking symbol appears in the display when the weight on the scale falls below the stored minimum weight.

Determining the minimum weight:

CALCULATED The minimum,5 weight is calculated:

U

0

Measurement uncertainty when the load approaches 0.

DIRECT

TOL

SF

Required tolerance

Safety factor

MINWEIGH Calculated value based on the parameters entered above

Enter MINWEIGH value directly

No monitoring of the minimum weighing-in quantity (factory setting)

MINWEIGH is only available if monitoring of the minimum weighing-in quantity is activated in service mode.

RESET SCALE Reset weighing platform to factory setting

WEIGHING-PROC ADAPT

VIBRATION ADAPTER

STABILITY DETECTOR

AUTOZERO

AUTOTARE

RESTART

MINWEIGH universal weighing average conditions

ASD = 2 on off off off

5.5.2

SCALE master mode block at SICS scales

Only the following settings for the weight value can be carried out at METTLER

TOLEDO SICS scales:

Settings for the weighing value at SICS scales SCALE

AUTOTARE

SECOND UNIT

MINWEIGH

For details see Section 5.5.1

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Operating instructions 22012808F 07/09

IND690-Base

Settings in the master mode

WEIGHING MODE

UNIVERSAL

FILLING

SENSOR MODE

CHECK WEIGHING

5.5.3

SCALE master mode block at LabTec X-/XP-/XS scales

The following settings for the weight value can be carried out at METTLER TOLEDO

LabTec X-/XP-/XS scales:

SCALE Settings for the weighing value at LabTec

X-/XP-/XS scales

WEIGHING MODE

CONDITIONS

MEASURED VALUE

ENABLE

TEST WEIGHT

TEST CALIBRATION

AUTOZERO

AUTOTARE

RESTART

SECOND UNIT

DISPLAY UPDATE

MINWEIGH

For details see below

For details see Section 5.5.1

Display update is set fixed to 10 UPS

Adapt the weighing platform to the weighing sample

For all the common weighing processes

For liquid or powdered weighing sample

Supplies a weighing signal that is filtered to different degrees depending on the setting of the ambient conditions. The filter behaves linearly (not adaptatively) with regard to time and is suitable for continuous measured value processing

The scale only reacts to larger weight changes, the weighing result is very stable

CONDITIONS

STANDARD

RESTLESS

VERY RESTLESS

CALM

Adapt the weighing platform to the conditions

Normal conditions, factory setting

The scale operates slower, but is less sensitive. Suitable, for example, for building oscillations and vibrations at the weighing location

The scale operates very slowly, but is even less sensitive. Suitable, for example, for strong building oscillations and extreme vibrations at the weighing location

The scale operates very fast, but is very sensitive. Suitable, for example, for a very calm and stable weighing location

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49

Settings in the master mode

IND690-Base

MEASURED VALUE

ENABLE

VERY FAST

FAST

RELIABLE + FAST

RELIABLE

VERY RELIABLE

Adapt the reproducibility

Rapid display

Slow display good reproducibility

(factory setting)

▼ excellent reproducibility

50

TEST WEIGHT

SET EXT CALIBRATION

WEIGHT

Test weight used to check the calibration

Enter the weight value of the external calibration weight

TEST CALIBRATION

CALIBRATION WEIGHT

INTERNAL

EXTERNAL

Comment

Settings used to check the calibration

Checking with the internal calibration weight

Checking with external calibration weights as entered under TEST WEIGHT

External calibration weights are not possible at certified scales

For the course and starting refer to the LabTec X-/XP-/XS scales documentation

5.5.4

SCALE master mode block at WM/WMH scales

The following settings can be carried out at METTLER TOLEDO WM/WMH scales:

SCALE

DIRECT TALK

REMOTE TALK

TEST WEIGHT

TEST CALIBRATION

AUTOZERO

AUTOTARE

RESTART

SECOND UNIT

DISPLAY UPDATE

MINWEIGH

Settings at WM/WMH scales

For details, see the next page

For details see Section 5.5.3

For details see Section 5.5.1

Display Update can be configured using "Direct talk"

Operating instructions 22012808F 07/09

IND690-Base

Settings in the master mode

DIRECT TALK Direct communication between IND690 and WM/WMH scale

When DIRECT TALK is activated, commands can be entered and sent to the WM/

WMH scale by using the SEND function key.

In weighing mode the following information is displayed:

SEND

RCVD sent command answer received from the WM/WMH scale

The possible commands are described in the WM/WMH operating instructions.

REMOTE TALK Configuration at the PC, display at the IND690

When REMOTE TALK is activated, commands to the WM/WMH scale have to be processed on a PC.

In weighing mode the following information is displayed:

SENT

RECD sent command answer received from the WM/WMH scale

Start command: RTS_x, whereby x is the scale number

End command: RTE

The possible commands are described in the WM/WMH operating instructions.

5.5.5

SCALE master mode block

Σ

SCALE

Σ

SCALE RESOLUTION

METROLOGICAL

MATHEMATICAL

CALCULATION

NORMAL

HIGHRES

Setting a sum scale

Select the scale resolution of the sum scale

The sum scale resolution corresponds to the coarsest scale involved or the coarsest weighing range respectively

The weight values are totalized mathematically correctly

Calculation basis for the total

The displayed weight values are added

The high-resolution weight values are added

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51

Settings in the master mode

IND690-Base

52

COM1 ... COM9

NOT ASSIGNED

GA46

5.6

INTERFACE master mode block

Select the interface connection

➜ Select the interface connection in the first block:

COM1 ... COM9.

Select interface type

➜ Specify the interface type for the selected interface connection COM1 … COM9.

BARCODE

RFID

RS232

IDNET SCALE

ANALOG SCALE

SICS SCALE

ALIBI MEMORY

CL20MA

If the selected interface connection is not assigned.

For connecting the printer GA46/GA46-W.

The data is exchanged via an RS232 interface.

The other setting possibilities are described in the operating and installation instructions GA46.

For connecting a barcode or RFID reader.

The data is exchanged via an RS232 interface.

For additional settings, see Section 5.6.2.

This requires an RS232 interface to be connected at the selected interface connection.

For additional settings, see Section 5.6.1.

Only for COM2 ... COM5 (IND690) or for COM2 ... COM4 (IND690xx, IND690-24V)

This requires an interface IDNet-690 to be installed at the selected interface connection.

For additional settings in the master mode block SCALE, see Section 5.5.

Only for COM2 ... COM5 (IND690) or for COM2 ... COM4 (IND690xx, IND690-24V)

This requires an interface AnalogScale-690 to be installed at the selected interface connection.

For additional settings in the master mode block SCALE, see Section 5.5.

Only for COM2 ... COM5 (IND690) or for COM2 ... COM4 (IND690xx, IND690-24V)

This requires an interface SICS-Scale-690 to be installed at the selected interface connection.

When SICS SCALE is selected, the following default settings are set:

SICS mode, 9600 baud, 8 data bits, 1 stop bit, no parity.

For additional settings, see Section 5.6.1.

Only for COM2 ... COM9.

This requires an AlibiMemory-690 to be installed at the selected interface connection.

For additional settings, see Section 5.6.3.

Only for COM2 ... COM9.

This requires an interface CL20mA-690 to be installed at the selected interface connection.

For additional settings, see Section 5.6.1.

Operating instructions 22012808F 07/09

IND690-Base

Settings in the master mode

COM1 ... COM9

RS422

RS485

4 I/O

RELAY BOX 8

ARM100

ANALOG OUTPUT

ETHERNET

PROFIBUS-DP

WLAN

BLUETOOTH

BT-BLD DISPLAY

Only for COM2 ... COM9.

This requires an interface RS485/422-690 to be installed at the selected interface connection.

For additional settings, see Section 5.6.1.

Only for COM5/COM6.

This requires an interface 4 I/O-690 with a relay box 4-690 to be installed at the selected interface connection.

For additional settings, see Section 5.6.4.

Only for COM2 ... COM9.

This requires an interface RS485/422-690 with a relay box 8-690 to be installed at the selected interface connection.

For additional settings, see Section 5.6.4.

Only for COM2 ... COM9.

This requires an interface RS485/422-690 with ARM100 to be installed at the selected interface connection.

For additional settings, see Section 5.6.4.

Only for COM5/COM6.

This requires an interface AnalogOut-690 to be installed at the selected interface connection.

For additional settings, see Section 5.6.6.

Only for COM2 ... COM9.

This requires an interface Ethernet-690 to be installed at the selected interface connection.

For additional settings, see Section 5.6.7.

Only for COM2 ... COM9.

This requires an interface ProfibusDP-690 to be installed at the selected interface connection.

For additional settings, see Section 5.6.8.

Only for COM2 ... COM9.

This requires an interface WLAN-690 to be installed at the selected interface connection.

For additional settings, see Section 5.6.9.

Only for COM2 ... COM9.

This requires an interface Bluetooth-690 to be installed at the selected interface connection.

For additional settings, see Section 5.6.10.

Only for COM2 ... COM9. For direct connection of the "BLD Display" as a second display.

This requires an interface Bluetooth-690 to be installed at the selected interface connection.

For additional settings, see Section 5.6.10.

Operating instructions 22012808F 07/09

53

Settings in the master mode

IND690-Base

COM1 ... COM9

BT-P42

BT-BARCODE

BT-SICS SCALE

USB

KEYBOARD PS2

Only for COM2 ... COM9. For direct connection of the "BT-P42" printer.

This requires an interface Bluetooth-690 to be installed at the selected interface connection.

For additional settings, see Section 5.6.10.

Only for COM2 ... COM9. For connection of a Bluetooth barcode reader.

This requires an interface Bluetooth-690 to be installed at the selected interface connection.

For additional settings, see Section 5.6.10.

Only for COM2 ... COM5 (IND690) or for COM2 ... COM4 (IND690xx, IND690-24V)

This requires an interface Bluetooth-690 to be installed at the selected interface connection.

When SICS SCALE is selected, the following default settings are set:

SICS mode, 9600 baud, 8 data bits, 1 stop bit, no parity.

For additional settings, see Section 5.6.10.

Only for COM2 ... COM9.

This requires an interface USB-690 to be installed at the selected interface connection.

For additional settings, see Section 5.6.1.

For connecting an external keyboard.

Only for COM9.

This requires an interface PS2-690 to be installed at COM9.

For additional settings, see Section 5.6.5.

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Operating instructions 22012808F 07/09

IND690-Base

Settings in the master mode

5.6.1

Settings in the master mode blocks RS232, RS422, RS485, CL20mA, USB

RS232, RS422, RS485, CL20mA, USB

OPERATING MODE This selection only appears with the RS485 master mode block.

1:1 CONNECTION Weighing terminal and peripheral are directly connected.

BUS SLAVE For operating the weighing terminal in a bus system.

The following parameters are set automatically for the dialog:

No handshake, no continuous transmission, no transfer string, fixed string framing

C

R

L

F

.

The PC is the master, the terminals act as slaves and only transmit when requested to do so by the master. The master must also wait until after sending out a command until the slave's answer is received.

Each terminal must be assigned a unique address.

Additional setting:

ENTER TERMINAL ADDRESS. Possible addresses: 1 … 31

COMMUNICATION

BITS PER

CHARACTER

Set communication parameters (factory settings are shown in bold print).

All parameters are shown on a display page and can be set there; for function key

assignment, see page 59.

Possible settings: 7 bits, 8 bits

STOPBITS

PARITY

BAUDRATE

MODE

STANDARD

SETTING

DIALOG MODE

PRINT MODE

Possible settings: 1 stop bit, 2 stop bits

Possible settings: Parity even, parity odd, parity space, parity mark, no parity

Possible settings: 150, 300, 600, 1200, 2400, 4800, 9600, 19200, 38400,

57600 baud

Set operating mode.

This selection does not appear when interface RS485/422-690 is operated in the

BUS SLAVE operating mode.

Set operating mode to factory setting:

MMR dialog mode, no handshake, no auto transmission (no continuous transmission), transfer string: Standard, string framing: C

R

L

F

For dialog between weighing terminal and computer.

For other settings see next section.

To print weighing data, e.g. on a form printer.

For other settings see page 58.

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55

Settings in the master mode

IND690-Base

56

Set dialog mode

DIALOG MODE

MMR

HANDSHAKE

AUTOMATIC

CONTINUOUS

TRANSMISSION

This block does not appear with the RS485/422-690 interface.

Possible settings:

• NO AUTO TRANSMISSION.

• AUTO SIR – after each measuring cycle a stabilized or dynamic weight is transmitted.

• AUTO DIR – weight values are transmitted as with AUTO SIR and additionally, the special characters in the display are transmitted for a second display.

Fixed communications parameters: 9600 baud, 7 data bits, 2 stop bits, parity even

• AUTO SR – after each weight change which is greater than the set value, a motionless weight value and then a dynamic weight value are sent

TRANSFER STRING This block does not appear with the RS485/422-690 interface.

Possible settings:

• STANDARD – gross, net, tare

• OPTION 082/083 – gross, net, tare in GNT form, see operating instructions,

Option 082.

• USER-DEFINED – enter numbers of the application blocks which are to be transmitted or printed out.

SICS

STRING FRAMING Possible settings (factory settings are printed in bold print):

• CR Yes/No

• LF Yes/No

• <STX>---<ETX> Yes/No

• BLOCK CHECK CHAR Yes/No

Dialog mode with Standard Interface Command Set (SICS), see page 91.

STANDARD

HANDSHAKE

AUTOREPEAT

Set dialog between weighing terminal and computer

For information on dialog mode with the MMR command set, see page 78.

All parameters are shown on a display page and can be set there.

Possible settings:

• NO HANDSHAKE

• CL HANDSHAKE – for additional information on the CL handshake, see page

128.

• XON-XOFF PROTOCOL.

Standard setting: no handshake, no auto transmission.

Possible settings as MMR, see above.

Possible settings as MMR, see above.

AUTO-DIR not possible with SICS.

Operating instructions 22012808F 07/09

IND690-Base

Settings in the master mode

DIALOG MODE Set dialog between weighing terminal and computer

TOLEDO CONTINUOUS

TRANSFER RATE

CHECKSUM ON

CHECKSUM OFF

WEIGHT FORMAT

For the continuous transmission of net and tare values to METTLER TOLEDO

devices, e.g. to a second display. For a description, see page 89.

This block does not appear with the RS485/422-690 interface.

Set the data transfer rate

Possible settings: 25%, 33%, 50%, 100%

Factory setting: 100%

Checksum byte active, factory setting

Checksum byte inactive, the transfer format is shortened by 1 character.

Possible settings:

• Leading zeroes (factory setting)

• Leading blanks

TOLEDO SHORT

CONTINUOUS

TRANSFER RATE

For the continuous transmission of net values to METTLER TOLEDO devices, e.g. to

a second display. For a description, see page 89.

This block does not appear with the RS485/422-690 interface.

Set the data transfer rate

Possible settings: 25%, 33%, 50%, 100%

Factory setting: 100%

Checksum byte active, factory setting CHECKSUM ON

CHECKSUM OFF

WEIGHT FORMAT

Checksum byte inactive, the transfer format is shortened by 1 character.

Possible settings:

• Leading zeroes (factory setting)

• Leading blanks

PE SEND CONTINUOUS For connecting a PE balance as a reference balance, only with IND690-Count and

Interface CL20mA-690.

SECOND DISPLAY Used to connect an IND4xx terminal as a second display

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57

Settings in the master mode

IND690-Base

PRINT MODE

HANDSHAKE

LINE LENGTH

LINE FRAMING

REPORT TYPE

CONFIGURATION

PRINTOUTS

TRANSFER KEY

CODE A KEY

...

CODE F KEY

DYNAMIC KEY

PAC KEYS

Set print mode

Configure printout on an external printer

Possible settings:

• NO HANDSHAKE

• XON-XOFF PROTOCOL

Enter number of characters per line.

Possible settings: 1 … 240 characters

Factory setting: 40 characters

Enter ASCII character for line framing.

Possible settings:

Factory setting:

ASCII 0 … 255

ASCII 013 010 (C

R

L

F

)

Assignment of one of two possible printout formats to the configured printer.

Possible settings:

• REPORT TYPE A

• REPORT TYPE B e.g. for barcode printer e.g. for A4 printer

Configuration of the printouts assigned to the individual keys.

For each offered key, the current configuration can be printed out with the key sequence CHANGE CONFIGURATION, F (possibly several times) and PRINT.

