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Oldal 1/118

HC/HS/SA-Series

2D Image Scanner

User Manual

Version: B0

Contents

INTRODUCTION ................................................................................................................. - 5 -

1. GENERAL OPTIONS....................................................................................................... - 7 -

1.1. Restore to Factory Default Settings ............................................................................ - 7 -

1.2. Switch User Interface and Reset to Default Settings .................................................. - 8 -

1.3. Check Firmware Version ............................................................................................ - 8 -

1.4. Enhance Barcode Scanning on Screens ...................................................................... - 9 -

1.4.1 No illumination detection ..................................................................................... - 9 -

1.4.2 Prevention of icker ............................................................................................. - 9 -

1.4.3 Prevention of specular reection .......................................................................... - 9 -

1.5. Congure Data Transmission Interval ....................................................................... - 9 -

2. INTERFACE ................................................................................................................... - 11 -

2.1. Keyboard wedge/USB options ................................................................................. - 11 -

2.1.1. Keyboard language ............................................................................................ - 12 -

2.1.2. Special options................................................................................................... - 13 -

2.1.3. Intercharacter delay for wedges/USB ................................................................ - 15 -

3. CODE OPTIONS ............................................................................................................ - 16 -

3.1. Setting of readable codes .......................................................................................... - 17 -

3.1.1. Disabling of readable codes ............................................................................... - 17 -

3.1.2. Enabling of readable codes ................................................................................ - 19 -

3.2. Setting of number of characters ................................................................................ - 22 -

3.3. Setting code specic options .................................................................................... - 26 -

3.3.1. Options for UPC-A ............................................................................................ - 28 -

3.3.2. Options for UPC-E ............................................................................................ - 29 -

3.3.3. Options for EAN-13 and EAN-8 ....................................................................... - 30 -

3.3.4. Options for Code 39 and It. Pharm. ................................................................... - 33 -

3.3.5. Options for Codabar .......................................................................................... - 36 -

3.3.6. Options for 2of5 and S-Code ............................................................................. - 39 -

3.3.7. Options for IATA .............................................................................................. - 42 -

3.3.8. Options for MSI/Plessey .................................................................................... - 42 -

3.3.9. Options for Telepen ........................................................................................... - 44 -

3.3.10. Options for UK/Plessey ................................................................................... - 45 -

3.3.11. Options for Code 128 and GS1-128 ................................................................ - 45 -

3.3.12. Options for Code 93 ........................................................................................ - 47 -

3.3.13. Options for Code 11 ........................................................................................ - 48 -

3.3.14. Options for Korean Postal Authority code ...................................................... - 49 -

3.3.15. Options for Intelligent Mail Barcode ............................................................... - 50 -

3.3.16. Options for POSTNET .................................................................................... - 51 -

3.3.17. Options for GS1 Databar ................................................................................. - 51 -

3.3.18. Options for Composite Codes.......................................................................... - 53 -

3.3.19. Options for Codablock F ................................................................................. - 55 -

3.3.20. Options for DataMatrix ................................................................................... - 55 -

3.3.21. Options for Aztec ............................................................................................ - 57 -

3.3.22. Options for Chinese Sensible code .................................................................. - 58 -

3.3.23. Options for QR Code ....................................................................................... - 59 -

3.3.24. Options for Micro QR Code ............................................................................ - 60 -

3.3.25. Options for Maxicode ...................................................................................... - 61 -

3.3.26. Options for PDF417 ........................................................................................ - 62 -

3.3.27. Options for MicroPDF417 ............................................................................... - 63 -

4. STRING OPTIONS ......................................................................................................... - 65 -

4.1. Case conversion ........................................................................................................ - 65 -

4.2. Set prex and sux ................................................................................................. - 66 -

4.2.1. Set prex ........................................................................................................... - 73 -

4.2.1.1. Direct input keyboard keys ................................................ - 73 -

4.2.1.2. Direct input numeric .......................................................... - 77 -

4.2.1.3. Direct input character ......................................................... - 78 -

4.2.1.4. Direct input lower case character ....................................... - 80 -

iii

4.2.1.5. Direct input control character ............................................ - 82 -

4.2.1.6. Direct input code id/length................................................. - 84 -

4.2.2. Set sux ............................................................................................................ - 84 -

4.2.2.1. Direct input keyboard keys ................................................ - 84 -

4.2.2.2. Direct input numeric .......................................................... - 89 -

4.2.2.3. Direct input character ......................................................... - 89 -

4.2.2.4. Direct input lower case character ....................................... - 91 -

4.2.2.5. Direct input control character ............................................ - 93 -

4.2.2.6. Direct input code id/length................................................. - 95 -

5. READ OPTIONS ............................................................................................................ - 96 -

5.1. Read mode options ................................................................................................... - 96 -

5.1.1. Multiple read reset time ..................................................................................... - 98 -

5.1.2. Quiet zone options ............................................................................................. - 99 -

5.1.3. Auto trigger options ........................................................................................... - 99 -

5.1.4. Detection Mode ............................................................................................... - 100 -

5.1.5. Auto Trigger Condition ................................................................................... - 100 -

5.2. Read time options ................................................................................................... - 101 -

5.3. Redundancy ............................................................................................................ - 102 -

5.4. Positive and negative bar codes .............................................................................. - 102 -

5.5. Floodlight and aiming options ................................................................................ - 102 -

5.6. Prevention of icker ............................................................................................... - 103 -

5.7. LED aiming ............................................................................................................ - 104 -

6. INDICATOR OPTIONS ............................................................................................... - 105 -

6.1. Buzzer settings ....................................................................................................... - 105 -

6.2. Good read LED ...................................................................................................... - 107 -

7. MISCELLANEOUS ...................................................................................................... - 108 -

7.1. Diagnostics ............................................................................................................. - 108 -

APPENDIX A. TROUBLE SHOOTING .......................................................................... - 109 -

APPENDIX B. GLOSSARY OF TERMS ........................................................................ - 110 -

- - 5

INTRODUCTION

This menu book is intended for setting up your bar code reader to optimize its

performance for your particular application. When the required options have been

congured, they remain in the reader, even after power down. The reader can be

returned to factory default by reading the default label.

Menu labels

The reader must be set by reading the bar code labels in the menu table.

Besides options, some chapters have commands. The commands need to be scanned

directly, without reading the “SET” and “END” labels. The commands are executed

directly and, unlike options, are not stored in non-volatile memory.

Recommended steps to follow for quick conguration

After checking your connection you are ready to start the conguration of your

reader.

 Check connection:

Ensure that the power is disconnected from your equipment before you connect the

reader. After connecting the data cable, the power can be applied to the equipment

and the reader.

 1:

Use chapter 1 to set the correct default for your reader.

* The reader is now in factory default.

 2:

Use chapter 2 to optimize the interface.

* The reader is now able to read bar codes and transmit the data.

 3:

Use chapter 3 to optimize the reader for the type of bar codes you use. Set the

readable codes rst and then the options for each of these codes.

* The reader is now able to read the codes you selected, validate the data using length

and check digit and transmit that part of the data you specied.

 4:

Use chapter 4 to select the string options for your application. These include

transmission of code length, conversion of upper and lower case and setting a prex

and sux.

* The reader can now read and transmit the data in the required format.

- - 6

 5:

Use chapter 5 to select the read options to your preference. These options aect the

read mode, read time, trigger and redundancy.

 6:

Use chapter 6 to select the indicator options you prefer. These options aect the

operation of the buzzer and good read LED.

* The reader will now operate to your personal preference.

See gure 0.02.

- - 7

1. GENERAL OPTIONS

1.1. Restore to Factory Default Settings

This option allows you to undo all previously congured options and bring the

reader's conguration back to factory default settings. These factory default settings

are printed in bold.

Note that dierences may occur depending on the type of interface as will be

mentioned in the text.

Select only the correct default settings corresponding to your hardware "defaults"

label.

The interfaces supported depend on the reader model and software release. Please

consult your sales oce for not listed interfaces.

USB-HID

USB-VCP

- - 8

1.2. Switch User Interface and Reset to Default Settings

This option allows you to switch among multiple interfaces supported by

HC/HS/SA-Series 2D Image reader, including USB HID, and USB Virtual COM,

according to your needs. And, the current settings will be automatically reset to

factory default settings once the user interface is changed. To verify your

conguration, it is strongly suggested to reboot the POS terminal to achieve the

purpose.

If it still fails to change user interface, please be advised to scan the barcode again

after restarting your POS system.

USB-HID

USB-VCP

1.3. Check Firmware Version

This options allows you to retrieve the current rmware version.

Firmware Version

- - 9

1.4. Enhance Barcode Scanning on Screens

In addition to the printed barcodes, you may also aim the scanner at the desired

barcode on screens to scan and decode barcodes. This section lists three adjustable

options which are all designed to improve eiciency in scanning barcodes directly

from screens.

