Digital Design EVOLUTION II Installation And Operation Manual

EVOLUTION II

INK JET PRINTERS

INSTALLATION AND OPERATION MANUAL

digital design inc.

67 Sand Park Road

Cedar Grove, NJ 07009

(973) 857-9500

http://www.evolutioninkjet.com/

This manual is for use in operating and maintaining the EVOLUTION 1I Ink Jet
Printer. This includes various optional features, which may not be included in
your basic model printer. For basic start-up instructions, please refer to PART 1
Installation Procedures.

All rights reserved. No part of this document may be reproduced, stored on a
retrieval system, or transmitted in any form, or by any means electronic,
mechanical, photocopying, recording or otherwise, without the prior permission of
Digital Design Inc.
Digital Design Inc. has a policy of continual product improvement. The Company
therefore reserves the right to modify the information contained in this manual
without prior notice.

ALL PRINT CARTRIDGES SUPPLIED BY DIGITAL DESIGN INC.
ARE FACTORY TESTED AND PROFILED TO PRODUCE AN
OPTIMUM AND CONSISTANT CODE. USING OTHER THAN
AUTHORIZED CARTRIDGES WILL CAUSE UNDESIRABLE
RESULTS.
EACH FLASH DATA CARD IS PROFILED EXPLICITELY FOR ITS’
INTENDED PRINTER, AND IS SECURITY LOCKED PROHIBITING
USE IN OTHER THAN THE ORIGINAL PRINTER FOR WHICH IT
WAS PURCHASED. KEEP ALL UPGRADE CARDS IN A SECURE
PLACE.
EVOLUTION II IS A FULLY FEATURED MODEL WITH VARIABLE
FIELD PROGRAMMING AND BARCODE CAPABILITIES.

1 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

PRINT HEAD
CABLE PLUG

EVOLUTION CONTROLLER

EV2 STOPPED
HD 1<- - SPEED= 120

EVOLU

EVOLUTION CODERS

GRAPHIC
(WSYWIG)
LCD DISPLAY

EVOLUTION
CONTROLLER
KEYBOARD

NOTE:
THE EVOLUTION
GRAPHIC CONTROLLER
WILL CONTROL THE

EVOLUTION 1 (EV1)
EVOLUTION 2 (EV2)
EVOLUTION SC (EVSC)

THE UPPER LEFT
CORNER OF THE DISPLAY
INDICATES THE SPECIFIC
PRINTER CONNECTED TO
THE HAND HELD
CONTROLLER

2 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

INSTALLATION AND OPERATION MANUAL 6
PART 1: INSTALLATION PROCEDURES 6

INSTALLING THE EVOLUTION II PRINTING SYSTEM 6

MOUNTING ON PRODUCTION LINE 6
EVOLUTION II MOUNTING OPTIONS 7

After the mounting bracket is configured loosen the locking collar 7A014S and re-locate it
against the horizontal extension bracket and tighten. This allows the user to loosen the
horizontal mounting bracket-locking knob and rotate the assembly without losing the height
adjustment.

GROUNDING STRAP INSTALLATION 9

INPUT POWER CONNECTION AND MODIFICATION 9
INSTALLING THE PRINT CARTRIDGE 10
CONNECTING THE CONTROLLER TO THE CARRIAGE 11
CONFIGURING THE PRINTER 12
SYSTEM RESET 12
MULTIPLE PRINT HEADS 14
EVOLUTION II QUICK START 15