Configuration options:

• CHANGE CONFIGURATION See next section

• DEFAULT SETTING

• DELETE ALL

Key-specific, if existent

All blocks of the data string are deleted

• PAPER FEED

• REPORT ON/OFF

• # OF COPIES

Adjustment range: 0 ... 9 lines

Switch key printout on/off

Setting range: 1 ... 9 copies

Factory setting: 1 copy

Only for the transfer key:

• PRINT INTERLOCK Prevents the same article from being weighed several times

ZERO LIMIT

MIN. DEFLECTION

The weighing platform has to be unloaded at least under the zero limit before a new article can be weighed

Setting range: 1 ... 99 d

Factory setting: 10 d

The weighing platform has to be deflected by at least the minimum deflection before the new article is weighed

Setting range: 1 ... 99 d

Factory setting: 30 d

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Operating instructions 22012808F 07/09

IND690-Base

Settings in the master mode

PRINT MODE

AUTOMATIC PRINTOUT

DECIMAL FORMAT

DOT (.)

COMMA (,)

PRINT LIST

COMPLETE LIST

LIST AB

LIST SCALE

LIST INTERFACES

LIST KEY

CONFIGURATIONS

Configure printout on an external printer

Switch automatic printout for transfer key on/off.

When AUTO PRINTOUT ON is selected, a printout for the transfer key is automatically created for each weight change > x digits.

Possible settings: 1 ... 255 digits (factory setting: 30 digits)

Decimal display

Decimal point (factory setting)

Decimal comma

Print settings

Print a complete list of all the parameters

Print only application blocks

Print only the scale parameters

Print only the interface parameters

Print only the key configurations

Change configuration

Function keys

The function keys are assigned in CHANGE CONFIGURATION as follows:

< >

Display previous entry

Display next entry

F ADD

Select function of function key

F5:

ADD, INS etc.

ADD

INS

EDIT

DEL

PRINT

The printout can be edited with function key F5:

ADD

INS

EDIT

DEL

PRINT

Return to next highest level; changes are not saved

Adds a new entry at the end of the printout.

Inserts a new entry in front of the displayed entry.

Changes into the EDIT mode for the displayed entry to edit the entry.

Deletes the displayed entry.

Creates a key printout.

Operating instructions 22012808F 07/09

59

Settings in the master mode

IND690-Base

EDIT mode

Function keys

The following function keys are available in the EDIT mode:

<–>

Select parameters

<

Set parameters, scroll back

>

Set parameters, scroll forward

F SAVE

Select function of function key

F5:

SAVE, EDIT

Confirm changes and return to higher level

Cancel EDIT mode and return to higher level; changes are not saved

Display page

The setting of the parameters of an entry appears in a clear layout on a display page

(example):

[EDIT] TRANSFER KEY

TYPE: AB

CRLF: YES

DATA:

FILL: NO

(2/7)

STYLE:

PAD: 01

011-013

First display line

Information for orientation in an entry

• Key name

• Mode: EDIT, INS or ADD

• Number of the display entry and total number of entries for the current printout.

TYPE parameter

Selection possibilities:

AB Output content of an application block with or without designation

TEXT

CHRn

LINE

DB

Print out any desired text

Insert n of any desired ASCII characters in the line, e.g. for tables; selection of character via DATA parameter

Blank line or separator line with any desired alphanumeric characters

Accesses a database field. When a field is printed out, all entries of the field are listed.

The option DB is only available when the software application supports access to a database.

The offered database fields are application-specific.

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Operating instructions 22012808F 07/09

IND690-Base

Settings in the master mode

STYLE parameter

STYLE determines in which format the designation and content of the application block are printed; adjustment possibilities:

STYLE TYPE

AB

DB

TEXT

Designation and content in grouped style

Designation and content in two lines, grouped style

Designation and content separated with extra blank spaces

Content alone, left-justified

Content alone, centred

Content alone, right-justified

Left-justified

Centred

Right-justified

CRLF parameter

Force line feed; the CRLF parameter is only available for:

• Text, left-justified

• Content alone, left-justified

• Type CHRn

Designation and content separated with extra blank spaces

FILL parameter

Show content with leading blank spaces up to maximum available length; the FILL parameter is only available for:

Designation and content separated with extra blank spaces

Content alone, left-justified

Content alone, centred

PAD parameter

Show designation and content separated with x blank spaces

Possible settings: 0 ... 63 extra blank spaces.

The PAD parameter is only available for:

Designation and content separated with extra blank spaces

Content alone, left-justified

Operating instructions 22012808F 07/09

61

Settings in the master mode

IND690-Base

DATA/FIELD parameter

Depending on the TYPE selected, DATA or FIELD is available.

TYPE

DATA/

FIELD

ENTRY

LINE DATA 1 alphanumeric character

Entry also possible as ASCII code, see below

AB DATA Number of application blocks to be output: xxx

The application block can be further specified with the following keys:

AB_EXT: _ For selecting read-only memories: xxx_yyy

SUB-BLK: . For selecting a sub-block: xxx.z or xxx_yyy.z

RANGE: For entering a range: xxx-xxx or xxx_yyy-yyy

CHRn DATA 1 alphanumeric character

Entry also possible as ASCII code, see below

TEXT

DB

DATA Alphanumeric characters

FIELD Select database field

Entry of

DATA parameter

To enter data or select database fields, the EDIT mode must be active.

1. Press F key, repeat if necessary until the assignment of the F5 key changes to

EDIT.

2. Press the EDIT key; an input mask appears.

3. Enter data in the format and with the keys offered.

4. Complete entry with .

Enter ASCII code for LINE and CHRn parameters

1. Open the entry mask with the EDIT key.

2. Press IDENT F and enter the ASCII code numerically.

3. Complete the numeric entry with IDENT F.

4. Complete entry with .

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IND690-Base

Settings in the master mode

5.6.2

Set barcode or RFID reader

BARCODE, RFID

TYPE

DL900/DL910/

DLL6000/LS3603/

GRYPHON BT100/

HERON-G D130/

FIRESCAN D131

...

OTHER

Set barcode or RFID reader

Select barcode or RFID reader.

When one of the barcode or RFID readers is selected, the communication and mode parameters for the selected barcode or RFID reader are automatically set.

DESTINATION BLOCK

000/00

AUTOMATIC ENTRY

DISPLAY DATA

UNTIL TIMEOUT

UNTIL KEYPRESS

For other barcode or RFID readers:

Settings in the sub-blocks COMMUNICATION and MODE as for the blocks RS232/

RS422/RS485/CL20mA/USB, see page 5.6.1.

The PRINT MODE setting is not possible when using barcode or RFID readers!

Enter the number of the application block and of the subsequent block with which the barcode or RFID entry is to be described.

When a target block is selected, barcode or RFID information can be read directly

into this block without having to press a key beforehand, see page 27.

If AUTOMATIC ENTRY ON is selected, the received barcode or RFID code is shown in the display and is then accepted as the entry automatically. The display duration

can be set in the TERMINAL master mode block, see page 41.

Only for RFID

The read-in data are displayed for the duration of the set display duration.

The read-in data are displayed until a key is pressed.

Operating instructions 22012808F 07/09

63

Settings in the master mode

IND690-Base

5.6.3

Setting AlibiMemory

ALIBI MEMORY Configure contents of the entries of the alibi memory

ENTRY LENGTH Use to select from various entries, the contents are shown in the display.

15 CHARACTERS Gross, tare, date/time, scale number, MinWeigh, tare source; 15 characters

Factory setting

35 CHARACTERS Same as 1, additionally ID code A (20 characters)

Note

45 CHARACTERS

55 CHARACTERS

55 CHARACTERS

55 CHARACTERS

55 CHARACTERS

55 CHARACTERS

Same as 1, additionally ID code A (30 characters)

Same as 1, additionally ID code A (20 characters) + ID code B (20 characters)

Same as 1, additionally ID code A (20 characters) + ID code C (20 characters)

Same as 1, additionally ID code A (20 characters) + ID code D (20 characters)

Same as 1, additionally ID code A (20 characters) + ID code E (20 characters)

Same as 1, additionally ID code A (20 characters) + ID code F (20 characters)

If an alibi memory had already been initialised and the format is changed, all previous entries (in the old format) are deleted. For safety, a corresponding notice appears before initialisation.

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Settings in the master mode

5.6.4

Configure inputs/outputs

4 I/O / RELAY BOX 8 / ARM100

INPUT Operate inputs internally or externally.

INTERNALLY

EXTERNALLY

Factory setting. Additional settings:

CONFIGURE INPUTS Select the desired setting for every input.

Factory setting for IND690-Base:

Input 1

Input 2 not in use zero setting

Input 3

Input 4 taring entry (ENTER key)

Input 5 ... 8 not in use

Possible settings: see page 127

Additional settings, only for 4 I/O:

ON/OFF HIGH ACTIVE Factory setting, the weighing terminal is switched off when ON/

OFF = 1. After the digital input has been activated, the display goes out, and the content of the text read-only memory 021, factory setting appears in the upper left corner: POWER OFF.

ON/OFF LOW ACTIVE The weighing terminal is switched off when ON/OFF = 0.

ON TIME Delayed switch-on: After the On signal has been activated, the weighing terminal still remains switched off for the configured period.

Possible settings: 0 to 9 seconds

Off TIME Delayed switch-off: After the Off signal has been activated, the weighing terminal still remains switched on for the configured period.

Possible settings: 0 ... 9 seconds

Note:

The input ON/OFF has priority over the keyboard, i.e. the weighing terminal can only be switched on again in the POWER OFF state via the ON/OFF input! In addition, entry into the master mode is permitted via the F6 key to be able to correct incorrect settings.

Inputs are independent of the weighing functions.

Read status of the inputs with the AR707 command, see page 121.

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Settings in the master mode

IND690-Base

4 I/O / RELAY BOX 8 / ARM100

OUTPUT

INTERNALLY

EXTERNALLY

I/O TEST

Operate outputs internally or externally.

Factory setting. Additional settings:

CONFIGURE OUTPUTS Select the desired setting for every output.

Factory setting for IDN690-Base:

Output 1 Delta low

Output 2 Delta ok

Output 3 Delta high

Output 4 Stable

Output 5 Setpoint 1

Output 6 Setpoint 2

Output 7 Setpoint 3

Output 8 Setpoint 4

SETPOINT MODE

Possible settings: see page 127

With SETPOINT MODE ON 8 configurable fixed or dynamic

set points are available, see page 67.

To this purpose a setpoint has to be assigned to at least one output.

Outputs are independent of the weighing functions.

Set the outputs via the AW706... command, see page 120.

Testing of the function and state of the inputs and outputs of one or two connected

8-690 relay box(es)

If an input or output is set (high), the display indicates its number.

If an input or output is not set (low), the display indicates –.

Set outputs

Switch over the outputs with the keys 1 to 8 of the numerical keypad.

Set inputs

Set inputs, e.g. by connecting a supply voltage (+24 V).

Two 8-ID7 relay boxes

Switch back and forth between the two 8-690 relay boxes with key 9 of the numerical keypad.

Exit

I/O TEST

Exit the I/O test and the master mode with the 0 key of the numerical keypad.

Comments

• During the I/O tests only the keys ,

T

and are active.

• Serial interfaces can be used during the I/O test.

• The possible functions for the inputs and outputs are listed in the Appendix, see

Section 10.4.

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Settings in the master mode

SETPOINT MODE ON – defining set points

After SETPOINT MODE ON is selected, the following input mask appears for the setpoints

1 ... 4 (Example):

SP1: F

↑ AO12

W1

SP2: F

↓ AO13

W2

SP3: D

↑ AO12

ALL

SP4: D

↓ AO11

ALL

1.2345 KG

0.5678 KG

4 parameters can be set for each set point:

a) Type of set point

F

↑ fixed set point, ascending

F

↓ fixed set point, descending

D

↑ dynamic set point, ascending

D

↓ dynamic set point, descending

Fixed set point Set point value is specified in the master mode and cannot be changed in the weighing mode.

Dynamic set point Set point value is specified in the weighing mode, see page 20.

Ascending Digital output is set when the value of the application block concerned is greater than or equal to the set point value.

Decending Digital output is set when the value of the application block concerned is less than or equal to

the set point value.

b) Application block

Weight value to which the set point refers. All application blocks with a valid weight unit (kg, g, lb, oz, ozt, dwt, pc) are possible.

Factory setting: Application block 012, net weight

c) Scale

W1 ... W4 or ALL for all scales

d) Set point value

With dynamic set points the weight value is entered in the normal mode, see page

20.

Configuring switching points 5 – 8

➜ With F4 >>, change to the input mask for switching points 5 – 8.

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Settings in the master mode

IND690-Base

KEYBOARD PS2

5.6.5

Configuring external keyboard

Select keyboard layout of connected external keyboard

Possible setting: English-USA, English-UK, German, French, Dutch, Italian, Spanish,

Finnish, Russian

ANALOG OUTPUT

SCALE

5.6.6

Configuring AnalogOut-690

The functionality of AnalogOut-690 is dependent on the version of your weighing terminal.

ALL SCALES

SCALE 1

...

SCALE 4

START-STOP MODE

Select weighing platform from which the weight values are to be output at the interface AnalogOut-690.

This block only appears when several weighing platforms are connected.

Factory setting: All weighing platforms

Weight values can be output by all connected weighing platforms at the AnalogOut-

690 interface.

The assignment of a weighing platform to the AnalogOut-690 interface can be changed with or the command AW010...

Only weight signals of the selected weighing platform can be output via the

AnalogOut-690 interface

When the selected weight value or the selected number of pieces is within the specified en start and stop values, a current/voltage signal in the specified range will be output at the AnalogOut-690 interface.

U/I

10 V 20 mA

Stop value

Start value

0 Start value

For additional settings, see page 70.

Stop value Weight

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Settings in the master mode

ANALOG OUTPUT

DELTATRAC MODE In this operating mode the net weight value on the AnalogOut-690 interface is output in the factory setting, provided DeltaTrac is active.

If no DeltaTrac target value is entered, 0 V / 0 mA are output.

ΔW-ΔT MODE

For additional settings, see page 70.

In this operating mode flows are measured via the weight change per time in the supply or catch container.

Example 1:

Weighing in with a flow rate of 4 kg/sec.

Example 2:

Subtractive weighing with a flow rate of 3 kg/sec.

starting value of the analog voltage signal: 10 V.

In both cases a change in the flow rate of 1 kg/sec. results in a change in the analog voltage signal of 2 V.

For additional settings, see page 71.

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Settings in the master mode

IND690-Base

ANALOG OUTPUT

DIRECTION

ALL

POSITIVE

NEGATIVE

Configure the behaviour of the analog output.

The analog signal is sent irrespective of the preceding sign.

The analog signal is only output at positive weight values. In the case of an underload or negative weight values the signal remains at "0" or the start value.

The analog signal is only output at negative weight values. In the case of positive weight values the signal remains at "0" or the start value.

This setting is ideal for subtractive weighing from a container.

Parameter for Start-Stop mode

AB

VALUE

WEIGHT

Application block number for the weight value to be output at the

AnalogOut-690 interface.

Factory setting: Application block 012, net weight

Starting value of the analog output signal

Factory setting: 0 V

Possible settings: 0 V – 10 V or 0 mA – 20 mA

Stop value of the analog output signal

Factory setting: 10 V

Possible settings: 0 V – 10 V or 0 mA – 20 mA

Weight value at which the analog output is to start.

Factory setting: 0 g or 0 kg

Weight value from which the maximum value of the analog signal is to be output.

Factory setting: Maximum load of weighing platform

Parameter for DeltaTrac mode

AB

V/mA AT ZERO

Application block number for the weight value to be output at the

AnalogOut-690 interface.

Factory setting: Application block 012, net weight

Starting value of the analog output signal

Factory setting: 0 V

Possible settings: 0 V – 10 V or 0 mA – 20 mA

V/mA AT TARGET Stop value of the analog output signal

Factory setting: 10 V

Possible settings: 0 V – 10 V or 0 mA – 20 mA

TOLERANCE +/– deviation from stop value of analog signal when the target weight tolerance is reached

Factory setting: Tolerance = 0 V

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Settings in the master mode

ETHERNET

COMMUNICATION

MODE

IP ADDRESS

SUBNET MASK

GATEWAY

Parameters for the

ΔW-ΔT MODE

AB Application block number for the weight value to be output at the

AnalogOut-690 interface.

Factory setting: Application block 012, net weight

ΔW-ΔT

Value for the change in the analog output signal in the case of a weight change of one unit per second.