1.4.1 No illumination detection

With no illumination detection, a target code is detected without illumination light.

The power consumption can be reduced, but the response of detection will also be

reduced. Ambient light is used for detection in this mode, so this can not be used in a

dark place while it can be used in a lighted environment.

No illumination

detection

1.4.2 Prevention of icker

When there is no target to be read, icker occurs because of the LED illumination,

and this icker can be prevented with setting. However, it is normally suggested not

to enable LED illumination icker prevention, a feature which will make it dicult to

read barcodes on LCD screens once activated.

Enable LCD display

reading

1.4.3 Prevention of specular reection

Only when specular reection of LED illumination occurs, the reading is performed

with the illumination turned o, which will lead to degradation of reading

performance.

Prevent specular

reection

1.5. Congure Data Transmission Interval

This option allows you to specify the interval at which the scanned data will be

transferred. In other words, this will determine how fast you want the scanned data to

be transmitted.

- - 10

How to set data transmission interval:

Please follow the example below to scan the sequence of barcode labels to set the data

transmission interval to be 2 ms:

<bInterval=2>

Restart POS system to make sure your conguration is applied successfully.

bInterval = 1

bInterval = 2

bInterval = 4

bInterval = 8

- - 11

2. INTERFACE

This chapter describes the congurable transmission options for your reader. Some

options may not be relevant to the type of reader you have. An attempt to congure

the reader for such options does not aect its operation and usually results in the

reader producing an error tone, indicating you tried to make an illegal conguration

entry.

2.1. Keyboard wedge/USB options

This paragraph describes the options which are relevant to readers with a wedge or

USB interface. The following parameters can be congured:

 keyboard language

 special options

 intercharacter delay

Because these options are interdependent, it is important to perform the conguration

in the sequence given.

Please consult your sales oce for keyboard layouts and language currently

supported.

Keyboard wedge operation modes:

This mode enables or disables responses from PC wedge to the computer during

booting. In normal cases, the keyboard handles the responses to the computer. The PC

wedge is only listening in order to be aware of the keyboard state.

With keyboard:

Use this mode in case a keyboard is connected to the PC wedge Y-cable.

The wedge is only listening in case the computer is booting or when the wedge is idle.

- - 12

Without keyboard:

Use this mode in case no keyboard is connected to the PC wedge Y-cable. In some

cases this mode is required in case only a PC USB keyboard is connected. If this

option is enable, the computer can detect the wedge as a keyboard. In case the

computer reports a keyboard error or in case no data is displayed, try this option. It is

required to power OFF the PC, wait 10 seconds and power ON the PC again. Do not

enable this option in case a keyboard is connected to the Y-cable.

The wedge is responding to all commands from the computer.

The ‘without keyboard’ option is only supported for PC/AT wedges.

With keyboard

Without keyboard

2.1.1. Keyboard language

Keyboards are also dierent depending on country or language. Examples are the

QWERTY and AZERTY keyboards. Select the same language that has been selected

on your PC.

The languages supported depend on the reader model and software release. Please

consult your sales oce for the languages currently supported.

German

French

French Macintosh

Italian

Spanish

- - 13

Portuguese

Swiss ( French )

Swiss ( German )

Dutch

Belgian

Swedish

Finnish

Danish

Norwegian

Japanese

Czech

2.1.2. Special options

This section contains some specialized keyboard options.

Do not use numpad:

The reader wil emulate the numerical keys on the alpha keypad when transmitting

numerical data.

Use numpad:

The reader will emulate the numerical keypad when transmitting numerical data. The

NUMLOCK should always be ON when this option has been selected.

Auto NumLock mode:

When selecting this option, the bar code reader automatically uses the correct

NumLock state.

- - 14

No CAPSLOCK mode:

This options cancels the CAPSLOCK mode.

CAPSLOCK mode:

This option ensures that data is displayed correctly when the keyboard is normally in

CAPSLOCK mode. The keyboard is returned in the CAPSLOCK mode after

transmission.

Auto CAPSLOCK mode:

When selecting this option, the transmitted data is displayed correctly, disregarding

the CAPSLOCK state.

Do not use numpad

Use numpad

Auto numlock mode

No CAPSLOCK mode

CAPSLOCK mode

Auto CAPSLOCK mode

- - 15

2.1.3. Intercharacter delay for wedges/USB

The intercharacter delay can be used to adapt the reader's data transmission speed to

the system. If the transmission speed is too high, the system may not be able to

receive all characters. Adjust the intercharacter delay until the data is received

correctly. The default value as well as the actual delay time depend on the terminal

type and language selected.

No delay

Delay = 1

Delay = 2

Delay = 3

Delay = 4

Delay = 5

Delay = 6

Delay = 7

Delay = 8

Delay = 9

Delay = 10

- - 16

3. CODE OPTIONS

The menu options in this chapter are intended to adjust the decoding settings of the

reader:

 which bar code types can be read

 the permissible length of the bar codes to be read

 bar code specic options

Note:

This manual categorizes the barcodes as groups of dierent symbologies with their

translations and sometimes with relations to other family names. The next gure

visualizes how code translations and relations are maintained in this Code options

chapter. See gure 3.00.

- 17 -

3.1. Setting of readable codes

These options do not aect the reading of the menu labels. The required bar code

types can be selected by enabling a single readable code only and enabling readable

codes.

It is strongly recommended to select only the required codes.

Advantages of selecting only the required codes are:

 faster reading

 no accidental scanning of unwanted bar codes

 reduced probability of reading errors which cannot be prevented completely,

because of the limited security of some bar code types

Some bar codes are translations or special variants of other bar code types. The table

on the title page of this chapter visualizes these relations. The setting of dierent

codes is explained in the next chapter 3.1.1. Enabling a single read. code.

3.1.1. Disabling of readable codes

With this option you can set the reader to disable the specic symbology. If you select

'Disable Code 39', Code 39 will not be read.

- - 18

Disabling of readable codes

Disable UPC

Disable EAN

Disable Code 39

Disable Codabar

Disable Industrial 2of5

Disable Interleaved 2of5

Disable Chinese Post Matrix 2of 5

Disable Korean Postal

Authority code

Disable POSTNET

Disable IATA

Disable MSI/Plessey

Disable Telepen

Disable UK/Plessey

Disable Code 128

Disable Code 93

Disable Code 11

- - 19

Disable GS1-Databar

Disable GS1-Databar Limited

Disable GS1-Databar Expanded

Disable Codablock F

Disable DataMatrix ECC000 - 140

Disable DataMatrix ECC200

Disable Aztec

Disable Aztec runes

Disable Chinese Sensible code

Disable QR Code

Disable Micro QR Code

Disable Maxicode

3.1.2. Enabling of readable codes

With this option you can set the reader to read a number of bar code types or simply

enable additional bar code types.

- - 20

Enabling of readable codes

All codes excl. add-on

Enable UPC

Enable UPC + 2

Enable UPC + 5

Enable EAN

Enable EAN + 2

Enable EAN + 5

Enable Code 39

Enable Tri-Optic

Enable Codabar

Enable Industrial 2of5

Enable Interleaved 2of5

Enable S-Code

Enable Matrix 2of5

Enable Chinese Post Matrix

2of5

- - 21

Enable Korean Postal

Authority code

Enable Intelligent Mail

Barcode

Enable POSTNET

Enable IATA

Enable MSI/Plessey

Enable Telepen

Enable UK/Plessey

Enable Code 128

Enable Code 93

Enable Code 11

Enable GS1-Databar

Enable GS1-Databar Limited

Enable GS1-Databar

Expanded

Enable Codablock F

Enable DataMatrix ECC000 -

140

- - 22

Enable DataMatrix ECC200

Enable Aztec

Enable Aztec runes

Enable Chinese Sensible code

Enable QR Code

Enable Micro QR Code

Enable Maxicode

Enable PDF417

Enable MicroPDF417

Enable all 1D codes

Enable all 2D codes

3.2. Setting of number of characters

If you are going to read bar codes of known length, it is recommended to set the

reader for a xed number of characters. This can be done for up to two lengths. The

reader uses this to verify that labels read are of the correct length, rejecting any labels

which do not have the specied length. The advantage of setting a xed length, is that

it provides protection against short scans of labels, such as Interleaved 2of5, which do

not provide sucient security against partial scan. The length checking is done on the

label data and is not aected by options such as (not) transmit start/stop character or

check digit. Setting the number of characters does not aect xed length codes, such

as EAN-13. 2D symbologies such as PDF417 and Data Matrix are also not aected

- - 23

by xed length settings.

The following options are available:

Fixed length OFF all codes.

This option cancels the xed length checking.

Fixed length ON all codes.