CHANGING LANGUAGE PROMPTS 15

ENABLING PRINT MODE 15

HEAD SELECT MODE 15

ENTERING A MESSAGE 16

STORING A MESSAGE 17

LOADING A MESSAGE 18
EVOLUTION II QUICK SETUP 19

PART 2: OPERATION PROCEDURES 1

OVERVIEW CONTROLLER and LCD 1

KEYPAD KEY DESCRIPTIONS 2

TURNING ON THE PRINT STATION FOR THE FIRST TIME 3

CHECKING SYSTEM INFORMATION 3

CHECKING LOADED FONTS 3

CHANGING SYSTEM DATE AND DAY OF WEEK CODES 4

CHANGING SYSTEM TIME AND DATE ROLL OVER TIME 5
PROGRAMMING 7

DEFINITIONS 7

PRINT MODE AND STOPPED “COMMAND” MODE 7

F1 MENU 9

1 = CHARACTER SPACING: 9
2 = EXT. ENCODER: 9
3 = DATE OFFSET: 10
4 = BARCODE TYPE: 10

F2 MENU 12

1 - DIRECTION: 12
2 - PRINT INVERSE: 12
3 – PRODUCT DETECT: 12
4 - AUTO REPEAT: 13

F3 MENU 14

1 – PRODUCT COUNT: 14
2 – shift code: 15
3 – DATE FORMAT: 16
4 – TIME FORMAT: 18

F4 MENU 19

1 - LANGUAGE: 19
2 - INK SUPPLY: 19

8

3 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

3 – SET UNIT I.D.: 20
4 – LOAD CARD: 21

SETTING PRINT DELAY AND LINE SPEED 24

SETTING LINE SPEED 24

SETTING PRINT DELAY 25

SETTING HEAD ALIGNMENT 25
INPUT, EDIT OR DELETE MESSAGES 26

VARIABLE FIELD FORMAT PRINTING 33
MESSAGE STORAGE 36

STORING A MESSAGE 36

RECALLING A STORED MESSAGE 36

PART 3: MAINTENANCE PROCEDURES 1

SHORT PERIODS OF SHUT DOWN 1
LONG PERIODS OF SHUT-DOWN 2
PRINT CARTRIDGE MAINTENANCE 3
PRINT CARRIAGE MAINTENANCE 5
EXPLODED VIEW OF THE C21002 PRINT CARRIAGE 5

PART 4: TROUBLESHOOTING AND REPAIRS 1

FAULTS 1

PART 5: PARTS LIST AND OPTIONS 1
PART 6: COMMUNICATIONS PROTOCOL 1

DESCRIPTION 2

DATA WORD DEFINITION 2

BAUD RATE 2

DEFINITIONS 2

CABLING FOR EVLINK ENVIRONMENT 2

HARDWARE INTERFACE 3

PHYSICAL CONNECTIONS RS485 print carriage 3

PROTOCOL FORMAT: 3

EVOLUTION PRINTABLE CHARACTER SET 3
SOFTWARE PROTOCOL 4
ERROR CODES 4
COMMANDS: 6

PART 7: OPTION JUMPERS AND CABLING 1

OPTION JUMPER DESCRIPTIONS 1

VSEL J7 1

ENSEL J9 1

PRSEL J10 1

JUMPER LOCATION 2
OPTION CABLING DESCRIPTIONS 3

PART 8: SPECIFICATIONS 1

PRINTER SPECIFICATIONS 1

PRINT CHARACTERISTICS 1

CONTROLLER 1

PRINT CARRIAGE 1

ENVIRONMENTAL CONDITIONS 1

GENERAL 1
DEFAULT SETTINGS 2

APPENDIX A – PRODUCING RELIABLE BAR CODES 3

BARCODE INTEGRITY - 3
CONTRACT RATIO - 3
BAR SEPARATION - 3
QUIET ZONE - 3

4 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

PROGRAMMING BAR CODES: 4
BARCODE TECHNIQUES: 5
BARCODE TYPES 9
USING CHECK CHARACTER: 13

5 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

INSTALLATION AND OPERATION MANUAL
PART 1: INSTALLATION PROCEDURES

INSTALLING THE EVOLUTION II PRINTING SYSTEM

Caution should be taken while installing the EVOLUTION printing system on your
equipment. Digital Design Inc. has taken every precaution to ensure a safe and
accurate instruction set to guide the installer through the installation process.
Follow the operational guidelines in the installation procedures.

VERIFY THAT YOUR EQUIPMENT IS IN PROPER OPERATING
CONDITION.

LOCATE A CONVENIENT POSITION ON YOUR EQUIPMENT.
EVOLUTION II REQUIRES 4-1/2" OF SPACE ON THE PRODUCTION
LINE.

FOLLOW THE INSTALLATION PROCEDURES.