START VALUE Starting value of the analog output signal

Factory setting: 0 V

Possible settings: 0 V – 10 V or 0 mA – 20 mA

5.6.7

Configuring Ethernet-690

The weighing terminal can only be operated on a network with a valid IP address, subnet mask and gateway address (if the weighing terminal is to route connections to another partial network). Ask your system administrator for these addresses.

Configuring Ethernet-690

For adaptation of the communication parameters between weighing terminal and

the Ethernet module, see page 55.

For adaptation of the communication mode, see page 55.

IP address entry

Net mask entry

Gateway address entry

Note

Additional information on the configuration of the Ethernet-690 network card and information on troubleshooting can be downloaded from the website of the manufacturer: www.WuT.de.

Checking Ethernet-690

Condition

You require a PC with Windows on which the protocol TCP/IP is installed. The PC must be operated in the same network segment as the weighing terminal with

Ethernet-690.

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Settings in the master mode

IND690-Base

Conducting test

With DOS entry window

1. Open DOS entry window.

2. Enter TELNET xxx.xxx.xxx.xxx 8000 (xxx.xxx.xxx.xxx = IP address) and confirm with .

The PC reports the following in a Telnet window

**************************

* Com-Server Highspeed *

**************************

The message means that the Ethernet-690 network card is operable. The PC and the weighing terminal can communicate with each other via interface

commands, see chapter 6.

3. Close Telnet window.

With browser

1. Start browser, e.g. Internet Explorer.

2. Enter xxx.xxx.xxx.xxx (xxx.xxx.xxx.xxx = IP address) and confirm with .

The PC reports a login window.

3. Enter password (factory setting: no password).

The configuration menu of the Ethernet-690 network card appears.

5.6.8

Configuring ProfibusDP-690

PROFIBUS-DP

NODE ADDRESS

Configuring ProfibusDP-690

Select desired node address in range 001 to 126.

Factory setting: 3

OPERATING MODE

16-BIT-INTEGER /

2 WORDS

16-BIT-INTEGER /

4 WORDS

32-BIT-FLOATING-

POINT

S/P MODE

Set type and word length of user data parameter VALUE.

Consistent over valid module pair in GSD file

2 words 16-BIT-INTEGER 2(+2)W AI

2 words

4 words

16-BIT-INTEGER 2(+2)W AO

16-BIT-INTEGER 2(+2)W AI (use 2x)

16-BIT-INTEGER 2(+2)W AO (use 2x)

32-BIT-FLOATING-POINT 4W AI

32-BIT-FLOATING-POINT 4W AO

Set type and use of setpoint.

UNIVERSAL Each setpoint can be set and read independently of others.

CHECKWEIGHING As soon as setpoints 1 and 2 are set, DeltaTrac CHECKWEIGHING will be activated with SP1 = setpoint and SP2 = tolerance (in %, in 16-bit integer mode with 2 decimal places).

In read table current state BELOW (SP1), GOOD (SP2) or ABOVE (SP3) can be read off.

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Settings in the master mode

PROFIBUS-DP Configuring ProfibusDP-690

FILLING

I/P MODE

As soon as setpoints 1 and 2 are set, DeltaTrac CHECKWEIGHING will be activated with SP1 = setpoint and SP2 = tolerance (in %, in 16-bit integer mode with 2 decimal places). In addition, SP3 and SP4 can also be loaded as any desired setpoints.

In read table current state GOOD (SP1), ABOVE (SP2), SP3 REACHED (SP3) or SP4

REACHED (SP4) can be read off.

Set request for identification data in Input mode.

After setting the user data command INPUT MODE in the write table, the selected request for input is automatically carried out and the entries are saved in the application blocks 094 to 099.

The user data response INPUT MODE RUNNING remains set while the input mode is active.

Code A is requested.

A

A+B

A+B+C

A+B+C+D

A+B+C+D+E

A+B+C+D+E+F

BYTE ORDER

NORMAL

SWAPPED

Code B and Code A are always requested.

Code C, Code B and Code A are always requested.

Code D, Code C, Code B and Code A are always requested.

Code E, Code D, Code C, Code B and Code A are always requested.

Code F, Code E, Code D, Code C, Code B and Code A are always requested.

Order of the bytes within a data word

Usual byte order (factory setting)

The upper and lower byte of each data word are swapped

SIGN Location of the sign in the 16-bit integer values

Is only displayed if MODE = 16-BIT-INTEGER/x WORDS has been selected

SEPARATE BIT 16 The sign is transferred separately in Bit 16 (factory setting)

INTEGRATED IN

INTEGER

Examples

+

2

+

1

–1

–2

0002

0001

8001

8002

0

000 0000 0000 0010

0

000 0000 0000 0001

1

000 0000 0000 0010

1

000 0000 0000 0010

The sign is transferred integrated in the integer

Examples

+

2

+

1

–1

–2

0002

0001

FFFF

FFFE

0000 0000 0000 0010

0000 0000 0000 0001

1111 1111 1111 1111

1111 1111 1111 1110

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Settings in the master mode

IND690-Base

PROFIBUS-DP

EXP. AB AREA

CONFIGURE INPUTS

CONFIGURE OUTPUTS

TEST MODE

Configuring ProfibusDP-690

Input of up to three expanded application blocks for constants which can be accessed when writing applications blocks.

Example

Input

021

046

071

enables access to

application blocks 021_001 to 021_999 application blocks 046_001 to 046_999 application blocks 071_001 to 071_999

Select the desired setting for every input.

Factory setting for the IND690-Base:

Input 1

Input 2 not in use zero setting

Input 3

Input 4 taring entry ( key)

Input 5 ... 8 not in use

Further settings: see page 129

Select the desired setting for every output.

Factory setting for the IND690-Base:

Output 1

Output 2

Output 3

Output 4

Output 5 ... 8

Delta low

Delta ok

Delta high

Stable

Setpoint 1 ... 4

Further settings: see page 129

Activation of the information display. In line 3 and 4 write and read tables are displayed as follows:

74

1

Read table

2

Write table

3

Operating mode (internal)

4

Value (hexadecimal)

5

Command/response bits

6

Inputs/outputs (hexadecimal)

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Settings in the master mode

WLAN

INFO

STATUS

COMMUNICATION

MODE

IP ADDRESS

PORT NUMBER

GATEWAY

SUBNET MASK

SSID

WEP-KEY

WPA-PSK

AUTHORIZATION

PORT TYPE

AUTO CONNECT

Comment

5.6.9

Configuring WLAN-690

The weighing terminal can only be operated in a wireless network with a valid IP address, subnet mask etc. Ask your system administrator for these parameters.

Configuring WLAN-690

Displays the type and software version of the WLAN module.

Same function as the key sequence "INFO 50" in the operating mode.

Displays the current status of the WLAN module: Radio channel used, data rate of connection, transmission and reception quality, MAC address of the currently connected access point.

Same function as the key sequence "INFO 51" in the operating mode.

For adaptation of the communication parameters between weighing terminal and

the WLAN module, see page 55.

For adaptation of the communication mode, see page 55.

IP address entry

Port number entry

Gateway address entry

Net mask entry

Entry of wireless-network name (ServiceSetIdentifier).

WEP key entry, with 5 characters (64 bit key) or 13 characters (128 bit key).

WPA-PSK key entry, with 16 characters (128 bit key).

Note:

It may take up to 50 seconds to proceed the key.

Activating/deactivating the authorization in accordance with the setting at the

AccessPoint.

If the authorization is activated at the AccessPoint, the authorization also has to be activated at the IND690.

Set WLAN architecture: Ad hoc or infrastructure

Input of the IP address and port number of a partner to which establishing of a connection is tried cyclically – if a connection does not exist.

SSID, WEP-key and WPA_PSK-key can be entered in different ways:

ASCII characters direct entry

Hexadecimal code

Decimal code start entry with IDENT E start entry with IDENT F

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Settings in the master mode

IND690-Base

5.6.10

Configuring Bluetooth-690/BT-BLD Display/BT-P42/BT-SICS

Configure Bluetooth-690/BT-BLD Display/BT-P42/BT-SICS BLUETOOTH/BT-BLD/

BT-P42/BT-SICS

INFO

STATUS

MODE

PASSKEY

CONNECT

Comment

Displays the type, software version and manufacturer of the Bluetooth module.

Same function as the key sequence "INFO 60" in the operating mode.

Displays the current status of the Bluetooth module: own Bluetooth address, own

Bluetooth name, user service/COM port and name of the Bluetooth module to which there is currently a connection.

Same function as the key sequence "INFO 61" in the operating mode.

Adaptation of the communication mode, see Page 55.

Switching the passkey interrogation on/off and entering the passkey, if switched on.

Enter the passkey "Mettler-Toledo" at the BT-BLD display and the BT-P42. All the communication parameters are then set automatically for the connected device

All reachable Bluetooth modules are displayed. The connection to one of these modules can then be made or an existing connection can be broken.

Passkey can be entered in different ways:

ASCII characters

Hexadecimal code

Decimal code direct entry start entry with IDENT E start entry with IDENT F

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Interface description

6 Interface description

6.1

General

To exchange data with a computer, the weighing terminal is equipped with an RS232 interface. Up to 8 additional interfaces are available as an option.

The interfaces operate independently of each other, can be used simultaneously and

can be adjusted individually, see section 5.6.

To operate the serial interfaces in the dialog mode, one of the following METTLER

TOLEDO command sets must be selected in the master mode:

• MMR command set, see section 6.2.

• METTLER TOLEDO Continuous mode, see section 6.3.

• METTLER TOLEDO SICS command set, see section 6.4.

Note

In order to avoid data loss, do not operate the interfaces in unsolicited mode. In particular if the handshake is deactivated, ensure that the host waits for a response after every command before a new command is sent.

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Interface description

IND690-Base

6.2

MMR command set

6.2.1

Syntax and formats of communication

Commands and responses for transmitting weights have the following formats:

Command format

when transmitting weight formats

Identification

Character sequence for specification of command

(1 … 4 characters)

_ Weight value

1 … 8 digits, number of digits variable

_ Unit

1 … 3 characters, number of characters variable

Framing

Definable in master mode, factory setting:

C

R

L

F

Response format

when transmitting weight formats

Identification

Character sequence for specification of response

(2 … 3 characters)

_ Weight value

10 digits, rightjustified, filled out with blank spaces

_ Unit

3 characters, left-justified, filled out with blank spaces

Framing definable in master mode, factory setting:

C

R

L

F

Example

Command Tare specification

{T|_|1[3[.[2[9[5|_|k[g}

Response Tare specification

{T[B[H|_|_[_[_[_[1[3[.[2[9[5|_|k[g[_}

Data formats

• The following symbols are used in the following command description:

Weight value

Unit

Text_n

10 characters with sign and decimal point, right-justified

(with preceding blank spaces)

3 characters, left-justified (with following blank spaces) maximum of n characters, left-justified

• The string framing is mandatory, however it is not contained in the following command description!

• Enter commands as ASCII characters. The following ASCII characters are available:

20 hex/32 deci … 7F hex/127 deci, see page 126.

BUS SLAVE operating mode

(RS485)

In the BUS SLAVE operating mode each command and each response begins with a code for the terminal address.

Terminal address 1 … 9 Code "1" … "9"

Terminal address 10 … 31 Code "a" … "v"

(31H … 39H)

(61H … 76H)

Example

Command to terminal 3:

{3|S}

Response from terminal 3:

{3[S[_|_|_[_[_[_[1[2[.[7[6[5|_|k[g[_}

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Interface description

SR_…

SX

SXI

SXIR

ARNo.

AWNo._…

D_…

P_…

DS

ID

W_...

Command

SI

SIR

SR

R0 / R1

KD / KE

Z

U_…

T

T_…

DY_…

S

6.2.2

Command overview

Meaning Page

Switch keypad on/off

Switch individual key on/off

Set weight display to zero after weighing platform stabilization

Change over terminal to a different weight unit

Tare

Specify tare weight

Specify DeltaTrac target value

Transmit in case of weighing platform stabilization

Transmit independent of weighing platform stabilization

Transmit repeatedly independent of weighing platform stabilization

Transmit stabilized weight values repeatedly depending on a weight change

Transmit repeatedly depending on weighing platform stabilization with specification of an excursion value

83

Transmit data record after weighing platform stabilization

Transmit data record independent of weighing platform stabilization

84

84

Transmit data record repeatedly independent of weighing platform stabilization

84

Read information of application block

Write to application block

Write to display

Print alphanumeric characters or barcodes on the GA46

Trigger acoustic signal

Interrogate terminal identification

86

86

85

85

85

86

81

81

82

82

80

80

80

80

82

83

83

Actuating digital outputs

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Interface description

IND690-Base

6.2.3

Command description

Command

Response

Comments

Switch keypad on or off

{R[0}

{R[1}

Switch on keypad

Switch off keypad

Keypad switched on or off

{R[B}

• Factory setting: Keypad switched on.

• When the keypad is switched off, the terminal cannot be operated manually.

Command

Response

Comments

Switch individual key on or off

{K[E|_|x[x}

{K[D|_|x[x}

{K[B}

Switch on key with key number xx

Switch off key with key number xx

Key switched on or off

• Factory setting: Keys switched on.

• See table in the Appendix for key numbers.

Command

Response

Comments

Set zero

{Z}

Set gross weight display to zero after weighing platform stabilization, effect as when is pressed.

{Z[B}

{Z[-}

{Z[+}

Weighing platform set to zero

Command cannot be executed: Zero-set range dropped below

Command cannot be executed: Zero-set range exceeded

• Setting to zero is not possible when the weighing platform stabilizes in the zeroset range.

• With some weighing platform types setting to zero deletes a saved tare weight.

This is indicated with the message TA, see section 6.2.4.

Command

Response

Comment

Changing over to different weight unit

{U|_|Unit}

{U}

Change over weight display to different weight unit

Change over weight display to first weight unit

{U[B}

Weight display changed over to different weight unit

Possible units: g, kg, lb, ozt, oz, dwt

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Interface description

Command

Response

Comments

Example

Tare

{T}

{T[_}

Tare weighing platform:

After the weighing platform stabilizes, the current weight value is saved as the tare weight and the weight display is set to zero with the weight placed on the platform.

Effect as when

T

is pressed.

{T|_|Tare weight (weight value)|_|Unit}

Specify tare weight:

The content of the tare memory is overwritten with the specified tare weight and the net weight is displayed.

Effect as when

PT

Delete tare weight.

, 0 … 9, sequence is pressed.

{T[B[_|_|Tare weight (weight value)|_|Unit}

Weighing platform is tared

{T[B[H|_|Tare weight (weight value)|_|Unit}

Weighing platform is tared with

{T[-}

{T[+} specified weight

Command cannot be executed: Tare range dropped below

Command cannot be executed: Tare range exceeded

• Taring is only possible when the weighing platform stabilizes within the tare range.

• The tare weight is always transmitted in the first weight unit.

• Each taring command overwrites the content of the tare memory with the new tare weight.

• Taring with an unloaded weighing platform deletes the tare memory. On some weighing platform types a zero set is carried out in the unloaded state. This is

displayed with the message ZA, see section 6.2.4.

• On not certified weighing systems the tare weight is automatically rounded to the current increment.

• On certified weighing systems: Tare range for MultiRange only in first increment range.

Command:

{T}

Response:

{T[B[_|_|_[_[_[_[1[2[.[6[5[0|_|k[g[_}

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Interface description

IND690-Base

Command

Response

Comments

Example

Specify DeltaTrac target value

{D[Y|_|Target weight (weight value)|_|Unit|_|Lower tolerance|_|Unit|_|

Upper tolerance|_|Unit}

{D[Y}

Specify DeltaTrac target value

Delete DeltaTrac target value

{D[B}

DeltaTrac target value loaded/deleted

• Observe limit values, see page 18

• Also possible:

{A[W[0[2[0[...

, see page 116

Command:

{D[Y|_|4[.[5|_|k[g|_|5|_|%|_|4|_|%}

Response:

{D[B}

Command

Response

Transmit content of display

{S}

{S[I}

Transmit a stabilized weight when weighing platform is stabilized.

Transmit a stabilized or dynamic weight independent of weighing platform stabilization.

{S[_|_|Weight value|_|Unit}

Stabilized weight value transmitted

{S[D|_|Weight value|_|Unit}

Dynamic weight value transmitted

{S[I}

{S[I[-}

{S[I[+}

Invalid weight

Weighing platform in underload range

Weighing platform in overload range

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Interface description

Command

Response

Comment

Example

Transmit content of display repeatedly

{S[I[R}

{S[R}

Transmit stabilized or dynamic weight values after each measuring cycle independent of weighing platform stabilization.