This option enables the xed length checking. Two xed lengths are programmed

which will aect all variable length codes. This is done by reading the following

labels:

a bar code with the required length, a second bar code with the required length (this

may be the same length as the rst one)

It is possible to congure a xed length or a minimum and a maximum length for

selected symbologies by reading the respective option followed by a barcode label

with the required length. The dierent functions may be combined and will be used as

follows:

 if a label is checked for xed length, it will not be checked for minimum or

maximum length

 if a label is not checked for xed length it will be checked for both minimum and

maximum length

By reading an option followed by the 'END' label, the function is disabled or the

values for that option are reset to their default. The default values are:

 xed: disabled, thus no xed length checking

 minimum: according to the next gure (The minimum length of the 2of5 bar

code types can not be changed independent.)

 maximum: disabled, thus no maximum length checking. (The maximum length is

reader dependent)

- - 24

See gure 3.07.

Fixed length ON for selected codes:

This option enables xed length checking for dierent bar code types and will only

aects the bar code types read. The number of xed lengths which can be congured

is reader dependent.

Scan bar codes of the required type and length

Example:

The 2 examples shown in the next gure have the following results: In the rst

example only Code 39 labels will be checked for a length of 6 characters. Any other

bar code type will not be checked for xed length. In the second example Code 39

labels will be checked for a length of 6 characters and interleaved 2of5 labels for a

length of 12 characters. This implies that also Industrial 2of5, Matrix 2of5 and

S-Code are checked for a xed length of 12 characters. Any other bar code type will

not be checked for xed length.

Minimum length for selected codes:

This option modies the default minimum length table. The number of minimum

lengths which can be congured is reader dependent. This is done by reading the

following labels:

Scan bar codes of the required type and length

- - 25

Example:

The two examples shown in the next gure have the following result: In the rst

example only Code 39 labels will be checked for a minimum length of 2 characters.

All other bar code types will be checked for a minimum length as displayed in the

next gure.

In the second example Code 39 labels will be checked for a minimum length of 2

characters and interleaved 2of5 labels for a minimum length of 4 characters. This

implies that also Industrial 2of5, Matrix 2of5 and S-Code are checked for a minimum

length of 4 characters. All other bar code types will be checked for a minimum length.

Maximum length for selected codes:

This option enables the maximum length checking. The number of maximum lengths

which can be congured is reader dependent. This is done by reading the following

labels:

Scan bar codes of the required type and length

Example:

The two following examples shown in the next gure have the following result: In the

rst example only Code 39 labels will be checked for a maximum length of 12

characters. Any other bar code types will not be checked for a maximum length. In

the second example Code 39 labels will be checked for a maximum length of 12

characters and Interleaved 2of5 labels for a maximum length of 14 characters. This

implies that also Industrial 2of5, Matrix 2of5 and S-Code are checked for a maximum

length of 14 characters. Any other bar code types will not be checked for a maximum

length.

Serial programming:

To set a length using serial commands, the sequence is as follows:

<ESC>

<SPACE>*<CodeID>*

<CR>

*(if required by <command>)

**(length 2 may be the same length as length 1, when only one length is required)

- - 26

Example:

Setting xed length for all codes, lengths 8, 10 and 12:

 <ESC>H1081012<CR>

Setting minimum length for selected codes, for Code 39 with a length of 2:

 <ESC>HL V02<CR>

Setting maximum length for selected codes, for Code 39 with a length of 12 and

Interleaved 2of5 with length of 14:

 <ESC>HM V12 N14<CR>

Setting of number of characters

Fixed length OFF

all codes

Fixed length ON all codes

Fixed length ON for

selected codes

Minimum length for

selected codes

Maximum length for

selected codes

3.3. Setting code specic options

Code specic options may be congured aecting:

 enabling and disabling code variants and translations, such as EAN-128, as were

listed in the relations table for setting of readable codes

 data verication such as by means of a check digit calculation. A check digit has

a value that can be calculated from the other data characters and is usually the

last data character in a bar code

 pre-editing of the data string such as removing the check-digit and/or start/stop

characters

- 27 -

The more common options are described here:

Check CD:

This option enables the check digit calculation. If the calculated check digit does not

correspond to the check digit in the bar code, then the bar code is ignored. The use of

a check digit greatly improves the security of a bar code.

Not check CD:

This option disables the check digit calculation. This option is required when the bar

codes do not contain a check digit or contain an invalid check digit.

Transmit CD:

This option enables the transmission of the check digit together with the data

characters. If the check digit calculation is disabled, the reader can not dierentiate

anymore between a (valid) check digit and a data character. It will therefore transmit

all data characters of the label, including what could constitute a check digit.

Not transmit CD:

This option disables the transmission of the check digit. If the check digit calculation

is disabled, the reader can not dierentiate between a (valid) check digit and a data

character. It will therefore transmit all data characters of the label, excluding the

character that could constitute the check digit for the type of bar code.

Transmit ST/SP:

This option enables the transmission of the start and stop characters of a bar code.

Not transmit ST/SP:

This option disables the transmission of the start and stop characters of a bar code.

The next gure summarizes the eect of the transmit options for a Code 39 label

with:

 start and stop characters '*'

 data characters '1 2 3 4 5 6'

 or data characters '1 2 3 4 5' and check digit '6'

Note that because '6' is, according to the Code 39 specications, not a valid check

digit for this label. The check digit calculation must therefore be disabled in order for

the label to be accepted.

See gure 3.11.

- - 28

3.3.1. Options for UPC-A

The UPC-A symbology is a xed length symbology encoding 11 data digits, a check

digit and non-printable start/stop characters. The following characters are supported:

 the digits 0 up to 9

An optional leading zero can be transmitted, which together with the data and the

check digit forms a 13 digit eld providing compatibility with the EAN-13 format.

For string format see gure 3.12.

UPC-A add-on 2/add-on 5:

The UPC-A symbology as described above can be succeeded by an additional 2 or 5

digit UPCA code. For string format see gure 3.13.

Options for UPC- A:

 disable transmission of the leading zero

 disable transmission of the check digit

UPC-A, No leading

zero, transmit CD

UPC-A, No leading zero,

not transmit CD

- - 29

UPC-A, Leading

zero, transmit CD

UPC-A, Leading zero, not

transmit CD

3.3.2. Options for UPC-E

The UPC-E symbology is a xed length symbology encoding 6 data digits, a check

digit and non printable start/stop characters. The following characters are supported:

 the digits 0 upto 9

An optional leading digit can be transmitted, which together with the data and the

check digit forms an 8 digit eld providing a compatibility with the EAN-8 format.

For string format see gure 3.14.

UPC-E add-on 2/add-on 5:

The UPC-E symbology as described above can be succeeded by an additional 2 or 5

digit UPCE code. For string format see gure 3.15.

UPC-E0 stands for UPC version E0 and the rst digit is always a '0'. UPC-E1 stand

for UPC version E1 and the rst digit is a '1'. Options for UPC-E0 aects UPC-E1 too.

Support for UPCE1 is reader dependent.

Options for UPC- E:

 enable transmission of the leading digit

 disable transmission of the check digit

 transmit UPC-E as UPC-A

Transmit UPC-E as UPC- A:

If this option is enabled, a UPC-E label is transmitted in the UPC-A format.

- - 30

Options for UPC-E

UPC-E, No leading

digit, transmit CD

UPC-E, No leading digit, not transmit

UPC-E, Leading digit,

transmit CD

UPC-E, Leading digit, not transmit

Transmit UPC-E as is

Transmit UPC-E as UPCA

3.3.3. Options for EAN-13 and EAN-8

EAN-13:

The EAN-13 symbology is a fixed length symbology encoding 12 data digits, a check

digit and non-printable start/stop characters. The following characters are supported:

 the digits 0 upto 9

The data may be translated into ISBN, ISSN or ISMN format. For string format see

figure 3.16.

EAN-13 add-on 2/add-on 5:

The EAN-13 symbology as described above can be succeeded by an additional 2 or 5

digitcode. For string format see figure 3.17.

- - 31

EAN-8:

The EAN-8 symbology is a fixed length symbology encoding 7 data digits, a check

digit and non-printable start/stop characters. The following characters are supported:

 the digits 0 upto 9

For string format see figure 3.18.

EAN-8 add-on 2/add-on 5:

The EAN-8 symbology as described above can be succeeded by an additional 2 or 5

digit code. For string format see figure 3.19.

Options for EAN:

 disable transmission of the check digit

 enable ISBN, ISSN or ISMN translation

Enable ISBN, ISSN or ISMN translation:

If this option is enabled, an EAN-13 label is verified for the correct format and

transmitted as a 10-digit ISBN number, 8 digit ISSN number. In case of ISMN, the

character M is transmitted followed by 9 digits. Support for these translations is

reader dependent.