READ CAREFULLY ALL INSTALLATION PROCEDURES BEFORE
PROCEEDING.

INSTALL THE PRINTING SYSTEM ON YOUR EQUIPMENT.
THERE IS NO EXTRA HARDWARE REQUIRED OTHER THEN
THAT SUPPLIED IN THE INSTALLATION KIT.

MOUNTING ON PRODUCTION LINE

Locate the supplied mounting template
and affix in a convenient location on the
production line. Spot and drill both
mounting holes for a 5/16” bolt. NOTE:
the user may also thread the side of the
conveyer using a 5/16” tap.
Fasten the mounting bracket to the
conveyer using the supplied mounting
hardware and ensuring that the supplied
ground strap is located securely beneath

either of the two mounting bolts, and that
conductivity to earth ground is less than 1 ohm. This ensures a proper path for
static discharge, should the need arise.

6 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

EVOLUTION II MOUNTING OPTIONS

The EVOLUTION II mounting bracket assembly C21010 has a number of
possible mounting configurations, which allows adaptability to a variety of
production equipment.

The top cross slide
bracket C20741 may be
rotated 180 deg by
loosening the included
setscrew 504JCS and
rotating the bracket. This
allows the print head to be
extended by just over 1”.
Although this is not a
significant amount it might
be helpful.

Refer to the first two
pictorials to identify the
various components of the
mounting bracket system
C21005.

Rotating the horizontal
mounting bracket C20740
may further increase
extension into the
production line. The
mounting centers for both
the base block C20741
and controller holder
C20940-4 are identical.
Remove the two 502JHS
flat head screws from the
base block and the two
502JES button head
screws, rotate the bracket
and replace both the base
block and controller
holder.

The above procedure
allows for a print head
displacement from .625”
before the production line
to 11.450” into the
production line.

7 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

Vertical height adjustment
for the EVOLUTION II print
head is accomplished by
loosening the included
hand knob 5993K41.

Note that the hand knob
may be mounted on either
side of the horizontal
mounting bracket
depending on the
orientation of the bracket.
It should also be noted
when rotating the cross
slide assembly it is
necessary to move the
smaller hand knob
57715K16 to the other
side of the bracket so it
aligns with the flat on the
horizontal extension rod.

After the mounting bracket
is configured loosen the
locking collar 7A014S and
re-locate it against the
horizontal extension
bracket and tighten. This
allows the user to loosen
the horizontal mounting
bracket-locking knob and
rotate the assembly
without losing the height
adjustment.

8 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

GROUNDING STRAP INSTALLATION

INSTALL STRAP
UNDER 5/16”
SCREW. ENSURE
CONDUCTIVITY TO
EARTH GROUND IS
LESS THAN 1 OHM

INPUT POWER CONNECTION AND MODIFICATION

Insert the power plug to the available power source. The supplied power supply
will is universal and will auto detect 100/240 VAC 50-60hZ.

No other adjustments are necessary.

9 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

INSTALLING THE PRINT CARTRIDGE

Remove the protective film from the face of the print head and retain the film.
This protective film may be re-applied to store partially used cartridges. If it is
necessary to remove the print head and store for a long period of time, it is best
to re-apply the plastic film, and place the cartridge in a closeable plastic bag.
Rotate the Print Head Release mechanism to the rear of the print head so that it
is free for insertion of the print cartridge. Push the print cartridge in and down to
insert it into the print carriage. Gently lift the locking arm and press forward
against the print cartridge. A snap will be felt as the locking mechanism presses
the cartridge into the correct position.

NOTE: EACH PRINT CARTRIDGE HAS BEEN PROFILED
AT THE FACTORY. THIS PROCEDURE DETERMINES
THE OPTIMAL OPERATING CHARACTERISTECS FOR
EACH INDIVIDUAL CARTRIDGE. USING ANY OTHER
PRINT CARTRIDGE WILL HAVE UNDESIRABLE
RESULTS.

NOTE: WHEN A NEW CARTRIDGE IS INSTALLED,
BOTH THE RED AND GREEN LIGHT WILL FLASH
TWICE INDICATING A CORRECT INSTALLATION.
THE USER MUST REMEMBER TO RESET THE INK
LEVEL UNDER THE F4 FUNCTION KEY MENU.