Transmit the next stabilized weight value after a weight change (e.g. different item) and one dynamic and the next stabilized weight value after each deflection > 30 d.

{S[R|_|Deflection weight (weight value)|_|Unit}

Transmit the next stabilized weight value and, depending on the specified deflection, a dynamic weight value after a weight change greater than the specified deflection value.

{S[_|_|Weight value|_|Unit}

Transmit stabilized weight value repeatedly

{S[D|_|Weight value|_|Unit}

Transmit dynamic weight value repeatedly

Stop command with

{S}

,

{S[I}

command or by interrupting the interface

Command:

{S[R|_|1[4[0|_|k[g}

Responses:

{S[_|_|_[_[_[_[2[0[0[.[0[0|_|k[g}

1st item

{S[D|_|_[_[_[_[3[4[5[.[8[5|_|k[g}

{S[_|_|_[_[_[_[4[1[0[.[5[0|_|k[g}

2nd item

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83

Interface description

IND690-Base

Command

Response

Comments

Example

Transmit data record

{S[X}

{S[X[I}

{S[X[I[R}

Transmit a data record with stabilized weight values after weighing platform stabilization.

Effect as if is pressed.

Transmit a data record with stabilized or dynamic weight values independent of weighing platform stabilization.

Transmit data records with stabilized or dynamic weight values repeatedly independent of weighing platform stabilization.

{S[X[_|_|Application block|_|_|Application block|

}

{S[X[_|_

|

Application block

|

{S[X[_[_ |A|No.|_|Data record|

Data record with stabilized weight values transmitted

{S[X[D|_|Application block|_|_|Application block|

}

{S[X[_|_

|

Application block

|

{S[X[_[_ |A|No.|_|Data record|

Data record with dynamic weight values transmitted

{S[X[I}

{S[X[I|-}

{S[X[I|+}

Invalid value

Weighing platform in underload range

Weighing platform in overload range

• Number of application block: three-digit with leading zeros.

• The content of the corresponding application block is contained in data record,

see chapter 7. Standard data record consists of 3 blocks:

{S[X[_|_|A[0[1[1|_|Gross weight (weight value)|_|Unit|_|_|

{S[X[_|_| A[0[1[2|_|Net weight (weight value) |_|Unit{_|_|

{S[X[_|_| A[0[1[3|_|Tare weight (weight value) |_|Unit}

The continuous transmission of data records started with the

{S[X[I[R} command can be stopped with the

{S[X}

or

{S[X[I}

command.

Command:

{S[X[I}

Response: Standard data record

{S[X[D|_|A[0[1[1|_|_[_[_[_[2[3[.[6[5[0|_|k[g[_|

_| _|_|A[0[1[2|_|_[_[_[_[2[1[.[6[5[0|_|k[g[_|

_| _|_|A[0[1[3|_|_[_[_[_[_[2[.[0[0[0|_|k[g[_}

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IND690-Base

Interface description

Command

Response

Comments

Read application block

{A[R|No.}

Read content of application block

Content of application block transmitted

{A[B|_|Information}

• Transmitted information is dependent on application block, see chapter 7.

• Number of application block must be entered as 3 digits with preceding zeros.

Command

Response

Comments

Write to application block

{A[W|No.|_|Information}

{A[W|No.}

{A[W|No.|_}

Write to application block

Reset application block

Delete application block

{A[B}

Written to application block

• Information to be entered is dependent on target block, see chapter 7.

• Deleting and resetting have same effect.

Command

Response

Comments

Write to display

{D|_|Text_20}

{D|_}

{D}

Write to display

Switch display to dark

Set display to normal status

Written to display

{D[B}

• Character stock: ASCII characters 20 hex/32 deci … 7F hex/127 deci, see page

126.

• Watch upper and lower case.

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Interface description

86

IND690-Base

Command

Response

Comments

Alphanumeric printout on GA46 printer

{P|_|Text_48}

{P|_|$|!|1|Text_48}

{P|_|$|!|2|Text_48}

{P|_|$|!|3|Text_48}

{P|_|$|!|A|Text_48}

{P|_|$|!|B|Text_48}

{P|_|$|!|C|Text_48}

{P|_}

Print text as per setting

Print text in small type

Print text in normal type

Print text in large type

Print text in small type and bold print

Print text in normal type and bold print

Print text in large type and bold print

Print blank line

Alphanumeric characters printed

{P[B}

• Character stock: ASCII characters 20 hex/32 deci … 7F hex/127 deci, see page

126.

• Text is printed in last selected type size.

• Watch upper and lower case.

Command

Response

Comments

Barcode printout on GA46 printer

{P|_|$|#|1|Text_20, barcode-specific}

{P|_|$|#|2|Text_8, barcode-specific}

{P|_|$|#|3|Text_13, barcode-specific}

{P|_|$|#|4|Text_20, barcode-specific}

{P|_|$|#|5|Text_20, barcode-specific}

{P|_|$|#|6|Text_20, barcode-specific}

{P|_|$|#|7|Text_20, barcode-specific}

{P|_|$|#|8|Text_20, barcode-specific}

{P|_}

Print Code 39

Print EAN 8

Print EAN 13

Print EAN 128

Print Code 2 of 5

Print Code 2 of 5 interleaved

Print Code 128

Print EAN 128

Print blank line

Barcode printed

{P[B}

• Character stock: ASCII characters 20 hex/32 deci … 7F hex/127 deci, see page

126.

• With Code 39, 3 barcodes can be printed next to each other.

Separating characters: $$ or H

T

(ASCII character 09 hex/9 deci).

Arrangement of barcodes: Barcode 2, Barcode 1, Barcode 3.

Command

Response

Acoustic signal

{D[S}

{D[B}

Generate short acoustic signal (beep tone) in terminal

Acoustic signal generated in terminal

Command

Response

Identification

{I[D}

Interrogate identification of terminal

{I[D[7|_|Program number of Pac}

Operating instructions 22012808F 07/09

IND690-Base

Interface description

Actuating digital outputs

Command

{W|_|Status}

Switch individual digital outputs on or off

{W|_|Status 1|_|Time 1|_|Status 2|_|Time 2|_|

...

|Status 4|_|Time 4|_|Status 5}

Trigger time sequence of status changes of digital outputs

{W}

,

{W|_}

Reset all outputs to logical 0

Status: Each output is assigned a value. The total of the values of those outputs which are to be closed is indicated as the "Status".

Digital output 1

Digital output 2

1

2

Digital output 3

Digital output 4

Digital output 5

Digital output 6

Digital output 7

Digital output 8

All outputs open

All outputs closed

1 ... 99999 ms

4

8

16

32

64

128

0

255

Digital outputs set

Time:

Response

{W[B}

Comments • Max. 5 statuses "Status" and 4 intervals "Time" are possible. After sequence has been run, digital outputs freeze in last status "Status".

• A break in the port has no effect on the outputs.

• If terminal receives a new W command before time sequence has been run, ongoing sequence will be aborted immediately.

• If limits for "Status" and "Time" are not adhered to, error message EL appears on

4 I/O-690 interface or 8-690 relay box.

Examples Command:

{W|_|5}

Digital outputs 1 and 3 are closed, all others opened

Command:

{W|_|1|_|1[0[0[0|_|3[2|_|5[0[0[0|_|3[3|_|5[0[0|_|0} triggers following sequence:

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Interface description

88

IND690-Base

6.2.4

Terminal messages – only with RS232, RS422, CL20mA and USB

In the dialog mode the weighing terminal transmits an acknowledgement to the computer each time a key is pressed.

When this pressing of a key is replaced with an interface command, the acknowledgement only differs in the second character in the response format which is part of the command:

Function Key Acknowledgement

Set zero

Tare

{Z[A}

{T[A}

... (see command T)

Specify tare weight

Change over unit

Transmit data record in case of weighing platform stabilization

Switch over weighing platform

Dynamic weighing

Identification A … F

Function keys

{T[A[H|

… (see command T_ …)

{U[A|_|Unit}

{S[T|_[_|

… (see command SX)

{S[A|_[_|n} n = weighing platform 1 … 3

A … F

{A[A[0[1[6|_|Weight value|_|Unit}

{K[x|_|Identification} x = A, B, C, D, E, F

20 characters, right-justified

F1 … F6

{K[F|_|x}

x = I, J, K, L, M, N

6.2.5

Fault messages

Fault messages always consist of 2 characters and a string frame.

The string frame can be defined in the master mode (section 5.6.2).

{E[T}

Transmission error

The terminal transmits a transmission error for errors in the received bit sequence, e.g. parity errors, missing stop bit.

{E[S}

{E[L}

Syntax error

The terminal transmits a syntax error when the received characters cannot be processed, e.g. command does not exist.

Logic error

The terminal transmits a logic error when a command cannot be executed, e.g. when an attempt is made to write to a write-protected application block.

Operating instructions 22012808F 07/09

IND690-Base

Interface description

6.3

METTLER TOLEDO continuous mode

These operating modes are suitable for continuous data transmission in real time from the weighing terminal to METTLER TOLEDO devices, e.g. to a second display.

The data are even transmitted when the weighing platform is moving or the gross weight = 0.

Commands can also be sent to the weighing terminal, permitting remote control of certain keys on the terminal.

There are 2 different continuous modes:

• Continuous mode – net and tare values are continuously transmitted.

• Short continuous mode – only net values are continuously transmitted.

6.3.1

Data output from IND690

Output format

Weight values are always transmitted in the following format:

STX SB1 SB2 SB3 DF1 DF2 CR CHK

STX

SB...

DF1

DF2

CR

CHK

ASCII characters 02 hex/2 deci, character for "start of text" is required by some printers

For status bytes, see below

Data field with 6 digits for the weight value transmitted without a decimal point and unit

When counting is active in the IND690-Count:

6 digits for the quantity, no leading zeroes

Data field with 6 digits for the tare weight; is not transmitted in the short continuous mode

When counting is active in the IND690-Count:

6 zeroes, not transferred in Short Continuous mode

Carriage return (ASCII character 0D hex/13 deci)

Checksum (2-part complement of binary sum of 7 lower bits of all previously transmitted characters, including STX and CR)

Status byte SB1

Bit 6

0

Bit 5

1

Bit 4 Bit 3

Rounding / Increment

0

1

Bit 4 Bit 3 Rounding/

Increment

1

1

0

1

1

2

5

Bit 2 Bit 1 Bit 0

Decimal position

1

1

0

0

1

1

0

0

Bit 2 Bit 1 Bit 0 Decimal position

0

0

0

1

XXXX00

XXXXX0

1

1

0

0

1

1

0

1

0

1

0

1

XXXXXX

XXXXX.X

XXXX.XX

XXX.XXX

XX.XXXX

X.XXXXX

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Interface description

90

IND690-Base

Status byte SB2

Bit 6 Bit 5 Bit 4 Bit 3

0 1 0 lb 0 Stabilization

Bit 2

0 Normal status

1 kg 1 Movement 1 Underload/ overload

Bit 1

0 Positive sign

1 Negative sign

Bit 0

0 Gross value

1 Net value

Status byte SB3

Bit 6

0

Bit 5

1

Bit 2

1

1

1

0

0

1

0

0

Bit 1

0

0

1

1

1

1

0

0

Bit 4

0

Bit 0

0

1

0

0

1

1

0

1

Bit 3

0 Basic state

1 Print request

Weight value

kg / lb (SB2 Bit 4) g t oz ozt dwt ton free unit

Bit 2 Bit 1

Weight value

Bit 0

6.3.2

Commands to IND690

Individual command characters can be transmitted to the IND690 in the text format.

One function each on the terminal is assigned to these command characters.

After a command character is received, the following functions are executed:

Command

Function Note

C

P

T

Z

Delete tare

Print or send transfer string

Taring

Setting to zero

Tx.xxx

Specify tare value

Sxxxx Specify reference quantity

Sx.xxx

Specify reference weight

Ax.xxx

Specify reference piece weight for every application software only for IND690-Count

Operating instructions 22012808F 07/09

IND690-Base

Interface description

6.4

METTLER TOLEDO SICS command set

6.4.1

Communication syntax and formats

Command format when transmitting weight values

Identification

String of characters for specification of command

(1 … 4 characters)

_ Weight value

1 … 10 characters

_ Unit

1 ... 3 characters, number of characters variable

Framing

C

R

L

F

Response format when transmitting weight values

Identification _ Status

String of characters for specification of response

(1 ... 2 char.)

1 char.

_ Weight value

10 char., right-justified, filled in with blank char.

_ Unit

3 char., leftjustified, filled in with blank char.

Framing

C

R

L

F

Example

Tare specification command

{T[A|_|1[3[.[2[9[5|_|k[g}

Tare specification response

{T[A|_|A|_|_[_[_[_[1[3[.[2[9[5|_|k[g[_}

Data formats

• The following symbols are used in the command description:

Weight value

Unit

"Text_n"

10 numbers with sign and decimal point, right-justified

(with preceding blank spaces)

3 characters, left-justified (with following blank spaces) maximum of n characters, left-justified

• The string framing is mandatory, however it is not listed in the following command description!

• Enter commands as upper-case letters.

• Text to be entered must always be placed in quotation marks.

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Interface description

IND690-Base

Command

Level 1

SR

T

TI

D

DW

K

TA

TAC

I1

I2

I3

Level 0

I0

ZI

@

I4

S, SI, SIR

Z

Level 2

SX, SXI, SXIR

R0, R1

U

DS

Level 3

AR

AW

DY

P

W

6.4.2

Command overview

Meaning

Transmit list of all available SICS commands

Transmit SICS level and SICS versions

Transmit scale data (terminal, platform)

Transmit scale software version (program number)

Transmit serial number

Transmit display contents

Set to zero

Set to zero immediately

Reset

Write display

Weight display

Keyboard monitoring

Transmit stable weight values repeatedly depending on a weight change

Taring

Tare immediately

Specify tare weight

Delete tare weight

Transmit data record

Switch keyboard on or off

Change over to different weight unit

Acoustic signal

Read application block

Write application block

Specify DeltaTrack target value

Print text or barcode

Actuating digital outputs

Page

99

100

100

100

97

97

98

95

95

96

98

99

100

101

101

102

103

93

93

93

94

94

94

95

95

95

92

Operating instructions 22012808F 07/09

IND690-Base

Interface description

6.4.3

Command description

Command

Response

Transmit SICS commands

{I[0}

Transmit SICS commands

{I[0|_|B|_|0|_|"I0"}

{I[0|_|B|_|0|_|"I1"}

...

{I[0|_|B|_|1|_|"D"}

...

{I[0|_|B|_|2|_|"SX"}

...

{I[0|_|B|_|3|_|"AR"}

...

Command

Response

Comments

Transmit SICS levels and SICS versions

{I[1}

Transmit SICS levels and SICS versions

{I[1|_|A|_|"x1"|_|"x2"|_|"x3"|_|"x4"|_|"x5"} x1 = 0123 Scale with SICS levels 0, 1, 2 and 3 x2 x3

Version or implemented SICS0 commands

Version or implemented SICS1 commands

{I[1|_|I} x4 x5

Version or implemented SICS2 commands

Version or implemented SICS3 commands

Command understood, cannot be executed at this time

• On the SICS level only fully implemented levels are executed.

• With the SICS version all levels are specified.

Command

Response

Example

Transmit scale data

{I[2}

Transmit data from weighing terminal and weighing platform(s)

{I[2|_|A|_|"text"}

{I[2|_|A|_|"IND690-Count IZ05 15.000 kg IZ10 32.000 kg"}

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Interface description

IND690-Base

Command

Response

Example

Transmit scale software version

{I[3}

Transmit software version from weighing terminal and weighing platform(s)

{I[3|_|A|_|"text"}

{I[3|_|A|_|"IP63-0-0100I IZ05-0-0301 IZ10-0-0221"}

Command

Response

Example

Comment

Transmit serial number

{I[4}

Transmit serial number of weighing terminal

{I[4|_|A|_|"text"}

{I[4|_|A|_|"1234567"}

The response to I4 appears automatically following switch-on and after the Reset command (@).

Command

Response

Comment

Transmit display contents

{S}

{S[I}

{S[I[R}

Transmit a stable weight value when the weighing platform is at a standstill.