- - 32

Options for EAN-13 and EAN-8

EAN-13 not transmit CD

EAN-13 transmit CD

EAN-8 not transmit CD

EAN-8 transmit CD

Disable ISBN translation

Enable ISBN translation

Enable ISBN if possible

Disable ISSN translation

Enable ISSN translation

Enable ISSN if possible

Disable ISMN translation

Enable ISMN translation

Enable ISMN if possible

- - 33

3.3.4. Options for Code 39 and It. Pharm.

Code 39:

Code 39 is a variable length symbology with an optional check digit and printable

start/stop characters. The following characters are supported:

 the digits 0 up to 9

 the upper case characters A up to Z

 the characters - . $ / + % SPACE

 start/stop character is *

The checksum is calculated as the sum modulo 43 of the numerical value of the data

characters. In full ASCII mode, all 128 ASCII characters are supported. This is done

by combining one of the characters +, %, $ or / with one of the alpha characters (A

upto Z). For string format see figure 3.20.

Italian Pharmaceutical:

In this mode the Code 39 data is translated to the Italian pharmaceutical format. This

format has a fixed length containing 8 numeric data values followed by a single

mandatory check digit. An optional leading 'A' can be transmitted. For string format

see figure 3.21.

Options for Code 39:

 enable full ASCII conversion

 enable Italian Pharmaceutical conversion

 enable check digit

 disable transmission of the check digit

 enable transmission of start/stop

 enable leading A for Italian Pharmaceutical

 selection of the minimum number of data characters

- - 34

Normal Code 39:

In this mode the decoded data characters are transmitted without further translation.

Full ASCII Code 39:

In this mode the decoded data characters are translated to full ASCII Code 39.

Full ASCII Code 39 if possible:

In this mode the decoded data characters are translated to full ASCII Code 39. Invalid

combinations are not translated and are transmitted as is.

Italian Pharmaceutical only:

In this mode the decoded data characters are translated to the Italian Pharmaceutical

format. If the data does not comply with the Italian Pharmaceutical format, the label is

rejected.

Italian Pharmaceutical if possible:

In this mode the decoded data characters are translated to the Italian Pharmaceutical

format. If the data does not comply with the Italian Pharmaceutical format, then the

data is transmitted as Normal or full ASCII Code 39.

Tri-Optic:

This fixed length symbology builds its data out of two data triplets, where the second

triplet is encoded at first. The following characters are supported:

 the digits 0 up to 9

 the upper case characters A up to Z

 the characters - . / + % SPACE

 start/stop character is $

For string format see figure 3.22.

There are no options for Tri-Optic supported.

Concatenation:

If a Code 39 bar code contains a leading space, the data is stored into the reader's

buffer without the leading space. As soon as a Code 39 bar code is read without a

leading space, the data is appended to the reader's buffer and the entire buffer is

transmitted and cleared for new data. In case a non Code 39 bar code is read, the data

in the non-Code 39 bar code is transmitted and the buffer is cleared. The buffer size is

reader dependent.

- - 35

Options for Code 39 and It.Pharm.

Normal Code 39

Full ASCII Code 39

Full ASCII Code 39 if possible

It. Pharmaceutical only

It. Pharmaceutical if possible

Not check CD

Check CD

Not transmit CD

Transmit CD

Not transmit ST/SP

Transmit ST/SP

Not transm. ld. A for It.

Pharm.Code

Transmit leading A for It.

Pharm.Code

Minimum 3 digits

Minimum 1 digit

Disable concatenation

- - 36

Enable concatenation

3.3.5. Options for Codabar

Codabar (NW7):

Codabar (NW7) is a variable length symbology with an optional check digit and

printable start/stop characters. The next characters are supported:

 the digits 0 upto 9

 the characters - $: / . +

 start/stop characters are A, B, C or D

The checksum is calculated as the sum modulo 16 of the numerical values of all data

characters. For string format see figure 3.23.

ABC-Code:

The ABC code is an acronym for American Blood Commission. This code consists of

two bar codes which are decoded in one read cycle. The code is concatenated when

the stop character of the first bar code and the start character of the second bar code is

a D. These two D's are not transmitted. For string format see figure 3.24.

CX-Code:

The CX-Code consists of two bar codes which are decoded in one read cycle. The

code is concatenated when the stop character of the first bar code is a C, and the start

character of the second bar code is a B. The B and C characters are not transmitted.

- 37 -

For string format see figure 3.25.

Options for Codabar:

 enable ABC code concatenation

 enable CX code concatenation

 enable check digit check

 disable transmission of the check digit

 disable transmission of start/stop

 selection of start/stop character translation

 selection of minimum number of data characters

 enable library space (CLSI) insertion

Space insertion:

This option inserts spaces in position 2, 7, 13, of the data string for use in library

systems.

ST/SP translation:

This option enables the translation and transmission of the start and stop characters.

Thus if the option ST/SP: abcd/tn*e is chosen, the start character is converted to lower

case, e.g. from A, B, C or D to a, b, c, or d respectively and the stop character is

converted from A, B, C or D to t, n, *, or e respectively. The next figure shows the

resulting format for these options with a Codabar label using A and B as start and stop

characters and 1 2 3 4 5 6 as data characters. For string format see figure 3.26.

- - 38

Minimum data characters:

Codabar labels are checked for a minimum of 1, 3 or 5 characters are set by the user.

If the number of characters in the label is shorter than the number set, the label will be

rejected. If the xed length option is used for Codabar type labels then such labels

will additionally be checked for xed length.

Inter character gap check:

This option enables the reading of Codabar labels with a large or irregular gap

between characters. Checking the gap means that it is not allowed to have a gap.

Disable the gap check allows gaps in the bar code.

Options for Codabar

Enable only Codabar normal

mode

Enable only ABC code

Enable only CX code

Enable Codabar, ABC and CX

Not check CD

Check CD

Not transmit CD

Transmit CD

Disable space insertion

Enable space insertion

Not transmit ST/SP

- - 39

ST/SP: ABCD/ABCD

ST/SP: abcd/abcd

ST/SP: ABCD/TN*E

ST/SP: abcd/tn*e

ST/SP:

<DC1><DC2><DC3><DC4>/

Minimum data one character

Minimum data three

characters

Minimum data five characters

Disable intercharactergap

check

Enable intercharactergap

check

3.3.6. Options for 2of5 and S-Code

Code 2of5:

Code 2of5 is a variable length symbology with an optional check digit and

non-printable start and stop characters. The following characters are supported:

 the digits 0 upto 9

The checksum is calculated as the sum modulo 10 of the numerical values of all the

data characters.

Industrial 2of5:

This symbology encodes a single digit in each data symbol. Information is carried in

the bars only.

- - 40

Interleaved 2of5:

This symbology encodes a pair of digits in each symbol, the number of digits are

therefore always an even number. Information is carried in the bars and spaces. The

start and stop pattern is not unique inside the code. It is therefore essential to use the

fixed length option to prevent partial reads.

S-Code:

This symbology encodes like Interleaved 2of5 but encodes the last data character as

Industrial 2of5. The number of data digits is therefore always an odd number.

Information is carried in the bars and the spaces. The start and stop pattern is not

unique inside the code. It is therefore essential to use the fixed length option to

prevent partial reads.

Matrix 2of5:

This symbology encodes 1 digit in each character, the number of digits can therefore

be an odd or an even number. Information is carried in the bars and spaces.

Chines Post Matrix 2of5:

This symbology is a variant of Matrix 2of5. To assure proper reads, check the options

and setting for (Matrix) 2of5. For string format of the supported symbologies see

figure 3.27.

Options for code 2of5:

 disable transmission of the check digit

 enable check digit check

 selection of the minimum number of data characters

 disable space check for industrial 2of5

 transmit S-Code as Interleaved 2of5

Minimum data characters:

Code 2of5 are checked for a minimum of 1, 3 or 5 characters as set by the user. If the

number of characters in the label is less than the number set, the label will be rejected.

If the fixed length option is used for a Code 2of5 type label, than such label will

additionally be checked for fixed length.

- - 41

Space check:

This option enables the reading of Industrial 2of5 labels with a large or irregular

spacing.

Transmit S-Code as Interleaved 2of5:

This option enables to transmit S-Code as Interleaved 2of5 by adding a leading zero.

Not transmit CD

Transmit CD

Not check CD

Check CD

Minimum data one

character

Minimum data three

character

Minimum data five

character

Disable space check for

Industrial 2of 5

Enable space check

for Industrial 2of 5

Not transmit S-Code as

Interleaved 2 of 5

Transmit S-Code as

Interleaved 2 of 5

- - 42

3.3.7. Options for IATA

The IATA code is a variable length symbology with an optional check digit and

non-printable start/stop characters. The following characters are supported:

 the digits 0 upto 9

The checksum is calculated as the modulo seven of the data string. IATA is acronym

for International Air Transport Association. For string format see figure 3.28.