Transmit a stable or a dynamic weight value, regardless of whether the weighing platform is at a standstill.

Transmit a stable or a dynamic weight value after each measuring cycle, regardless of whether the weighing platform is at a standstill.

{S|_|S|_|Weight value|_|Unit}

Stable weight value transmitted

{S|_|D|_|Weight value|_|Unit}

Dynamic weight value transmitted

{S|_|I}

{S|_|-}

{S|_|+}

Invalid value

Weighing platform in underload range

Weighing platform in overload range

Stop

{S[I[R}

command with

{S}

,

{S[I}

,

{S[R}

, @ command or disconnect port.

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Interface description

Command

Response

Set to zero

{Z}

{Z|I}

{Z|_|A}

{Z|_|I}

{Z|_|-}

{Z|_|+}

Set gross weight display to zero after weighing platform comes to a standstill, effect as when is pressed

Set the gross weight display immediately to zero independently of a standstill

Weighing platform set to zero

Command cannot be executed: e.g. standstill not achieved or another command is currently being executed

Command cannot be executed: Zero-set range dropped below

Command cannot be executed: Zero-set range exceeded

Command

Response

Comments

Reset

{@}

Reset weighing terminal to the state maintained after Power On

{I[4|_|A|_|"text"}

Serial number

• All running applications and functions are cancelled.

• The tare memory is reset to zero.

Command

Response

Comment

Write display

{D|_|"Text_20"}

{D|_|""}

Write display

Darken display

{D|_|A}

{D|_|A}

{D|_|I}

{D|_|L}

Display written; the complete text appears left-justified in the display, marked with a symbol, e.g. with *

Display written; the end of the text appears left-justified in the display with the beginning cut off, marked with a symbol, e.g. with *

Command cannot be executed

Command understood, parameters defective

A symbol in the display, e.g. *, indicates that an invalid weight value is displayed.

Command

Response

Weight display

{D[W}

{D[W|_|A}

{D[W|_|I}

Switch over main display into the weight mode

The main display shows the current weight value

Command understood, but cannot be executed

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Interface description

IND690-Base

Command

Response

Comments

Keyboard monitoring

{K[_[1}

{K[_[1}

{K[_[3}

{K[_[4}

{K|_|A}

{K|_|I}

{K|_|L}

When a key is pressed, execute the function, but do not transmit anything (factory setting)

When a key is pressed, do not execute the function and do not transmit anything

When a key is pressed, do not execute the function, but transmit the key code

{K[_[C[_[x}

or, when the key is pressed longer, transmit

{K[_[R[_[x}

and

{K[_[C[_[x}

When a key is pressed, execute the function and transmit the function code

{K[_[A[_[x}

If the function cannot be executed immediately, the function code for the start of the function

{K[_[B[_[x}

or

{K[_[A[_[x}

for the end of the function is transmitted.

Command understood or function successfully executed

Command understood, but currently cannot be executed, e.g. no keyboard present

Command understood, parameters defective

Key codes

{K[_[R[_[x}

Key x was pressed briefly and released again immediately

{K[_[C[_[x}

Key x was pressed for approx. 2 sec.

See table in the Appendix for key codes

• The factory setting is active after switch-on, after the Reset command and after exiting the master mode.

• Only one K command is ever active at one time.

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Interface description

Command

Response

Comment

Example

Transmit stable weight values repeatedly depending on a weight change

{S[R|_|Excursion weight (weight value)|_|Unit}

After a weight change greater than the specified excursion weight, transmit alternately the next stable weight value and a dynamic weight value depending on the specified excursion.

{S[R|}

If no excursion weight is entered, the weight change must be at least

12.5 % of the last stable weight value, however at least 30 d.

{S|_|S|_|Weight value|_|Unit}

Current stable weight value transmitted

Weight change

{S|_|D|_|Weight value|_|Unit}

Dynamic weight value transmitted

{S|_|I}

Command cannot be executed

{S|_|L}

{S|_|-}

{S|_|+}

Command understood, parameters defective

Weighing platform in underload range

Weighing platform in overload range

Stop command with command

{S}

,

{S[I}

,

{S[I[R}

, @ or disconnect the port.

Command:

{S[R|_|1[4[0|_|k[g}

Responses:

{S|_|S|_|_[_[_[_[2[0[0[.[0[0|_|k[g}

1st item

{S|_|D|_|_[_[_[_[3[4[5[.[8[5|_|k[g}

{S|_|S|_|_[_[_[_[4[1[0[.[5[0|_|k[g}

2nd item

Command

Response

Comments

Taring

{T}

Tare weighing platform:

After the weighing platform comes to a standstill, the current weight value is saved as a tare weight and the weight display set to zero with the weight on the platform.

Effect as when TARE key is pressed.

{T|_|S|_|Tare weight (weight value)|_|Unit}

{T|_|I}

{T|_|-}

{T|_|+}

Weighing platform tared, stable tare value

Taring not carried out

Command cannot be executed: Tare range dropped below

Command cannot be executed: Tare range exceeded

• Each taring command overwrites the contents of the tare memory with the new tare weight.

• Taring with unloaded weighing platform clears the tare memory. On some weighing platform models, setting to zero is carried out in the unloaded state.

• On non-certified weighing systems the tare weight is automatically rounded off to the current increment.

• On certified weighing systems: Tare range with MultiRange only in first increment range.

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Interface description

IND690-Base

Command

Response

Comments

Tare immediately

{T[I}

Tare weighing platform immediately.

{T[I|_|S|_|Tare weight (weight value)|_|Unit}

Weighing platform tared, stable tare value

{T[I|_|D|_|Tare weight (weight value)|_|Unit}

Weighing platform tared, dynamic tare value

{T[I|_|I}

{T[I|_|L}

Taring not carried out

Command cannot be executed

{T[I|_|-}

{T[I|_|+}

Command cannot be executed: Tare range dropped below

Command cannot be executed: Tare range exceeded

• Each taring command overwrites the contents of the tare memory with the new tare weight.

• Following a dynamic tare value, a stable weight value can be specified.

However, this value is not exact.

Command

Response

Comments

Example

Specify tare weight

{T[A|_|Tare weight (weight value)|_|Unit}

Specify tare weight:

The contents of the tare memory are overwritten with the specified tare weight and the net weight is displayed.

Effect as when the key sequence

PT

, 0 ... 9, is pressed.

{T[A|_|A|_|Tare weight (weight value)|_|Unit}

Weighing platform tared with the specified value

{T[A|_|I}

{T[A|_|L}

Command not carried out

Command understood, parameters defective

{T|_|-}

{T|_|+}

Command cannot be executed: Tare range dropped below

Command cannot be executed: Tare range exceeded

• The contents of the tare memory are overwritten with the specified tare value.

• On non-certified weighing systems the tare weight is automatically rounded off to the current increment.

• On certified weighing systems: Tare range with MultiRange only in first increment range.

Command:

{T[A|_|1[2[.[6[5[0|_|k[g}

Response:

{T[A|_|A|_[_[_[_[1[2[.[6[5[0|_|k[g[_}

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Interface description

Command

Response

Delete tare weight

{T[A[C}

{T[A[C|_|A}

{T[A[C|_|I}

Delete tare weight.

Weighing platform tared with the specified weight

Command not carried out

Command

Response

Comments

Example

Transmit data record

{S[X}

{S[X[I}

{S[X[I[R}

After the weighing platform comes to a standstill, transmit a data record with stable weight values.

Effect as when is pressed.

Transmit a data record with stable or dynamic weight values, regardless of whether the weighing platform is at a standstill.

Repeatedly transmit a data record with stable or dynamic weight values, regardless of whether the weighing platform is at a standstill.

{S[X|_|S|_|Application block|_|_|Application block|

}

{S[X[ _|_

|

Application block

|

{S[X [_[_ |A|No.|_|Data record|

Data record with stable weight values transmitted

{S[X|_|D|_|Application block|_|_|Application block|

}

{S[X[ _|_

|

Application block

|

{S[X [_[_ |A|No.|_|Data record|

Data record with dynamic weight values transmitted

{S[X|_|I}

Command cannot be executed

{S[X|_|-}

{S[X|_|+}

Weighing platform in underload range

Weighing platform in overload range

• Number of application blocks: three-place with preceding zeros.

• The contents of the corresponding application block is contained in the data

record, see chapter 7. The standard data record consists of 3 blocks:

{S[X|_|S|_|A[0[1[1|_|Gross weight (weight value)|_|Unit|_|_|

{S[X[_ |_| A[0[1[2|_|Net weight (weight value) |_|Unit{_|_|

{S[X[ _|_| A[0[1[3|_|Tare weight (weight value) |_|Unit}

The continuous transmission of data records started with the

{S[X[I[R} command can be stopped with the commands

{S[X}

or

{S[X[I}

.

Command:

{S[X[I}

Response: Default data record

{S[X|_|D|_|A[0[1[1|_|_[_[_[_[2[3[.[6[5[0|_|k[g[_|

_|_|A[0[1[2|_|_[_[_[_[2[1[.[6[5[0|_|k[g[_|

_|_|A[0[1[3|_|_[_[_[_[_[2[.[0[0[0|_|k[g[_}

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Interface description

IND690-Base

Command

Response

Comments

Switch keyboard on or off

{R[0}

{R[1}

Switch on keyboard

Switch off keyboard

{R[0|_|A}

{R[1|_|A}

Keyboard switched on

Keyboard switched off

• Factory setting: Keyboard switched on.

• When the keyboard is switched off, the terminal cannot be manually operated.

Command

Response

Comment

Changing over to different weight unit

{U|_|Unit}

{U}

{U|_|A}

{U|_|I}

Change over weight display to different weight unit

Change over weight display to the first weight unit

Weight display switched over to another weight unit

Impermissible weight unit

Possible units: g, kg, lb, ozt, oz, dwt

Command

Response

Acoustic signal

{D[S}

Generate short acoustic signal (beep) in the terminal

{D[S|_|A}

Acoustic signal generated in the terminal

Command

Response

Comments

Read application block

{A[R|_|No.}

Read contents of the application block

{A[R|_|A|_|Information}

Contents of the application block transmitted

• The transmitted information is dependent on the application block, see chapter 7.

• The number of the application block must be entered as a three-place number with preceding zeros.

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Interface description

Command

Response

Comments

Write application block

{A[W|_|No.|_|Information}

{A[W|_|No.}

{A[W|_|No.|_}

Write application block

Reset application block

Delete application block

{A[W|_|A}

{A[W|_|I}

{A[W|_|L}

Application block written

Application block not present

Application block cannot be written

• The information to be entered is dependent on the target block, see chapter 7.

• Deleting and resetting have the same effect.

Command

Response

Comments

Example

Specify DeltaTrac target value

{D[Y|_|Target weight (weight value)|_|Unit|_|Lower tolerance|_|Unit|_|

Upper tolerance|_|Unit}

{D[Y}

Specify DeltaTrac target value

Delete DeltaTrac target value

{D[Y|_|A}

DeltaTrac target value loaded/deleted

• Observe limit values, see page 18

• Also possible:

{A[W|_|0[2[0[...

, see page 116

Command:

{D[Y|_|4[.[5|_|k[g|_|5|_|%}

Response:

{D[Y|_|A}}

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Interface description

IND690-Base

Command

Response

Comments

Print text or barcode with GA46 printer

{P|_|Text_48}

{P|_|$|!|1|Text_48}

{P|_|$|!|2|Text_48}

{P|_|$|!|3|Text_48}

{P|_|$|!|A|Text_48}

Print text as per setting

Print text in small print

Print text in normal print

Print text in large print

Print text in small type and bold print

Print text in normal type and bold print

{P|_|$|!|B|Text_48}

{P|_|$|!|C|Text_48}

Print text in large type and bold print

{P|_|$|#|1|Text_20, barcode-specific}

{P|_|$|#|2|Text_8, barcode-specific}

Print code 39

Print EAN 8

{P|_|$|#|3|Text_13, barcode-specific}

{P|_|$|#|4|Text_20, barcode-specific}

{P|_|$|#|5|Text_20, barcode-specific}

{P|_|$|#|6|Text_20, barcode-specific}

{P|_|$|#|7|Text_20, barcode-specific}

{P|_|$|#|8|Text_20, barcode-specific}

{P|_}

Print EAN 13

Print code 128

Print code 2 of 5

Print code 2 of 5 interleaved

Print code 128

Print EAN 128

Print blank line

{P|_|A}

{P|_|L}

Alphanumeric characters printed no GA46 present

• Character stock: ASCII character 20 hex/32 dec ... 7F hex/127 dec, see page 126.

• Printing is carried out in the font size last selected.

• Watch upper and lower case.

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Interface description

Command

Response

Comments

Examples

Actuating digital outputs

{W|_|Status}

Switch individual digital outputs on or off

{W|_|Status 1|_|Time 1|_|Status 2|_|Time 2|_|

...

|Status 4|_|Time 4|_|Status 5}

Trigger time sequence of status changes of digital outputs

{W}

,

{W|_}

Reset all outputs to logical 0

Status:

Time:

Each output is assigned a value. The total of the values of those outputs which are to be closed is indicated as the "Status".

Digital output 1

Digital output 2

1

2

Digital output 3

Digital output 4

Digital output 5

Digital output 6

Digital output 7

Digital output 8

All outputs open

All outputs closed

1 ... 99999 ms

4

8

16

32

64

128

0

255

Digital outputs set

{W|_|A}

• Max. 5 statuses "Status" and 4 intervals "Time" are possible. After sequence has been run, digital outputs freeze in last status "Status".

• A break in the port has no effect on the outputs.

• If terminal receives a new W command before time sequence has been run, ongoing sequence will be aborted immediately.

• If the limits for "Status" and "Time" are not adhered to when operating the interface types 4 I/O or relay box 8, the fault message EL appears.

Command:

{W|_|5}

Digital outputs 1 and 3 are closed, all others opened

Command:

{W|_|1|_|1[0[0[0|_|3[2|_|5[0[0[0|_|3[3|_|5[0[0|_|0} triggers following sequence:

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Interface description

IND690-Base

6.4.4

Error messages

Error messages always consist of 2 characters and a string limit.

The string limit can be defined in the master mode (section 5.6.1).

{E[T}

Transmission error

The terminal transmits a transmission error for errors in the received bit sequence, e.g. parity error, missing stop bit.

{E[S}

{E[L}

Syntax error

The terminal transmits a syntax error when it cannot process the received characters, e.g. command not present.

Logic error

The terminal transmits a logic error, when a command cannot be executed, e.g. when an attempt is made to write an non-writeable application block.

6.5

Profibus DP communication with a PLC

6.5.1

Overview

The ProfibusDP-690 is designed for operation as a slave on the Profibus DP. This provides the following possibilities with a master PLC also connected to the Profibus

DP:

• Access to the weight values of the weighing platform connected to the weighing terminal

• Operation of the weighing platforms connected to the weighing terminal (zero-set, taring, setting specified tare values, etc.)

• Triggering key presses, transmitting data strings or display of texts

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Interface description

6.5.2

Data formats

All user data are transmitted in a compressed, up to 4-word long format.

Write table

Format for transmitting user data from the PLC to the ProfibusDP-690.

Read table

Format for the transmission of user data from ProfibusDP-690 to the PLC.

Structure of the write and read table

The write and read table are similarly structured and contain the following sections:

• Value (16-bit integer or 32-bit floating point) for the transmission of weight values, application block numbers, etc.

• Commands or the corresponding responses with a total of 16 bits

• Control of 16 digital I/Os

6.5.3

Handshake

As certain commands can not always be executed immediately by the scale, e.g. taring with a restless weighing platform, 3 handshake bits of the PLC allow clear monitoring of the success of its commands:

1. The PLC starts a command by setting the corresponding command bit and also toggles COMMAND VALID in the write table. All other command bits are 0.

2. The weighing terminal responds with the current data of the read table. If it was possible to completely process the command, the COMMAND EXECUTED bit is toggled. Otherwise COMMAND EXECUTED remains unchanged.

3. The PLC recognises whether it can transmit the next command or must repeat the last one from COMMAND EXECUTED and transmits the write table to the weighing terminal.

4. The weighing terminal recognises from the status change of the COMMAND

VALID bit that it should carry out the next command. In addition, the weighing terminal also detects whether the last command has been executed or is still running. If the PLC attempts to start new commands before the previous one has been confirmed by the weighing terminal with a status change of COMMAND

VALID, the weighing terminal ignores this new command.

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Interface description

IND690-Base

6.5.4

Commands and responses

All commands available to the PLC and the corresponding responses are shown in the following two tables.

Data direction PLC -> IND690 Write table

Data direction IND690 -> PLC Read table

Write table

16-Bit

Integer

2 Words

Word 0 Word 1

12

13

14

15

8

9

10

11

6

7

4

5

1

2

3

16-Bit

Integer

4 Words

Word 0

32-Bit

Floating

Point

Bit Value

16-Bit

0

Value

32-Bit Floating Point

Word 1

Word 0 Word 1 Word 2

Command

Sign

Mantissa

Exponent

Sign

Mantissa

Word 2

Word 3

Word 3

16 Digital I/O AB data

Command valid

Toggle-bit for all commands

Bits 1/2/3:

Selection of read-table value, read/write AB

0/0/0 = Display

0/0/1 = Key No.

0/1/0 = Gross

0/1/1 = Write AB

1/0/0 = Net

1/0/1 = Read AB

1/1/0 = Tare

1/1/1 = Not in use

Bits 4/5/6: Selection of write-table value

0/0/0 = Empty

0/0/1 = Setpoint 1

0/1/0 = Key No.

0/1/1 = Setpoint 3

1/0/0 = Tare specification

1/0/1 = Setpoint 2

1/1/0 = Fixed Text No.

1/1/1 = Setpoint 4

Setting of

IND690 outputs or

Taring

Delete tare

Set to zero

ENTER key

Input mode

Switch keyboard on/off

Bits 13/14/15: Selection of weighing platform

0/0/0 = None

1/0/0 = Scale 1

0/1/0 = Scale 2

1/1/0 = Scale 3

0/0/1 = Scale 4

1/0/1= Sum scale

Displaying or evaluating inputs of external I/O module

Data for writing an application block

Tolerance specifications are handled in

% if the sign is set to 1.

Sign

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Interface description

Read table

16-Bit

Integer

2 words

Word 0 Word 1

13

14

15

7

8

5

6

3

4

1

2

9

10

11

12

16-Bit

Integer

4 words

Word 0

32-Bit

Floating

Point

Bit Value

16-Bit

0

Value

32-Bit Floating Point

Word 1

Word 0 Word 1 Word 2

Command

Mantissa

Exponent

Mantissa

Command executed

Toggle-bit for all commands

Error command

Movement

Net

Error scale (overload/underload...)

Key(s) was/were pressed

Input mode active

Setpoint 1 reached

Setpoint 2 reached

Setpoint 3 reached

Setpoint 4 reached

1 = keyboard blocked, 0 = keyboard unblocked

Second unit

0 = first unit, 1 = second unit

Bits 13/14/15: Current weighing platform

0/0/0 = None

1/0/0 = Scale 1

0/1/0 = Scale 2

1/1/0 = Scale 3

0/0/1 = Scale 4

1/0/1= Sum scale

Sign

Sign

Word 2

Word 3

Word 3

16 Digital I/O Not in

Showing or reading of

IND690 inputs or

Displaying or setting outputs of external I/O module

Use

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107

Interface description

IND690-Base

Notes on commands

If the command requires parameters, they will be transmitted either as an integer value or as a floating point value depending on the operating mode set.

Exception: The commands READ/WRITE APPLICATION BLOCK and PRESS KEY always expect integer values as parameters.

Read commands

• The read commands Display value, Net, Gross, Tare, Key and Application block overwrite the cyclically transmitted display values with the required data. The data are transmitted as 16-bit integers or 32-bit floating points. As soon as the

COMMAND EXECUTED bit is toggled, these values must be evaluated immediately by the PLC, as in the next cycle the value in the read table is overwritten again with the current weight value.

• The response to the READ KEY NUMBER command (write table bits 1/2/3 = 0/0/1) is transmitted in the Word 0 (16-bit integer) or in Word 1 (32-bit floating point).

The low byte contains the keyboard code, the high byte the function key code.

The weighing terminal can store a maximum of 10 keys for being called via the

READ KEY NUMBER command. If they are not called, the oldest key actuations are overwritten.

After reading out the last stored key, the KEY WAS PRESSED bit is reset. The key memory is cleared after the device is switched on and after the master mode is exited.

Key numbers

Number Function key

00

02

51

52

...

Standard keys of IND690-Base

Extended tare keys of ID690-Base

Standard keys of Pac

Extended keys of Pac

Only when the Pac is equipped with more than one function key page, i.e. more than 6 function keys

Reading and writing application blocks

• When writing an application block, the desired data are simultaneously transferred with Word 3. For this reason, writing application blocks is only possible in 16-bit integer/4-word mode.

• Only application blocks with the formats "numeric" or "weight value" can be read or written. When writing, certain tolerance (sub-)blocks (e.g. with DeltaTrac) can be intentionally written with the format "percent" by setting the sign to "1".

• If a non-existent block or an alphanumeric block is selected, the IND690 responds with ERROR COMMAND.

The requested data are supplied in the 16-bit integer mode in the same format as the weight value, and in the 32-bit floating point mode floating point values are always transmitted.

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Interface description

The application block number in the write table must be entered as a value (Word 0 in 16-bit integer mode, Word 1 in 32-bit floating point mode) in the following format for the READ APPLICATION BLOCK and WRITE APPLICATION BLOCK commands:

"Basic" application block

Sub-block no.

Exp.

Application block number

Example

Bit 15

S

14

S

13

S

12

S

11

E

10

E

9

A

8

A

7

A

6

A

5

A

4

A

3

A

2

A

1

A

AB 10

0 0 0 0 0 0 0 0 0 0 0 0 1 0 1 0

AB 20, sub-block 2

0 0 1 0 0 0 0 0 0 0 0 1 0 1 0 0

0

A

Expanded application block

Condition

One or more expanded application blocks are selected in master mode.

Example

Application block 21 is selected as the 1st expanded application block, application block 46 is selected as the 2nd expanded application block.

Sub-block no.

Exp.

Index of the expanded AB

Example

AB 21_007

AB 46_005, SB 1

Bit 15

S

14

S

13

S

12

S

11

E

10

E

9

A

8

A

7

A

6

A

5

A

4

A

3

A

2

A

1

A

0 0 0 0 0 1 0 0 0 0 0 0 0 1 1 1

0 0 0 1 1 0 0 0 0 0 0 0 0 1 0 1

0

A

Input of tolerances in %

If the sign (bit 15) in Word 3 is set to 1, tolerance specifications can be written accurately down to one decimal place in %.

This rule applies in the same way for Word 0 (16-bit integer) and Word 1 (32-bit floating point) when reading.

Example Decimal

100.0 %

–1000

1 %

0.1 %

–10

–1

Binary

15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0

1 0 0 0 0 0 1 1 1 1 1 0 1 0 0 0

1 0 0 1 1 0 0 0 0 0 0 0 1 0 1 0

1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1

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Interface description

IND690-Base

Write commands

• The write command PRESS KEY requires the low byte keyboard code and the high byte function key code as parameters.

• The function key code is based on the active function keys and must be correctly specified for each PRESS KEY command. A function key change can also automatically be forced by changing the function key code, e.g. from REF 10

(3301 hex) to X10 (0004 hex).

• The setpoints loaded via the WRITE SETPOINT X commands (e.g. Setpoint 1: write table bits 4/5/6 = 0/0/1) are deleted after switch-on and each time the master mode is run. The Tolerance parameter in the setpoint modes Checking and Filling must be specified in the 16-bit integer mode with 2 decimal places, e.g. 1025 for

10.25 %.

6.5.5

Digital I/Os

The operating mode of an I/O interface (4 I/O-690 or a relay box 8-690) installed on the IND690 is dependent on where the I/Os are located (directly on the IND690 or externally on the Profibus) and on the parameters CONTROL INPUTS, CONTROL

OUTPUTS.

No I/Os on IND690

I/Os on IND690 (4 I/O-690 or

8-690 relay box), inputs and outputs configured to CONTROL

INTERNAL

I/Os on IND690 (4 I/O-690 or

8-690 relay box), inputs and outputs configured to CONTROL

EXTERNAL

Outputs Inputs

The weighing terminal controls external outputs via the read table.

The weighing terminal controls internal outputs and displays these in the read table.

The PLC controls the outputs of the weighing terminal via the write table.

The weighing terminal reads external inputs from the write table and executes predefined actions.

The weighing terminal reads internal inputs and executes predefined actions; the PLC has no access.

The weighing terminal reads internal inputs and displays these in the read table.

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Interface description

6.5.6

Messages in display

The following messages may appear briefly in the display:

Message Meaning

PROFIBUS NOT ACTIVE!

PROFIBUS ACTIVE

PROFIBUS – ERROR BCC RX

PROFIBUS – ERROR BCC TX

PROFIBUS – ERROR DATA RX

PROFIBUS – ERROR DATA TX

• Initialisation processes are still running on

Profibus DP.

• The weighing terminal is not yet connected to the Profibus DP.

• Readiness restored, e.g. after switch-on, exiting master mode or following a bus interruption.

• Weighing terminal or field bus module have detected a BCC error.

• Communication error weighing terminal <–>

Field bus module: e.g. not ETX, Uart error, etc.

PROFIBUS – TIMEOUT IND690 • Communication error weighing terminal <–>

Field bus module: The weighing terminal does not respond within the defined time.

PROFIBUS – ERROR CONF. • The field bus module has not received the configuration data properly.

6.5.7

GSD file

The GSD file required for communication with the ProfibusDP-690 is available from

METTLER TOLEDO Service or can be downloaded from the Profibus GSD Library at

http://www.profibus.com

.

6.5.8

Profibus DP-690 demo kit

For a demonstration and test of all commands with a normal PC, ask METTLER

TOLEDO Customer Service for the ProfibusDP-690 demo kit.

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111

Application blocks

IND690-Base

7 Application blocks

Application blocks are internal information memories in which weighing data, calculated quantities, configuration data or character sequences entered with the keypad are stored. The content of the application blocks can be read out or written to with a computer.

When the GA46 printer is connected, the assignment of the application blocks can be printed out, see operating instructions for the GA46 printer.

7.1

Syntax and formats

The syntax and formats are dependent on the command set selected in the dialog

mode, see page 56.

7.1.1

Read application block

Read

{A[R|No.}

{A[R|_|No.}

MMR command set

SICS command set

The weighing terminal receives the command from the computer to read out the content of the "No." application block. Possible formats for "No." are: xxx xxx.zz

Entire application block

Sub-block of an application block xxx_yyy Read-only memory xxx_yyy.zz Sub-block of a read-only memory

This read command is not contained in the following description of the application blocks.

Response

{A[B|_|Information}

{A[R|_|A|_Information}

MMR command set

SICS command set

As a response the weighing terminal transmits the content of the "No." application block to the computer.

This response is contained in the following description of the application blocks in the MMR version.

Example

Command MMR

Command SICS

Response MMR

Response SICS

{A[R|0[2[1[_[0[0[1}

{A[R|_|0[2[1[_[0[0[1}

Read out tare memory 1.

{A[B|_|_[_[_[_[_[_[1[0[.[5|_|k[g[_}

{A[R|_|A|_[_[_[_[_[_[1[0[.[5|_|k[g[_}

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Application blocks

Note

If an application block is not in use, the weighing terminal transmits the corresponding number of blank spaces in place of the data.

For example, when Tare Memory 1 is not in use, the weighing terminal transmits the following response:

{A[B|_|_[_[_[_[_[_[_[_[_[_|_|_[_[_}

(MMR) resp.

{A[W|_|A|_|_[_[_[_[_[_[_[_[_[_|_|_[_[_}

(SICS)

7.1.2

Write to application block

Write

{A[W|No.|_|Information}

{A[W|_|No.|_|Information}

MMR command set

SICS command set

The weighing terminal receives the command from the computer to write to the "No." application block.

This command is contained in the following description of the application blocks in the MMR version.

Response

{A[B}

{A[W|_|A}

MMR command set

SICS command set

The weighing terminal transmits a confirmation to the computer.

This response is not contained in the following description of the application blocks.

Example

Command MMR

Command SICS

Response MMR

Response SICS

{A[W|0[2[1[_[0[0[1|_|1[2[.[0|_|k[g[_}

{A[W|_|0[2[1[_[0[0[1|_|1[2[.[0|_|k[g[_}

Write to tare memory 1.

{A[B}

{A[W|_|A}

Notes

• Only those application blocks can be written to for which the corresponding AW command is listed in the following description.

• An application block can consist of one or more sub-blocks, and the numbering of the sub-blocks begins with 1.

• The sub-blocks of an application block can each contain a maximum of

20 characters.

• The sub-blocks are separated with $$ or H

T

(ASCII character 09 hex/9 deci):

{A[W|No.|_|Sub-block 1|$[$|Sub-block 2|$[$|…|Sub-block n}

(MMR) resp.

{A[W|_|No.|_|Sub-block 1|$[$|Sub-block 2|$[$|…|Sub-block n}

(SICS)

• Extensive application blocks are displayed so that each sub-block begins in a new line.

• To write to individual sub-blocks, enter the corresponding number of $ characters.

If only sub-block 1 is written to, the $ characters are eliminated, e.g. sub-block 3 written to:

{A[W|No.|_|$[$|$[$|Sub-block 3}

(MMR) resp.

{A[W|_|No.|_|$[$|$[$|Sub-block 3}

(SICS).

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113

Application blocks

IND690-Base

7.1.3

Data formats

• In the following description of the application blocks the following data formats are used:

Weight value

Unit

Number_n

Text_n

10 digits with sign and decimal point, right-justified

(with preceding blank space)

3 characters, left-justified (with following blank spaces)

Number, n digits, right-justified (with preceding blank spaces) maximum of n characters

If the SICS command set is used, "Text" must always be placed in inverted commas.

• Conclude commands and responses with the string frame C

R

L

F

(ASCII characters C

R

= 0D hex/13 deci, L

F

= 0A hex/10 deci).

The string frame is not contained in the following description.

7.1.4

Read and write application blocks with the SICS command set

In the following description, the application blocks are shown in the syntax for the

MMR command set. When used with the SICS command set, please observe the

following SICS conventions, also see sections 7.1.1 to 7.1.3 :

• A blank space must be entered between AR or AW and the application block number: E.g.

{A[R|_|No.}

• The command identification is repeated in the response and a blank space and the character A added:

{A[R|_|A|_|Information}

application block transmitted and

{A[W|_|A}

application block written.

• Texts entered or transmitted are always in inverted commas.

Example Read application block for CODE A

Command:

{A[R|_|0[9[4}

Response:

{A[R|_|A|_|"Article"}

Write application block for CODE A

Command:

{A[W|_|0[9[4|_|"Article"}

Response:

{A[W|_|A}}

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Application blocks

No.

001

002

004

007

007.01

007.02

008

008.01

008.02

009

009.01

009.02

005

006

010

011

011.01

011.02

012

012-01

012-02

7.2

List of the application blocks

Content

Terminal type

Program number

Serial number

Keyboard

Electronic finger

Current gross weight

(2nd weight unit)

Current net weight

(2nd weight unit)

Current tare weight

(2nd weight unit)

Current weighing platform

Current gross weight

(1st weight unit)

Current net weight

(1st weight unit)

Format

Response:

{A[B|_|Mettler–Toledo_IND690}

Response:

{A[B|_|IP60-0-0xxxx|_}

Response:

{A[B|_|Identification (Text_20) |_[_|

SN Terminal (Number_7) |_[_|

SN Scale 1 (Number_14) |_[_|

SN Scale 2 (Number_14) |_[_|

SN Scale 3 (Number_14) |_[_|

SN Scale 4 (Number_14) |_[_|

SN Mainboard (Number_24)}

Write:

{A[W|0[0[4|_|Identification (Text_20)}

Response:

{A[B|_|Keyboard}

Write:

{A[W|0[0[5|_|$|$|Text}

Note: Only possible as long as input active on IND690. The text is then written into the input field

Response:

{A[B|_|Keys|_[_|key number}

Write:

{A[W|0[0[6|_|$|$|2[4}

Note: See table in the Appendix for key numbers

Response:

{A[B|_|Weight value|_|Unit}

{A[B|_|Weight value}

{A[B|_|Unit}

Response:

{A[B|_|Weight value|_|Unit}

{A[B|_|Weight value}

{A[B|_|Unit}

Response:

{A[B|_|Weight value|_|Unit}

Write:

{A[B|_|Weight value}

{A[B|_|Unit}

{A[W|0[0[9|_|Weight value|_|Unit}

Response:

{A[B|_|Number_2}

Write:

{A[W|0[1[0|_|Number_2}

Switch over weighing platform

Response:

{A[B|_|Weight value|_|Unit}

{A[B|_|Weight value}

{A[B|_|Unit}

Response:

{A[B|_|Weight value|_|Unit}

{A[B|_|Weight value}

{A[B|_|Unit}

Operating instructions 22012808F 07/09

115

Application blocks

IND690-Base

No.