Not check CD

Check FC and SN only

Check CPN, FC and

Check CPN, AC, FC and

Not transmit CD

Transmit CD

3.3.8. Options for MSI/Plessey

MSI Plessey is a variable length symbology with one or two optional check digit

calculations CD1 and CD2 and non-printable start/stop characters. The following

characters are supported:

 the digits 0 up to 9

The checksum is calculated as the sum modulo 10 or 11 of the data characters. The

checksum CD2 is calculated as the sum modulo 10 or 11 of the data characters and

CD1. For string format see figure 3.29.

- - 43

Options for MSI/Plessey:

 disable check digit check

 selection of the check digit calculation

 selection of the number of check digits to be transmitted

Check digit:

If the check digit calculation is required, then the appropriate calculation method must

be selected.

Not transmit CD:

The character positions CD1 and CD2 are not transmitted.

Transmit CD1:

The character position CD2 is not transmitted.

Transmit CD1 and CD2:

All characters in the label are transmitted.

Not check CD

Check 1 CD = MOD 10

Check 2 CD's =

MOD 10/MOD 10

Check 2 CD's = MOD

10/MOD 11

Check 2 CD's =

MOD 11/MOD 10

Not transmit CD

- - 44

Transmit CD1

Transmit CD1 and CD2

3.3.9. Options for Telepen

Telepen is a variable length symbology with a check digit and non printable start/stop

characters. The following characters are supported:

 in numeric mode, the digits 00 upto 99

 in full ASCII mode, all 128 ASCII characters

The check digit calculation is derived from the sum of all data characters modulo 127.

The check digit cannot be transmitted. For string format see figure 3.30.

Options for Telepen:

 selection of ASCII mode

Numeric mode

ASCII mode

- - 45

3.3.10. Options for UK/Plessey

UK Plessey is a variable length symbology with a mandatory checksum and non

printable start/stop characters. The following characters are supported:

 the digits 0 upto 9

 the characters A upto F

The checksum contains 2 digits and is calculated from the numerical values of all the

data digits. For string format see gure 3.31.

Space insertion:

This option inserts spaces in position 2, 5, 11, 14 of the data string for use in library

systems.

A to X conversion:

This option converts the character 'A' into an 'X'. The data and check digits are

aected.

Not transmit CD's

Transmit CD's

Disable space

insertion

Enable space insertion

Disable A to X

conversion

Enable A to X conversion

3.3.11. Options for Code 128 and GS1-128

Code 128:

Code 128 is a variable length symbology with a mandatory check digit and

non-printable start/stop characters. The following characters are supported:

- - 46

 all 128 ASCII characters

 4 non data function characters

 3 start characters

 4 code set selection characters

 1 stop character

The check digit is calculated as the sum modulo 103 of the start character and the

weighted values of the data and special characters. For string format see gure 3.32.

Options for Code 128:

 enable concatenation

GS1-128:

In this mode the Code128 data is translated to the GS1-128 format, formerly known

as EAN-128 or UCC-128. GS1-128 data starts with the FNC1 character and separates

2 data elds with the FNC1 character.

The rst FNC1 character is translated to ]C1, and the second FNC1 character is

translated to an ASCII GS (hex 1D) character. For string format see gure 3.33.

Options for GS1-128:

 enable GS1-128 conversion

Enable GS1-128 only:

In this mode the decoded data characters are translated to the GS1-128 format. If the

data does not comply with the GS1-128 format, then the label is rejected.

Enable GS1-128 if possible:

In this mode the decoded data characters are translated to the GS1-128 format. If the

data does not comply with the GS1-128 format, then the label is transmitted as Code

128.

- 47 -

Disable GS1-128

Enable GS1-128 only

Enable GS1-128 if

possible

Disable concatenation

Enable concatenation

3.3.12. Options for Code 93

Code 93 is a variable length symbology with 2 mandatory check digits and non

printable start/stop characters. The following characters are supported:

 the digits 0 upto 9

 the upper case characters A upto Z

 the characters - . $ / + % SPACE

 4 non printable shift characters

The first check digit (C) is the modulo 47 sum of the weighted data character values.

The second check digit (K) is the modulo 47 sum of the weighted data character

values including the first check digit (C). The check digits are not transmitted.

The special shift characters are control characters and are not transmitted with the

data. If one of these characters is followed by an upper case character 'A' upto 'Z', it is

transmitted as 1 single character. In case of an invalid combination, the label is

rejected. This method enables support for full 128 ASCII characters encodation. The

encodation is compatible with the Code 39 $, %, / and + characters. For string format

see figure 3.34.

Options for Code 93:

 enable concatenation

 transmission of check digits

- - 48

 calculation of check digits

Concatenation:

If a Code 93 bar code contains a leading space, the data is stored into the reader's

buffer without the leading space. As soon as a Code 93 bar code is read without a

leading space, the data is appended to the reader's buffer and the entire buffer is

transmitted and cleared for new data. In case a non Code 93 bar code is read, the data

in the non-Code 93 bar code is transmitted and the buffer is cleared. The buffer size is

reader dependent. Support for this option is reader dependent.

Not check CD

Check CD

Disable

concatenation

Enable concatenation

3.3.13. Options for Code 11

Code 11 is a variable length symbology with 1 or 2 optional check digits and non

printable start/stop characters. If the data is 10 or less characters, one check digit is

used. If the data is more then 10 characters, then 2 check digits are used. The

following characters are supported:

 the digits 0 upto 9

 the dash character '-'

The first check digit is the modulo 11 sum of the weighted data character values. The

second check digit is the modulo 11 sum of the weighted data character values

including the first check digit. The check digits are not transmitted. For string format

see figure 3.35.

- - 49

Options for Code 11:

 disable check digit(s)

 automatic checking for 1 or 2 check digitsdepending of the number of data

characters

 enable transmission of check digit(s)

Not check CD

Check 1 CD

Check 2 CDs

Check auto 1 or 2 CDs

Not transmit

CD(s)

Transmit CD(s)

3.3.14. Options for Korean Postal Authority code

Korean Postal Authority code is a xed length numeric symbology with a mandatory

check digit. The check digit is not transmitted.

For string format see gure 3.36.

Options for Korean Postal Authority code:

 transmit dash

 not transmit dash

 transmit CD

 not transmit CD

Transmit dash:

The dash character '-' (hex 2D) is printed between the 3rd and 4th digit

- - 50

Not transmit CD

Transmit CD

Not transmit dash

Transmit dash

3.3.15. Options for Intelligent Mail Barcode

Intelligent Mail Barcode is a symbology in four dierent states. It is formerly known

as OneCode and is a variant of the 4-State Customer Barcode. The symbology is a

height modulated and has a number of xed length s.

For string format see gure 3.37.

Fixed data capacity:

 Numeric data: 20, 25 , 29 or 31 characters

Fixed data format and size:

The data is built of several identiers which follow each other in xed order. Sizes

are a predetermined amount of digits.

 Barcode identier: 2

 Service type identier: 3

 Mailer ID and Sequence number: maybe 6+9 digits or 9+6, always totalized to

 Delivery point zip code: may be omitted (0), standard zip (5), zip+4 (9), zip+4

incl. delivery point digits (11)

- - 51

Checksum:

An 11-bit CRC Frame Check Sequence is always calculated and is not transmitted.

Encodable characters:

 digits 0 up to 9

3.3.16. Options for POSTNET

POSTNET (Postal Numeric Encoding Technique) is a height modulated symbology

with a number of xed lengths.

For string format see gure 3.38.

Fixed data capacity:

 Numeric data: 5 / 6 / 9 / 11 characters

 Additional data: 1 check digit

Checkdigit:

The start and stop pattern consist of a xed single frame bar which is not unique

inside the code. It is not transmitted. The check digit is calculated and transmitted

with the barcode data.

Encodable characters:

 digits 0 up to 9

3.3.17. Options for GS1 Databar

GS1 Databar is formerly known as RSS family including the RSS-14 group. Support

for GS1 Databar options is reader dependent.

Maximum data capacity:

 GS1 Databar and GS1 Databar Limited: Application Identier "01" and 14

digits.

 GS1 Databar Expanded: 74 numeric or 41 alpha characters

Checksums:

The GS1 Databar family uses a mandatory checksum.

 GS1 Databar uses a modulo 79 checksum,

 GS1 Databar Limited uses a modulo 89 checksum

- 52 -

 GS1 Databar Expanded uses a modulo 211 checksum.

The checksum is always calculated and is not transmitted.

Encodable characters:

 GS1 Databar and GS1 Databar Limited: digits 0 up to 9

 GS1 Databar Expanded: subset of ISO 646: upper, lower case characters, digits,

20 punctuation characters and function character FNC1

The next GS1 Databar versions are supported

 Omnidirectional/Truncated/Stacked(refer to GS1 Databar)

 Limited (refer to GS1 Databar Limited)

 Expanded, Expanded stacked(refer to GS1 Databar Expanded)

For string format see gure 3.39 or 3.40.