013

013.01

013.02

014

015

016

018

019

020

021_001

...

021_999

021

045

046_001

...

046_999

Content Format

Current tare weight

(1st weight unit)

Content of display

Date

Dynamic weighing

Response:

{A[B|_|Weight value|_|Unit}

{A[B|_|Weight value}

Write:

{A[B|_|Unit}

{A[W|0[1[3|_|Weight value|_|Unit}

Response:

{A[B|_|Display}

Display = Text_20 or weight value

Response:

{A[B|_|Date}

Write:

{A[W|0[1[5|_|Date}

Comment: The date is sent in the format selected in the master mode.

Response:

{A[B|_|Weight value|_|Unit}

Write:

{A[W|0[1[6|_|No. of cycles}

Start weighing cycle

Comment: No. of cycles = 1 … 255

Response:

{A[B|_|Weight value|_|Unit}

Difference target/ actual weight

Date and time

Current DeltaTrac

Tare memory

1 ... 999

Response:

{A[B|_|Date|_|Time}

Write:

{A[W|0[1[9|_|Date|$|$|Time}

Comment: Date and time are sent in the format selected in the master mode.

Response:

{A[B|_|Target weight (weight value) |_|Unit|_|_|

{A[B|_| lower tolerance (weight value) |_|Unit|_|_|

Write:

{A[B|_| upper tolerance (weight value) |_|Unit}

{A[W|0[x[x|_|Target weight (weight value) |_|Unit|$|$|

{A[W|0[2 0|_ lower tolerance (weight value) |_|Unit|$|$|

{A[W|0[2[0| _ upper tolerance (weight value) |_|Unit}

Comment: xx = 20

Response:

{A[B|_|Weight value|_|Unit|_|_|Name (Text_30)}

Write:

{A[W|0[x[x[_[x[x[x|_|Weight value|_|Unit|$|$|

{A[B|_| Name (Text_30)}

Comment: xx_xxx = 21_001 … 21_999

Tare memory 1 … 25 Response: equal to 021_001

Write: equal to 020_001

Comment: xx_xxx = 21 … 45

The contents of the tare memories 1 ... 25 are identical to the contents of the tare memories 021_001 ... 021_025.

DeltaTrac memory

1 … 999

Response: equal to 020

Write: equal to 020

Comment: xx = 46_001 ... 46_999

116

Operating instructions 22012808F 07/09

IND690-Base

Application blocks

No.

046

070

071_001

071_999

071

090

091

Content Format

DeltaTrac memory

1 … 25

Text memory

1 … 999

Response: equal to 020

Write: equal to 020

Comment: xx = 46 … 70

The contents of the DeltaTrac memories 1 ... 25 are identical to the contents of the DeltaTrac memories 046_001 ...

046_025.

Response:

{A[B|_|Text_30}

Write:

{A[W|0[x[x[_[x[x[x|_|Text_30}

Comment: xx = 71_001 … 71_999

Text memory 1 … 20 Response: equal to 071_001

Write: equal to 071_001

Comment: xx_xxx = 71 … 90

The contents of the text memories 1 ... 20 are identical to the contents of the text memories 071_001 ... 071_020.

Barcode EAN 28,

EAN 128

Response:

{A[B|_|EAN 28|_|_|EAN 128 01|_|_|EAN 128 310|_|_|

{A[B|_ |EAN 128 330}

EAN 28

:

|2[8[Article[Check digit[Weight|

Article: 4-digit article No. from memory Code A

Check digit: 1-digit, calculated by IND690-Base for the weight

Weight: 5-digit positive weight value with 3 decimal places between 00.000 kg - 99.999 kg

EAN 128 01

:

|0[1[Article|

or

|0[1[Article[Check digit|

|0[1[0[Article[Check digit|

or

or

|0[1[0[Article|

Article: Article No. from memory Code A, max. 14 digits

Check digit: 1-digit, calculated by IND690-Base

Length: total of max. 16 digits

EAN 128 310

:

|0[1[9[Article[Check digit[3[1[0[x[Weight|

|0[1[9[Article[3[1[0[x[Weight|

Article: Article No. from memory Code A max. 12 or 13 digits

Check digit: 1-digit calculated by IND690-Base x: 0 ... 6, decimal places of weight value

Weight: 6-digit net weight value

EAN 128 330

:

|3[3[0[x[Weight| x:

Weight:

0 ... 6, decimal places of weight value

6-digit gross weight value or

Operating instructions 22012808F 07/09

117

Application blocks

IND690-Base

No.

092

093

094 …

099

101 ...

109

110

111_001

...

111_005

112_001

...

112_005

113_001

...

113_005

115

Content Format

Barcode EAN 29

Barcode EAN 29 A

Identification data

Code A … Code F

Response:

{A[B|_|2[9[Article[Check digit[Weight}

Comment: Article: 4-digit article no. from memory Code A

Check digit:1-digit no., calculated from IND690-Base for the weight

Weight: 5-digit positive weight value with 3 places to right of point between 00.000 kg … 99.999 kg

Response:

{A[B|_|2[9[Article[Weight}

Comment: Article: 5-digit article no. from memory Code A

Weight: 5-digit positive weight value with 3 places to right of point between 00.000 kg … 99.999 kg

Response:

{A[B|_|Name (text_20)|_[_|Identification (text_30)}

Write:

{A[W|0[x[x|_|Name (text_20)|$|$|Identification (text_30)}

Comment: xx = 94 … 99

Status

COM1 ... COM9

Scales ID

Gross weight, scales

1 ... 4, sum scale

Net weight, scales 1

... 4, sum scale

Response:

{A[B|_|HW (Text_21|_[_|Mode (Text_21|_[_|

{A [B|_ Status (Text_21|_[_|Settings (Text_31)}

Write*:

Note:

{A[W|1[0[x|_|Transmit buffer COMx} x = 1 ... 9

The information entered is sent directly via the selected interface.

The max. data length of a transmit buffer is 246 characters.

Response:

{A[B|_|Scale No. Scale 1 (Number_2)|_[_|

{A [B|_ Scale No. Scale 2 (Number_2)|_[_|

{A [B|_ Scale No. Scale 3 (Number_2)|_[_|

{A [B|_ Scale No. Scale 4 (Number_2)|_[_|

{A [B|_ Scale No. Sum scale (Number_2)}

Note: This block only contains data if the setting PARALLEL SCALES is selected under the SCALES MODE.

When a sum scale is configured, the scale number 05 is output in the last sub-block. If no sum scale is configured, the last sub-block is empty.

Response:

{A[B|_|Weight value|_|Unit}

Note: This block only contains data if the setting PARALLEL SCALES is selected under the SCALES MODE.

Response:

{A[B|_|Weight value|_|Unit}

Note: This block only contains data if the setting PARALLEL SCALES is selected under the SCALES MODE.

Tare weight, scales 1

... 4, sum scale

Status terminal

Response:

{A[B|_|Weight value|_|Unit}

Write:

Note:

{A[W|1[1[3|_|0[0[x|Weight value|_|Unit} x = 1 ... 5

This block only contains data if the setting PARALLEL SCALES is selected under the SCALES MODE.

Response:

{A[B|_|Status}

118

Operating instructions 22012808F 07/09

IND690-Base

Application blocks

No.

116

117_001

...

117_005

118_001

...

118_005

119_001

...

119_005

120

181 ...

184

185

199

201

202

205

205.01

205.02

Content Format

Fault/event memory Response:

{A[B|_|Type (Number_2)|_[_|Quantity (Number-2)}

Gross weight,

(2nd weight unit) scales 1 ... 4, sum scale

Response:

Note:

{A[B|_|Weight value|_|Unit}

This block only contains data if the setting PARALLEL SCALES is selected under the SCALES MODE.

Net weight,

(2nd weight unit) scales 1 ... 4, sum scale

Tare weight,

(2nd weight unit) scales 1 ... 4, sum scale

Response:

{A[B|_|Weight value|_|Unit}

Note: This block only contains data if the setting PARALLEL SCALES is selected under the SCALES MODE.

Disabling / Enabling keys

Parameters for scale 1 ... 4

Response:

{A[B|_|Weight value|_|Unit}

Write:

Note:

{A[W|1[1[3|_|0[0[x|Weight value|_|Unit} x = 1 ... 5

This block only contains data if the setting PARALLEL SCALES is selected under the SCALES MODE.

Response:

{A[B|_|x[x[x[...|(37 places)}

Write:

Note:

{A[W|1[2[0|_|x[x[x[...|(37 places)} x = 1: Key enabled x = 0: Key disabled

The position of the numerals corresponds to the table in

section 10.2 , beginning with 0.

The setting is retained when the weighing terminal is switched off.

Example:

{A[W|1[2[0|_|

0000000000000000100000000000000111100}:

All keys disabled except for F6 and the cursor keys.

Response:

{A[B|_|Scale parameters}

Note: For service information purposes the internal scale parameters can be read out/printed; the structure and content are scale-dependent.

Parameters for sum scale

Number of last Alibi entry

Response:

{A[B|_|Sum scale parameters}

Application

Version application

Start and end value for the item counter

Response:

{A[B|_|Number_6|_[_|Date|_[_|Time|_[_|

{A [B|_ Gross (Weight value)|_[_|

{A [B|_ Net (Weight value|_[_|

{A [B|_ Tare (Weight value)}

Note: Date and time as in application block 019.

Response:

{A[B|_|IND690[_[TOTALIZING}

Response:

{A[B|_|IP60_1_0105}

Response:

{A[B|_|Start value (Number 4)|_|End value (Number 4)}

{A[B|_|Start value (Number 4)}

{A[B|_|End value (Number 4) }

Operating instructions 22012808F 07/09

119

Application blocks

IND690-Base

No.

206

207

208

211

211.01

211.02

212

212.01

212.02

213

213.1

213.2

214

214.01

214.02

215

215.01

215.02

216

216.01

216.02

217

218

219

220

701

702

706, 708,

710, 712,

714, 716,

718, 720

Content Format

Item counter

Transaction number

Last process

Sum gross

Sum net

Sum tare

Last gross

Last net

Response:

{A[B|_|Item (Number 4)}

Response:

{A[B|_|Transaction number (Number 6)}

Response:

{A[B|_|Process (Number 1)}

Remark: Last process carried out

1 = Totalizing

2 = Manual input

4 = Cancelled

Response:

{A[B|_|Weight value|_|Unit}

{A[B|_|Weight value}

{A[B|_|Unit}

Response:

{A[B|_|Weight value|_|Unit}

{A[B|_|Weight value}

{A[B|_|Unit}

Response:

{A[B|_|Weight value|_|Unit}

{A[B|_|Weight value}

{A[B|_|Unit}

Response:

{A[B|_|Weight value|_|Unit}

{A[B|_|Weight value}

{A[B|_|Unit}

Response:

{A[B|_|Weight value|_|Unit}

{A[B|_|Weight value}

{A[B|_|Unit}

Last tare

Mean value

Standard deviation

Minimum x min

Response:

{A[B|_|Weight value|_|Unit}

{A[B|_|Weight value}

{A[B|_|Unit}

Response:

Response:

Response:

{A[B|_|Weight value|_|Unit}

{A[B|_|Weight value|_|Unit}

{A[B|_|Weight value|_|Unit}

Maximum x max

Description of application

Response:

Response:

{A[B|_|Weight value|_|Unit}

{A[B|_|ID690-Interfaces}

Program designation Response:

{A[B|_|IK07-0-0300}

Dig. outputs 1 ... 8 Response:

Write:

Note:

{A[B|_|8-digit binary value}

{A[W|7[x[x|_|8-digit binary value } xx = 06, 08, 10, 12, 14, 16, 18, 20

8-digit binary value: Bit8, Bit7 ... Bit1

Bit8 = Output 8 ... Bit1 = Output 1

120

Operating instructions 22012808F 07/09

IND690-Base

Application blocks

No.

Content

707, 709,

711, 713,

715, 717,

719, 721

Dig. inputs 1 ... 8

722,

723

COM5 analog output,

COM6 analog output

724 ...

731

Set point 1

Format

Response:

{A[B|_|8-digit binary value}

Note: 8-digit binary value: Bit8, Bit7 ... Bit1

Bit8 = Input 8 ... Bit1 = Input 1

Response: Start-Stop mode

{A[B|_|A|Application block for COM5 (Number_3) |_|_|

{ A[ Start value (weight value) |_|Unit|_[_|

{ A[ Stop value (weight value) |_|Unit|_[_|

{ A[ Start value voltage/current |_|Unit|_[_|

{ A[ Stop value voltage/current |_|Unit}

*

DeltaTrac mode

{A[B|_|A|Application block for COM5 (Number_3) |_|_|

{ A[ Start value voltage/current |_|Unit|_[_|

{ A[ Stop value voltage/current _|Unit|_[_|

{ A[ Tolerance voltage/current |_|Unit}

*

ΔW-ΔT mode

{A[B|_|A|Application block for COM5 (Number_3) |_|_|

{ A[ Start value voltage/current |_|Unit|_[_|

Write:

{ A[ Delta voltage/current |_|Weight unit/sec}

Start-Stop mode

*

{A[W|7[x[x|_|A|Application block for COM5 (Number_3)|$|$|

{A[B| Start value (weight value) |_|Unit|$|$|

{A[B| _ Stop value (weight value) |_|Unit|$|$|

{A[B| Start value voltage/current |_|Unit|$|$|

{A [B Stop value voltage/current |_|Unit}

DeltaTrac mode

*

Note:

{A[W|7[x[x|_|A|Application block for COM5 (Number_3)|$|$|

{A[B| Start value voltage/current |_|Unit|$|$|

{A [B Stop value voltage/current |_|Unit|$|$|

*

{A [B Tolerance voltage/current |_|Unit}

ΔW-ΔT mode

{A[W|7[x[x|_|A|Application block for COM5 (Number_3)|$|$|

{A[B| Start value voltage/current |_|Unit|$|$|

{A [B Delta voltage/current |_|Weight unit/s}

* xx = 22: COM5 xx = 23: COM6

Response:

{A[B|_|Set point (Text_2) |_[_|

|A[x[x[x[_[y[y[y[.[z[z|_[_|

|Scale (Text_3) |_[_|

|Set point value (weight value) }

Write:

Note:

{A[W|7[2[x|_|Set point type (Text_2) |$[$|

|A[x[x[x[_[y[y[y[.[z[z|$[$|

|Scale (Text_3) |$[$|

|Set point value (weight value) } xx = 24 ... 31

Set point type: F

↑, F↓, D↑, D↓

Scale: W1, W2, W3, ALL

Operating instructions 22012808F 07/09

121

What to do if …?

IND690-Base

8 What to do if …?

Error / Display Possible causes

Display is dark

Underload

• No mains voltage

• Terminal switched off

• Power cord not connected

• Brief malfunction

• Switch-off time too short in storage battery operation at the IND690-24V

• Storage battery level too low at the

IND690-24V

• Operating-mode selector switch for storage battery operation/mains operation set incorrectly at the

IND690-24V

• Load plate not in place

• Preload not applied

• Weighing range dropped below

Overload

Weight display unstable • Agitated set-up location

• Draft

• Contact between load plate and/or weighing sample and surroundings

• Power malfunction

Wrong weight display

• Weighing range exceeded

• Weighing platform locked

• Wrong setting to zero of weighing platform

• Wrong tare weight

• Contact between load plate and/or weighing sample and surroundings

• Weighing platform tilted

• Wrong weighing platform selected

A whistle sound is emitted in the

IND690-24V

• Storage battery level too low

WRONG CODE • Wrong personal code

Remedy

➜ Check mains

➜ Switch on terminal

➜ Plug in power plug

➜ Switch terminal off and on again

➜ Switch off power for 10 seconds

➜ Charge storage battery

➜ Set operating-mode selector switch to desired operating mode

➜ Apply load plate

➜ Apply preload

➜ Set zero

➜ Relieve weighing platform

➜ Release lock

➜ Adjust vibration adapter

➜ Avoid drafts

➜ Eliminate contact

➜ Check mains

➜ Relieve weighing platform, set to zero and repeat weighing

➜ Delete tare or enter right tare value

➜ Eliminate contact

➜ Level weighing platform

➜ Select right weighing platform

➜ Charge storage battery or switch over to 24 VDC mains operation

➜ Enter right personal code

122

Operating instructions 22012808F 07/09

IND690-Base

What to do if …?