Options for GS1 Databar:

 transmission of CD

 transmission of Application Identier

Not transmit CD:

Do not transmit the last character of GS1 Databar.

Not transmit CD

Transmit CD

Not transmit Application

Identier

Transmit Application

Identier

- - 53

3.3.18. Options for Composite Codes

CC-A is a modied MicroPDF417 version.

CC-B is standard MicroPDF417.

CC-C is standard PDF417.

Maximum data capacity:

 CC-A: 56 characters

 CC-B: 338 characters

 CC-C: 2361 characters

Symbol size:

 1D part: see RSS and EAN codes

 Composite part: CC-A and CC-B same as MicroPDF417, CC-C same as PDF417

Error correction:

 1D part: only error detection

 Composite part: Reed Solomon error correction

Encodable characters:

 ASCII values 0 - 127 ( ISO 646 )

 ASCII values 128 - 255 ( ISO 8859-1, Latin alphabet No. 1, extended ASCII )

 with ECI: many other character sets

For string format of composite codes see gure 3.41 or 3.42 or 3.43.

Options for Composite codes:

 enable composite code

 ignore link ag

 output mode

- - 54

For string format of composite codes see gure 3.44.

Not ignore composite

link ag

Ignore composite link ag

Disable Composite on

GS1-Databar

Enable Composite on

GS1-Databar

As a single component,

only 1D component is

allowed

As a single component,

only 2D component is

allowed

As a single component,

only 1D+2D component

is allowed

- - 55

3.3.19. Options for Codablock F

Codablock-F is variable size multi row (stacked) symbology based on Code 128. All

features of Code 128 do apply for Codablock F.

Maximum data capacity:

 text compaction = alphanumeric data: 2684characters

 numeric compaction = numeric data: 5368 Characters

Symbol size:

 number of rows: 2 up to 44

 number of columns: 1 up to 61

Error detection:

Codablock has 1 additional character for the entire symbol.

Codablock calculates 1 check digit that is not transmitted.

Encodable characters:

 ASCII values 0 - 127 ( ISO 646 )

 4 FNC values

For string format see gure 3.45.

3.3.20. Options for DataMatrix

Data Matrix is a variable size matrix symbology with selectable error correction

levels.

Maximum data capacity (ECC200):

 alphanumeric data: 2335 characters

 8-bit data: 1556 characters

 numeric data: 3116 characters

Symbol size:

ECC000 - 140:

 odd number of rows and columns, square shape.

 minimum: 9 * 9 modules, maximum: 49 * 49 modules

- - 56

ECC200:

 even number of rows and columns, square or rectangular shape

 square: minimum 10 * 10, maximum 144 * 144 modules

 rectangular: minimum 8 * 18, maximum 16 * 48 modules

Error correction:

 ECC000 - 140: four levels of convolutional error correction, option for error

detection only

 ECC200: Reed-Solomon error correction

For new applications ECC200 is recommended.

Additional features:

 extended Channel Interpretation (ECI, ECC200 only): support for dierent

character sets and data interpretations

 structured append (ECC200 only): represent data in up to 16 Data Matrix

symbols

Support for these options is reader dependent. The supported character set and the

maximum decodable number of characters are reader dependent.

Encodable characters:

 ASCII values 0 - 127 (ISO 646 )

 ASCII values 128 - 255 (ISO 8859-1, Latin alphabet No. 1, extended ASCII )

 with ECI: many other character sets

For string format see gure 3.46.

Options for DataMatrix:

 Structured append time out: see chapter Read options

- 57 -

3.3.21. Options for Aztec

Aztec code is a variable size matrix symbology with selectable error correction levels.

Maximum data capacity:

Standard Aztec:

 alphanumeric: 3067 characters

 numeric: 3832 characters

 byte: 1914 characters Aztec runes:

 values 000 up to 255 ( 3 digits )

Symbol size:

Standard Aztec:

 minimum: 15 * 15 modules

 maximum: 151 * 151 modules

Aztec runes:

 xed: 11 * 11 modules

Error correction:

User selectable Reed-Solomon error correction levels from 5% to 95% of data region.

Additional features:

 extended Channel Interpretation (ECI): support for dierent character sets and

data interpretations

 structured append: represent data in up to 26 Aztec symbols

 mirror image: decode symbol in mirror reversal presentation

Support for these options is reader dependent. The supported character set and the

maximum decodable number of characters are reader dependent.

Encodable characters:

 ASCII values 0 - 127 ( ISO 646 )

 ASCII values 128 - 255 ( ISO 8859-1, Latin alphabet No. 1, extended ASCII )

 with ECI: many other character sets

For string format see gure 3.47.

- - 58

Options for Aztec:

 structured append time out: see chapter Read options

3.3.22. Options for Chinese Sensible code

Chinese Sensible code is a matrix symbology with selectable error correction levels.

The code allows 84 variable sized versions.

Pattern:

Each code is a square area comprised of a variable amount of nxn square symbols. A

crossing alignment pattern is available in version 4 and its sequential versions. Al

versions include four position detection patterns located on each corner.

Maximum data capacity:

The data capacity depends on the version.

 version 1: 205 characters

 sequential versions: increasing amount per version

 version 84: 31091 characters

Symbol size:

Chinese Sensible code has 84 versions, counting from version 1. Each following

version has 2 more modules.

 minimum: version 1 = 23 * 23 modules

 sequentially: version 2 = 25 * 25, version 3 = 27 * 27, etc.

 maximum: version 84 = 189 * 189 modules

Error correction:

Four levels of Reed-Solomon error correction.

Additional feature:

Extended Channel Interpretation (ECI): support for Chinese character set, other

dierent character sets and data interpretations. Support for this option is reader

dependent. The supported character set and the maximum decodable number of

characteristics is reader dependent.

Encodable characters:

 numerical values 0-9

 ASCII value 0 - 127 ( ISO 646 )

 binary byte

 ordinary Chinese characters ( GB 18030 2 Region, Double-byte, Four-byte ) –

 with ECI: many other character sets

- - 59

For string format see gure 3.48.

3.3.23. Options for QR Code

QR code is a variable size matrix symbology with selectable error correction levels.

Maximum data capacity:

Model 1:

 alphanumeric data: 707 characters

 8-bit data: 486 characters

 numeric data: 1167 characters

 kanji data: 299 characters

Model 2:

 alphanumeric data: 4296 characters

 8-bit data: 2953 characters

 numeric data: 7089 characters

 kanji data: 1817 characters

Symbol size:

Model 1:

 minimum: 21 * 21 modules

 maximum: 73 * 73 modules

Model 2:

 minimum: 21 * 21 modules

 maximum: 177 * 177 modules

Error correction:

Four levels of Reed-Solomon error correction.

Additional features:

 extended Channel Interpretation (ECI, model 2 only): support for dierent

character sets and data interpretations.

 structured append: represent data in up to 16 QR Code symbols.

- - 60

Support for these options is reader dependent. The supported character set and the

maximum decodable number of characters are reader dependent.

Encodable characters:

 ASCII values 0 - 127 ( ISO 646 )

 ASCII values 128 - 255 ( ISO 8859-1, Latin alphabet No. 1, extended ASCII )

 with ECI: many other character sets

For string format see gure 3.49.

Options for QR code:

 structured append time out: see read mode options

 no further options supported

3.3.24. Options for Micro QR Code

Micro QR code is a compact version for the regular QR Code.

Maximum data capacity:

Model 1:

 numeric data: 5 characters

Model 2:

 alphanumeric data: 6 characters

 numeric data: 10 characters

Model 3:

 alphanumeric data: 11 characters

 8-bit data: 9 characters

 numeric data: 18 characters

 kanji data: 6 characters

Model 4:

 alphanumeric data: 21 characte rs

 8-bit data: 15 characters

 numeric data: 35 characters

 kanji data: 9 characters

- - 61

Symbol size:

Model 1:

 11 modules

Model 2:

 13 modules

Model 3:

 15 modules

Model 4:

 17 modules

Error correction:

Up to three levels of Reed-Solomon error correction for Model 4, no error correction

for Model 1.

Encodable characters:

 ASCII values 0 - 127 (ISO 646)

For string format see gure 3.50.

Options Micro QR Code

 no options supported

3.3.25. Options for Maxicode

Maxicode is a xed size matrix symbology with selectable error correction levels.

Maximum data capacity:

 alphanumeric data: 93 characters

 numeric data: 138 characters

Symbol size:

28.14mm wide * 26.91mm high (including quiet zones)

Error correction:

2 levels of Reed-Solomon error correction.