Error / Display

SCALE NO. ERROR

OUT OF RANGE

NOT ALLOWED

NOT EXISTENT

NO DATA TRANSFER

Possible causes

• Error in weighing cell

• Zero set range exceeded

• Gross weight negative

• Taring range exceeded

• Entered value outside permissible range

• Weighing platform does not exist

• Print with negative weight value

• Recalled memory not assigned

• Weighing platform does not transmit data to the terminal

➜ Connect weighing platform

➜ Relieve weighing platform, set to zero and repeat weighing

➜ Recall other memory

➜ Switch terminal off and on again

➜ If the message appears again: contact METTLER TOLEDO Customer

Service

➜ Check cable and connectors

➜ Check external devices (on/off)

➜ Check handshake

➜ Increase baud rate

INTERF. COM X – BREAK • Break in receiving cable of specified interface

TRANSMIT BUFFER FULL • No transmission

• Too many key messages and baud rate too low

KEY BUFFER FULL • Data string currently being edited contains too many blocks

ERROR BARCODE

NO BLOCK

• The specified application block contains no data

• Wrong sub-block selected, e.g. subblock 0

• Entered application block does not exist

BUFFER IS FULL

DISPLAY MODE

• Data string of transfer key contains more than 10 application blocks

• Weighing cell defective

Remedy

➜ Repeat test

➜ If the message appears again: contact METTLER TOLEDO Customer

Service

➜ Relieve weighing platform

➜ Relieve weighing platform and set to zero

➜ Relieve weighing platform and set to zero

➜ Enter permissible value

➜ Remove blocks from data string

➜ Select application block which contains data

➜ Select permissible sub-block

➜ Enter different application block

➜ Change configuration of transfer key

➜ Contact METTLER TOLEDO Customer

Service

Operating instructions 22012808F 07/09

123

What to do if …?

IND690-Base

Error / Display

NO ANALOG OUTPUT

SCALE NUMBER

DOUBLED

Possible causes Remedy

• Resolution or maximum load of the selected weighing bridge was changed

➜ Reconfigure Interface AnalogOut-690 in master mode

• 2 weighing platforms with same scale number connected

➜ Contact METTLER TOLEDO Customer

Service

124

Operating instructions 22012808F 07/09

IND690-Base

Technical data and accessories

9 Technical data and accessories

Weighing functions

Tare compensation

Tare target value

Tare indicator

DeltaTrac

Setting to zero

Gross changeover

Unit changeover

Stabilization detector

Weighing process adapter

Vibration adapter

MinWeigh

Identification data

Info function

Date and time

At the press of a button or automatically, up to maximum load (subtractive)

• For single-range scales over entire weighing range (subtractive)

• For multi-range scales depending on national calibration regulations

• 999 stored tare memories, protected against power failure

NET lights up with saved tare weight

• Analog display of dynamic measured values

• With optical marks for target value and tolerances

• Asymmetric tolerances possible

• 3 selectable applications

• 999 DeltaTrac memories, protected against power failure

Automatic or manual

Display of weight value can be changed over to gross weight at press of a button

Unit can be changed over to weight units kg, g, lb, oz, ozt, dwt in dependence on national calibration regulations at press of a button

4-step, with motion indicator

3-step adjustment to weighing sample

3-step adjustment to ambient conditions

• Weight values below the minimum weighing-in quantity are identified with

• Minimum weighing-in quantity fixed or calculated

• 6 memories for 30 alphanumeric characters, can be recalled with keys A to F

• Each memory can be assigned a fixed name which can be written in the marking field next to the corresponding key

• 999 memories for frequently used identification data

Displays of current weighing data, identification data and memories at the press of a button

• For printout or output via the data interface

• Quartz-controlled, 12 or 24-hour display, automatic calendar function, Europe,

USA or free format, safe against power failure

• Automatic summer time switchover

Operating instructions 22012808F 07/09

125

Appendix

IND690-Base

10 Appendix

hex deci

27

28

29

30

23

24

25

26

19

20

21

22

15

16

17

18

11

12

13

14

7

8

9

10

5

6

3

4

0

1

2

43

44

45

46

39

40

41

42

47

48

49

50

51

35

36

37

38

31

32

33

34

1B

1C

1D

1E

17

18

19

1A

13

14

15

16

0F

10

11

12

0B

0C

0D

0E

07

08

09

0A

00

01

02

03

04

05

06

2B

2C

2D

2E

27

28

29

2A

2F

30

31

32

33

23

24

25

26

1F

20

21

22

ASCII

US

ETB

CAN

EM

SUB

ESC

FS

GS

RS

SI

DLE

DC1

DC2

DC3

DC4

NAK

SYN

VT

FF

CR

SO

BEL

BS

HT

LF

NUL

SOH

STX

ETX

EOT

ENQ

ACK

.

-

,

+

)

*

´

(

1

2

/

0

3

#

$

%

&

"

!

US

SP

10.1

ASCII table

hex deci ASCII

US

Q

R

O

P

K

L

M

N

I

J

G

H

E

F

C

D

A

B

?

@

=

>

;

<

:

9

7

8

4

5

6 a b

_

]

^

\

[ f e c d g

Y

Z

W

X

U

V

S

T

4F

50

51

52

4B

4C

4D

4E

47

48

49

4A

43

44

45

46

3F

40

41

42

3B

3C

3D

3E

34

35

36

37

38

39

3A

5F

60

61

62

5B

5C

5D

5E

63

64

65

66

67

57

58

59

5A

53

54

55

56

79

80

81

82

75

76

77

78

71

72

73

74

67

68

69

70

63

64

65

66

59

60

61

62

52

53

54

55

56

57

58

95

96

97

98

91

92

93

94

99

100

101

102

103

87

88

89

90

83

84

85

86

hex deci ASCII

US

150

151

152

153

154

155

142

143

144

145

146

147

148

149

134

135

136

137

138

139

140

141

127

128 reserved

129 ü

130

131

132

133

é

â

ä

à

ì

î

ï

è

ê

ë

å

ç

ÿ

Ö

û

ù

Ü

¢

ö

ò

Æ

ô

Ä

Å

É

æ

111

112

113

114

115

116

117

118

104

105

106

107

108

109

110

119

120

121

122

123

124

125

126 u v t s r q o p l k m n j i h

}

~

|

{ y z w x

96

97

98

99

9A

9B

92

93

94

95

8E

8F

90

91

8A

8B

8C

8D

86

87

88

89

7F

80

81

82

83

84

85

73

74

75

76

6F

70

71

72

68

69

6A

6B

6C

6D

6E

7B

7C

7D

7E

77

78

79

7A

hex deci

B7

B8

B9

BA

B3

B4

B5

B6

AF

B0

B1

B2

AB

AC

AD

AE

A7

A8

A9

AA

A3

A4

A5

A6

9F

A0

A1

A2

9C

9D

9E

C7

C8

C9

CA

C3

C4

C5

C6

CB

CC

CD

CE

CF

BF

C0

C1

C2

BB

BC

BD

BE

179

180

181

182

183

184

185

186

171

172

173

174

175

176

177

178

163

164

165

166

167

168

169

170

156

157

158

159

160

161

162

195

196

197

198

199

200

201

202

203

204

205

206

207

187

188

189

190

191

192

193

194

¡

«

»

£

¥

ƒ

á

ú

ñ

í

ó

Ñ

¬

ª

º

¿

ASCII

US hex deci

EB

EC

ED

EE

E7

E8

E9

EA

E3

E4

E5

E6

DF

E0

E1

E2

DB

DC

DD

DE

D7

D8

D9

DA

D0

D1

D2

D3

D4

D5

D6

FB

FC

FD

FE

FF

F7

F8

F9

FA

F3

F4

F5

F6

EF

F0

F1

F2

231

232

233

234

235

236

237

238

223

224

225

226

227

228

229

230

215

216

217

218

219

220

221

222

208

209

210

211

212

213

214

247

248

249

250

251

252

253

254

255

239

240

241

242

243

244

245

246

·

˚

÷

⌡ ⁿ

²

.

±

ε

ø

Ω

δ

Φ

Θ

μ

τ

σ

α

ß

Γ

ASCII

US

126

Operating instructions 22012808F 07/09

IND690-Base

Appendix

10.2

Key codes

All keys of the IND690 are assigned to numbers so that the keys may be addressed via interfaces.

Key

Key 0

Key 1

...

Key 9

Decimal point key

Function key F1

Function key F2

Function key F3

Function key F4

Function key F5

Function key F6

14

15

16

11

12

13

Number Key

0

Key

1

Key

...

Key

T

9

Key

PT

10

Key

Key

CODE A key

CODE B key

CODE C key

CODE D key

CODE E key

CODE F key

Cursor key <

Cursor key >

Cursor key

Cursor key

21

22

23

27

28

29

30

24

25

26

31

32

33

34

Number

19

20

Operating instructions 22012808F 07/09

127

Appendix

IND690-Base

10.3

Notes on CL handshake

With the CL handshake 3 types of interface control are possible:

Handshake in receiving direction, in transmitting direction and in both directions.

After switch-on and after each interruption, the IND690 attempts to establish the handshake in both directions.

CL handshake in

receiving direction

CL handshake in

transmission direction

This type of CL handshake is suitable for data transmission from the IND690 to the computer.

1. The weighing terminal transmits SYN after switch-on.

2. The computer transmits the character ACK after switch-on or after receiving SYN.

3. The weighing terminal then sends the response to a command or to a key actuation after each ACK.

This type of CL handshake is suitable for data transmission from the computer to the

IND690.

1. The weighing terminal transmits SYN after switch-on.

2. The computer transmits the character SYN after switch-on or after receiving SYN.

3. The weighing terminal acknowledges the receipt of SYN again with SYN and signals its readiness to receive with ACK.

4. Then the computer can transmit a command after each ACK.

CL handshake in both directions

1. The weighing terminal transmits SYN after switch-on.

2. The computer transmits the character SYN after switch-on or after receiving SYN.

3. The weighing terminal acknowledges the receipt of SYN again with SYN and signals its readiness to receive with ACK.

4. The computer signals its readiness to receive with ACK.

5. During operation the weighing terminal receives data and transmits ACK when it is ready to receive data again.

The computer receives data and transmits ACK when it is ready to receive data again.

128

Operating instructions 22012808F 07/09

IND690-Base

Appendix

10.4

Selection possibilities for the assignment of the digital inputs and outputs

Digital inputs Assignment

ON/OFF

ZERO SET

Function

switch terminal on or off like

TARE SET like

T

ENTER like

CLEAR like

SCALE

SCALE 1 ... SCALE 5

KBD LOCK

F1 .... F6

NOT USED like switch over to Scale 1 ... 5 lock/unlock keyboard like key F1 ... F6 no function stored

Digital outputs Assignment

DELTA BELOW

DELTA GOOD

DELTA ABOVE

STABLE

SETPOINT 1 ... SETPOINT 8

SCALE 1 ... SCALE 5

GA46 P O

CMD

RESULT

NET

NOT USED

Function

DeltaTrac below tolerance

DeltaTrac within tolerance

DeltaTrac above tolerance scale stationary, no movement

Setpoint 1 ... 8 reached or exceeded current scale is Scale 1 ... 5

Out of paper GA46 toggles after a command triggered via an input has been executed result of the command execution

0 = correct, 1 = incorrect net weight is displayed no function stored

10.5

Disposal

In conformance with the European Directive 2002/96 EC on Waste Electrical and

Electronic Equipment (WEEE) this device may not be disposed of with domestic waste. This also applies to countries outside the EU, per their specific requirements.

➜ Please dispose of this product in accordance with local regulations at the collecting point specified for electrical and electronic equipment.

If you have any questions, please contact the responsible authority or the distributor from which you purchased this device.

Should this device be passed on to other parties (for private or professional use), the content of this regulation must also be related.

Thank you for your contribution to environmental protection.

Operating instructions 22012808F 07/09

129

Index

IND690-Base

11 Index

A

Acoustic signal 42, 86,

100

Additional functions 16

Additive tare function 21

Alibi memory 29, 52, 64

Alphanumeric identification 24

Alphanumeric keypad 28

Alphanumeric printout

86, 102

Analog scale 52

AnalogOut 53, 72

Application blocks 85,

100, 101, 112

Applications 8

ASCII characters 78, 126

Automatic continuous transmission 56

Automatic tare clear 47

Automatic taring 12, 125

Autozero 12, 46

B

Barcode 27, 52, 63, 86

Basic functions 11

Big Weight Display 9, 40

Bluetooth 53, 76

Bus Slave 55, 78

C

Change over weight unit

80, 100, 125

Check mode 41

Checkweighing 18

CL20mA 52

Classifying 17

Cleaning 10

Command format 91

Command overview 79,

92

Communication 55

Configuration printouts

58

D

Data formats 78, 91

Date 39, 125

DeltaTrac 17, 38, 82,

101, 125

DeltaTrac memory 18, 38

DeltaTrac mode 69

DeltaTrac target values

18, 82, 101

Dialog mode 55, 77

Digital inputs/outputs 53

Display 9, 85, 95

Display Mode 123

Display update 47

Dynamic weighing 19,

41, 44

L

Language 38

M

Master mode 33

Memory 26

METTLER TOLEDO continuous mode 57

MMR command set 56,

78

Multiplicative tare function

21

Multi-scale mode 14, 41

I

E

Edit data string 60

Error messages 88, 104,

122

Ethernet 53, 71

External keypad 28, 68

F

Filling 17

Function key codes 128

Function keys 9, 16

O

Operating mode 55

P

Personal code 40

Print 27

Print mode 55, 58

Printout 86

ProfibusDP 53

PS2 54

G

GA46 52

Gross 20, 125

I/O test 66

ID code 23

ID5 mode 41

Identifications 24, 86,

IDNet scale 52

IDs 39

Interface connections 52

Interface description 77

Interface type 52

Introduction 8

K

125

Keypad 10

Keys A B C D E F 39

R

Recall information 25

Relay box 8 53

Representable characters

126

Reset scale 48

Reset terminal 43

Response format 91

Restart 47

RFID 52

RS232 52

RS485/422 53

S

Safety instructions 5

Sandwich tare 21

Second display 29

Second unit 47

Serial interfaces 77

Set zero 12, 80, 95, 125

SICS command set 56,

91

SICS scale 52

Stability detector 46

Start-Stop mode 68

Status byte 89, 90

String framing 56, 78, 91

Switch keyboard on/off

80

Switch keypad on/off 80,

100

Switch off 11

Switch on 11

Switch over weighing platform 14

T

Tare 12, 81, 125

Tare memory 13, 37

Taring 97

Technical data 125

Test weighing platform

23

Text memory 24, 37

Time 39, 125

Transfer data 27

Transfer string 56

Transmit data record 84,

99

Transmit weight value

82, 94

U

Unit changeover 125

USB 54

V

Vibration adapter 46,

125

W

Weighing 14

Weighing functions 125

Weighing process adapter

46, 51, 125

What to do if …? 122

WLAN 53

130

Operating instructions 22012808F 07/09

*22012808F*

22012808F

Subject to technical changes © Mettler-Toledo (Albstadt) GmbH 07/09 Printed in Germany

22012808F

Mettler-Toledo (Albstadt) GmbH

D-72458 Albstadt

Tel. ++49-7431-14 0, Fax ++49-7431-14 232

Internet: http://www.mt.com

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Key Features

  • Up to 4 weighing platforms
  • DeltaTrac display
  • Multiple interfaces
  • Totalizing and data transfer
  • Master mode for configuration

Frequently Answers and Questions

How many weighing platforms can be connected to the IND690-Base?
The IND690-Base can be connected to up to 4 weighing platforms.
What is the DeltaTrac display?
The DeltaTrac display is an analog display that makes it easier to read the weighing results.
What interfaces does the IND690-Base have?
The IND690-Base has multiple interfaces, including RS232, Ethernet, and USB. These interfaces can be used to connect the terminal to printers, computers, barcode readers, and other devices.
How do I configure the IND690-Base?
The IND690-Base has a master mode which can be used to configure the terminal's settings. This includes things like the weight unit, the tare function, the printing options, and the interface settings.

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