- 62 -

Additional features:

 extended Channel Interpretation (ECI): support for dierent character sets and

data interpretations

 structured append: represent data in up to 8 Maxicode symbols

Support for these options is reader dependent. The supported character set and the

maximum decodable number of characters, is reader dependent.

Encodable characters:

 ASCII values 0 - 127 (ISO 646)

 ASCII values 128 - 255 (ISO 8859-1, Latin alphabet No. 1, extended ASCII)

 with ECI: many other character sets

For string format see gure 3.51.

Options for Maxicode:

 structured append time out: see read mode options

 no further options supported

3.3.26. Options for PDF417

PDF417 is variable size multi row (stacked) symbology with selectable error

correction levels.

Maximum data capacity:

 text compaction: 1850 characters

 byte compaction: 1108 characters

 numeric compaction: 2710 characters

Symbol size:

 number of row: 3 up to 90

 number of columns: 1 up to 30

Error correction:

8 levels of error correction. Option for error detection only.

- - 63

Additional features:

 extended Channel Interpretation (ECI): support for dierent character sets and

data interpretations

 macro PDF417: represent data in up to 99.999 PDF417 symbols

 truncated PDF417: reduce some overhead to obtain smaller symbology size

Support for these options is reader dependent. The supported character set and the

maximum decodable number of characters, is reader dependent

Encodable characters:

 ASCII values 0 - 127 ( ISO 646 )

 ASCII values 128 - 255 ( ISO 8859-1, Latin alphabet No. 1, extended ASCII )

 for macro PDF417: many other character sets

For string format see gure 3.52

Options for PDF417:

 macro PDF417 timeout ( same as Structured append time out ): see read mode

options

 no further options available

3.3.27. Options for MicroPDF417

MicroPDF417 is variable size multi row (stacked) symbology with xed error

correction levels.

Maximum data capacity:

 text compaction: 250 characters

 byte compaction: 150 characters

 numeric compaction:366 characters

Symbol size:

 number of row: 4 up to 44

 number of columns: 1 up to 4

Error correction:

Number of error correction codewords is dependent of symbol size and cannot be

changed.

- - 64

Additional features:

 extended Channel Interpretation (ECI): support for dierent character sets and

data interpretations

 macro MicroPDF417 ( structured append mode ): represent data in up to 99.999

MicroPDF417 symbols

Support for these options is reader dependent. The supported character set and the

maximum decodable number of characters are reader dependent

Encodable characters:

 ASCII values 0 - 127 (ISO 646)

 ASCII values 128 - 255 (ISO 8859-1, Latin alphabet No. 1, extended ASCII)

 for macro MicroPDF417: many other character sets

For string format see gure 3.53.

Options for MicroPDF417:

 macro MicroPDF417 timeout ( same as Structured append time out ): see read

mode options

 no further options available

- - 65

4. STRING OPTIONS

This chapter describes the alterations which can be made to the format of the

transmitted data string.

Options available are:

Case conversion

 conversion of bar code data

The bar code data has the format as described in chapter ‘Code Options’.

Set prex and sux

 transmission of a preamble (common prex)

 transmission of a postamble (common sux)

 transmission of a prex

 transmission of a sux

The string format is transmitted as in gure 4.01.

The input entries are described in this chapter.

4.1. Case conversion

The bar code data may be converted to

either lower or upper case or the case may

be exchanged. These options may be used

if the user of a wedge has a preference to

leave for instance the CAPSLOCK on or

if the host requires upper case characters

only. See gure 4.02.

- - 66

No case conversion

Convert to upper case

Convert to lower case

Exchange case

4.2. Set prex and sux

Please be informed that the options listed below are oered to help you set the

single-character prex or sux. If there is a need to add multiple characters as prex

or sux or congure prex or sux code for certain symboloby, please feel free to

A prex and sux of maximum 4 direct input entries each may be included in front

and at the end of the string respectively.

Default settings are:

• Wedge: Prefix –- None, Sux return

How to set a prex or a sux

How to set a sux for all symbologies:

To congure for example the sux <CR> for all symbologies scan the following

labels:

<^M (CR)>

- 67 -

Code identication Opticon:

A code identication and the code length may be included as a prex or sux. The

direct input 'code identier' provides a quick method of programming in addition to

programming a separate prex or sux for each bar code type.

See gure 4.04.

Code identication AIM/ISO:

The Code identier will be transmitted in the ISO 15424 format : ]cm, where:

 ] is ASCII value decimal 93

 c is code character

 m is modier character(s)

For a detailed list of the modier character 'm' and the AIM-ID’s, refer to the

ISO15424 standard. See gure 4.05.

- - 68

In case the modier is an asterix (*), the value depends on the options of the

symbology or on the congured Code options. For details refer to their own

respective modier tables. See gures 4.06 up to 4.17.

- - 69

- 70 -

- 71 -

- 72 -

- - 73

4.2.1. Set prex

4.2.1.1. Direct input keyboard keys

F10

F11

F12

Backspace

TAB

- 74 -

RETURN

Enter ( Numeric keypad )

ESC

Arrow down

Arrow up

Arrow right

Arrow left

<DEL>

<HOME>

<END>

Page up

Page down

Left <Shift>

Left <Ctrl>

- - 75

Left <Alt>

Left <GUI>

Right <Shift>

Right <Ctrl>

Right <Alt>

Right <GUI>

CAPSLOCK

<SPACE>

“

- 76 -

(

)

;

- 77 -

[

]

‘

{

}

4.2.1.2. Direct input numeric

- 78 -

4.2.1.3. Direct input character

- - 79

- - 80

4.2.1.4. Direct input lower case character

- - 81

- - 82

4.2.1.5. Direct input control character

^@ (NULL)

^A (SOH)

^B (STX)

^C (ETX)

^D (EOT)

^E (ENQ)

^F (ACK)

^G (BEL)

^H (BS)

^I (HT)

^J (LF)

^K (VT)

^L (FF)

^M (CR)

^N (SO)

- - 83

^O (SI)

^P (DLE)

^Q (DC1)

^R (DC2)

^S (DC3)

^T (DC4)

^U (NAK)

^V (SYN)

^W (ETB)

^X (CAN)

^Y (EM)

^Z (SUB)

^[ (ESC)

^\ (FS)

^] (GS)

^^ (RS)

- - 84

^_ (US)

4.2.1.6. Direct input code id/length

Code identication

Code identication ISO-15424 / AIM

Code length (1D = 2

digits, 2D = 6 digits)

Code length (1D and 2D = 6 digits)

Clear all prexes

4.2.2. Set sux

4.2.2.1. Direct input keyboard keys

- - 85

F10

F11

F12

Backspace

TAB

RETURN

Enter ( Numeric keypad )

ESC

Arrow down

Arrow up

Arrow right

Arrow left

- - 86

<DEL>

<HOME>

<END>

Page up

Page down

Left <Shift>

Left <Ctrl>

Left <Alt>

Left <GUI>

Right <Shift>

Right <Ctrl>

Right <Alt>

Right <GUI>

CAPSLOCK

<SPACE>

- 87 -

“

(

)

- - 88

;

[

]

‘

{

}

- - 89

4.2.2.2. Direct input numeric

4.2.2.3. Direct input character

- - 90

- - 91

4.2.2.4. Direct input lower case character

- 92 -

- - 93

4.2.2.5. Direct input control character

^@ (NULL)

^A (SOH)

^B (STX)

^C (ETX)

^D (EOT)

^C (ENQ)

^F (ACK)

^G (BEL)

^H (BS)

^I (HT)

^J (LF)

^K (VT)

^L (FF)

- - 94

^M (C R)

^N (SO)

^O (SI)

^P (DLE)

^Q (DC1)

^R (DC2)

^S (DC3)

^T (DC4)

^U (NAK)

^V (SYN)

^W (ETB)

^X (CAN)

^Y (EM)

^Z (SUB)

^[ (ESC)

^\ (FS)

- - 95

^] (GS)

^^ (RS)

^_ (US)

4.2.2.6. Direct input code id/length

Code identification

Code identification ISO-15424 / AIM

Code length (1D = 2 digits,

2D = 6 digits)

Code length (1D and 2D = 6 digits)

Clear all suffixes

- - 96

5. READ OPTIONS

This chapter allows to set the read mode, trigger type, redundancy and illumination.

5.1. Read mode options

The following read modes are available:

Single read:

When a bar code has been decoded, the reader will be turned OFF. The reader must be

triggered again to read another label. This option and 'Disable trigger' can not be

programmed at the same time.

Multiple read:

When a bar code has been decoded, the reader will stay ON for a time as set by 'Read

time options' or indefinitely if the trigger switch has been disabled. The same label

can only be decoded again after the label has not been detected for a number of scans.

Continuous read:

The reader will produce as much data as it can decode regardless whether it is the

same or not. This mode is mainly used for demonstration and diagnosis.

Disable trigger:

This is applicable to readers which have a trigger switch. When this option is selected,

the reader will stay ON all the time. Note: Selecting this option for a laser reader

means that the laser diode is ON continuously, which may reduce the lifetime of this

component. Also local legislation may require that the trigger switch is always

enabled. Therefore it is recommended not to disable the trigger switch for laser

readers.

Add-on wait mode:

Used if UPC/EAN with add-on is enabled. The reader searches within the selected

time for a valid add-on code. If a valid add-on code is found, the reader transmits the

data immediately. If nothing is found behind the code, the reader will transmit the

data without add-on. If something is found behind the code, the reader ignored the

code in case it is not a valid add-on.

- 97 -

Trigger repeat:

This option makes it easier to select a single bar code from a sheet filled with bar

codes. If the trigger switch is pressed once, the laser beam is on during the configured

read time. The laser beam can now be moved to the required bar code. If the trigger

switch is pressed again, the bar code is decoded and transmitted. If the read time

expires, the laser switches off and the trigger sequence should be repeated. If the read

time is set to 0, then if the trigger switch is pressed, the laser is on, but does not accept

bar codes. As soon the trigger switch is released, the barcode is decoded and

transmitted. Support for this option is reader dependent.

Structured append time out:

When a bar code consists of multiple physical bar codes, this time out value is used.

The next bar code must be read before this time out is expired. The time out value is

between 1 and 255 seconds. This value can be configured by reading 1 up to 3 direct

input numeric characters from chapter: String options. Default the structured append

time out is set to 30 seconds.

Single read

Multiple read

Continuous read

Disable trigger

Add-on wait mode disabled

Add-on wait mode 0.25

sec.

Add-on wait mode 0.50 sec.

Add-on wait mode 0.75

sec.

Disable trigger repeat

- - 98

Enable trigger repeat

5.1.1. Multiple read reset time

This option can be used in conjunction with multiple read mode.

 for Laser and CCD readers, it sets the time that the reader should be pointed

away from the label before it can decode the same label again

 for Image readers, it sets the number of frames that the reader should be pointed

away from the label before it can decode the same label again

Indefinitely means that the next bar code must always be different, during the time the

bar code reader is triggered. For the image reader the multiple reset time is not

measured in ms, but in frames. The duration of each frame is variable, and is

dependent of the captured image. See figure 5.01.

50ms

100ms

200 ms

300ms

400ms

500ms

600ms

- - 99

Indefinitely

5.1.2. Quiet zone options

With this option the reader can decode bar codes that have smaller start and/or end

margins than specified for the symbology. Be careful when using this option. It may

increase the possibility of partial reads and ghost reads. Do not use smaller margin

checks then necessary. If possible replace the bar code labels by ones that have

correct start and end margins.

No margin check

Margin check 1/7 nominal

Margin check 2/7 nominal

Margin check 3/7 nominal

Margin check 4/7 nominal

Margin check 5/7 nominal

Margin check 6/7 nominal

Margin check normal

5.1.3. Auto trigger options

These options are used to activate the auto trigger option of the reader. This is only

supported for reader equipped with the auto trigger option.

Enable auto trigger:

The reader will be triggered if it detects changes in brightness.

Enable auto trigger

- - 100

5.1.4. Detection Mode

There are three methods for detecting a target code.

(1) Green aiming detection

When a target code falls within the aiming range while the green aiming light is

emitted, the target is detected. It is recommended to use this mode indoors

because the detectability is reduced in an environment of higher illuminance levels

than indoor’s.

(2) Red illumination detection

When a target code falls within the range of the field of view while the red

illumination light is emitted, the target is detected. This mode can be used in a

lighted environment.

(3) No illumination detection

A target code is detected without illumination light. The power consumption can be

reduced, but the response of detection will also be reduced. Ambient light is used

for detection in this mode, so this cannot be used in a dark place while it can be

used in a lighted environment.

Green aiming detection

Red illumination detection

No illumination detection

5.1.5. Auto Trigger Condition

The detection sensitivity can be adjusted. The sensitivity varies with ambient

environment and the adjustment may be needed.

Sensitive

Normal

Insensitive

- - 101

5.2. Read time options

The length of the period that the reader is ON after the trigger switch is pressed, or (in

multiple or continuous read mode) after a label has been read. Selecting a read time of

0 means that the reader will stay ON as long as the trigger switch is being pressed.

Selecting a read time for readers without a trigger switch, or when the trigger switch

is disabled, does not have any effect.

0 seconds

1 second

2 seconds

3 seconds

4 seconds

5 seconds

6 seconds

7 seconds

8 seconds

9 seconds

Read time * 10

Indefinitely

- 102 -

5.3. Redundancy

This is the number of times that a label must be correctly decoded before it is

transmitted. Selecting a higher redundancy count makes reading slower, but it reduces

the probability of reading errors, especially when labels of poor definition are used.

Read 1 time, redundancy = 0

Read 2 times, redundancy

= 1

Read 3 times, redundancy = 2

Read 4 times, redundancy

= 3

5.4. Positive and negative bar codes

Usually bar codes are printed black on white, but sometimes white on black. These

labels are called positive and negative respectively. In case the 'negative bar codes'

option has been selected, positive labels may not be decoded anymore or with

difficulty. This also applies to menu labels. To enable the reader to read positive

labels again, a number of negative menu labels have been included.

Positive bar codes

Negative bar codes

Positive and negative bar codes

5.5. Floodlight and aiming options

The floodlight and aiming options affect the light source that illuminates the area of

the bar code symbol.

The floodlight illuminates the full area during image capturing. When the scannable

area consists of a highly reflecting surface the floodlight might need to be disabled to

prevent over-exposure.

If an aiming light is available, the bar code reader can generate an aiming pattern to

help the user to target at the bar code symbol. The aiming pattern will only be visible

- - 103

between two image captures. The aiming pattern will be off when the floodlight is on.

Disable floodlight:

The option ‘disable floodlight’ does not illuminate the area of the bar code symbol

during image capturing.

Alternating floodlight:

The o turn between enabled and disabled ption ‘alternating floodlight’ switches by

floodlight.

Prevent specular reflection

Only when specular reflection of LED illumination occurs, the reading is performed

with illumination turned off.

Disable floodlight

Enable floodlight

Alternating floodlight

Prevent specular reflection

5.6. Prevention of flicker

When there is not target to be read, flicker occurs because of the LED illumination,

and this flicker can be prevented with setting. However, by enabling the setting, codes

on LCD screen will be difficult to be read.

Enable LCD display reading

LED illumination flicker

prevention

- - 104

5.7. LED aiming

Green LED floodlight used for aiming can be set to enable / disable. The brightness is

also configurable.

Enable LED aiming

Disable LED aiming

Brightness High“ ”

Brightness Standard“ ”

Brightness “Low”

- - 105

6. INDICATOR OPTIONS

This chapter describes the options for the Buzzer and Good Read LED.

6.1. Buzzer settings

These options determine the buzzer type, tone, duration and loudness. The buzzer

tone and loudness are reader dependent due to different buzzer types.

Buzzer type:

The buzzer may be disabled or enabled as either a hardware or software buzzer. Not

all readers support both a hardware and software buzzer.

Buzzer tone:

If a software buzzer is used, the buzzer tone may be selected as shown in figure 6.01.

Buzzer duration and loudness:

If a software buzzer is used, a buzzer duration of 50, 100, 200 or 400 msec. may be

selected. The loudness can be adjusted in four different steps.

Buzzer before transmission:

The good read buzzer will be activated after decoding the bar code, but before

transmission. During the transmission the buzzer sequence will be completed. The

good read buzzer will be activated after transmission.

Enable startup buzzer:

When this options is selected, the reader will generate a single good read buzzer to

indicate the reader is ready after the reader is supplied with power.

- - 106

Disable startup buzzer:

When this options is selected, the reader will not sound the buzzer after the reader is

supplied with power.

Disable buzzer

Enable buzzer

Single tone buzzer

High - low buzzer

Low - high buzzer

Buzzer duration 50 msec

Buzzer duration 100msec

Buzzer duration 200

msec

Buzzer duration 400 msec

Buzzer loudness:

Maximum

Buzzer loudness: Loud

Buzzer loudness: Normal

Buzzer loudness: Minimum

Buzzer before

transmission

Buzzer after transmission

- 107 -

Disable startup buzzer

Enable startup buzzer

6.2. Good read LED

The Good Read LED can be disabled or set for several durations.

Disable indicator

Indicator duration: 0.2 s

Indicator duration: 0.4 s

Indicator duration: 0.8 s

Termékspecifikációk

Márka:	Posiflex
Kategória:	nincs kategorizálva
Modell:	HC-1521P-Pro

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