10 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

CONNECTING THE CONTROLLER TO THE CARRIAGE

Connect the Controller to the print carriage using the supplied 3 FT (.9 mm)
interconnect cable C21008-3 supplied with the Printing System. The cable is a
standard RJ50 (10 conductor). Longer cables are available as required.
Connect either end of the cable to the Carriage Assembly and securely lock in
place. NOTE: THE CONNECTOR MUST BE PLUGGED INTO THE INPUT RJ50

CONNECTOR LOCATED ADJACENT TO THE LED’S AND MARKED WITH
AN ARROW POINTING TO THE CONNECTOR. A click will be heard when the

connector is in the appropriate position. Connect the free end to the Controller
Assembly and ensure connector is securely seated.

PRINT CARRIAGE RJ50

RESET
SWITCH
ACCESS
HOLE

OUTPUT CONNECTOR

PRINT CARRIAGE RJ50
INPUT CONNECTOR

GREEN
CYCLE LED

RED PRINT
ENABLE LED

CONTROLLER RJ50

POWER INPUT
+12VDC @1.5A

CONNECTOR

CAUTION:
NOTE ORIENTATION OF THE CONNECTORS. DO NOT FORCE
CONNECTORS INTO POSITION SECURELY LATCH (CLICK) INTO
POSITION.
CONTROLLER MUST PLUG INTO THE PRINT CARRIAGE RJ50 INPUT
CONNECTOR FOR PROPER OPERATION. THE PRINT CARRIAGE RJ50
OUTPUT CONNECTOR IS USED EITHER FOR CONNECTION TO THE NEXT
PRINTER ON A NETWORK OR FOR EXTERNAL PRODUCT OR EXTERNAL
ENCODER INPUT.
THE POWER INPUT CONNECTOR MUST BE SECURELY INSERTED INTO
THE PRINT CARRIAGE. UPON PROPER INSERTION BOTH THE RED AND
GREEN LED’S WILL FLASH INDICATING PROPER CONNECTION.

11 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

CONFIGURING THE PRINTER

Y

Y

To verify the current operating software press the STOP PRINT

key.

Press the V key

CONTROLLER 7.08
PRINTER 2.08K++++
PRINTER SN XXXXXX
EXIT ANY KEY

The first line indicates the version of the controller software
The second line numerics indicate printer software version and the letter is the
firmware version of the printer. The ‘+’ (s) following indicate options installed:
++++ = Fully Optioned
The third line indicates the serial number of the printer

SYSTEM RESET

Soft Reset:

There are two types of resets available in the Evolution II printing system. The
first type of reset is a SOFT RESET.

ERASE STORED
MESSAGES

ES OR NO Y/N

RESET PRINT HEAD

ES OR NO Y/N

ALL HEADS
WILL BE RESET

CONTINUE = X KEY
ANY OTHER EXITS

Pressing the R key while applying power to the
unit will display the reset command mode
CAUTION: A response of Y will delete all stored
messages.

The next screen to appear prompts the user to
determine if a print head is to be restored to its
default value.

CAUTION: ALL PRINT HEADS CONNECTED
TO THE CONTROLLER WILL BE RESET TO
FACTORY DEFAULT CONDITIONS. THIS
INCLUDES RESETING EACH UNIT ADDRESS
TO 1. TO PREVENT THIS REMOVE ALL
INTERCONNECTED PRINT HEADS EXCEPT
FOR THE UNIT TO BE RESET FROM THE
DATA LINK.

12 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

Hard Reset:

The second reset is a hard reset. Disconnect the power cable. Insert a standard
paper clip into the hole on the female dovetail side of the cabinet, and while
holding the paper clip in place (a light click will be felt) re-apply the power
connector.
This operation will reset the print carriage assembly to the factory default settings
and clear any current message.

13 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

MULTIPLE PRINT HEADS

EVOLUTION II printing systems have the ability to reside on a network. The network
may contain from 1 to 32 print carriages connected via RJ50 cables. These
cables are available in varying lengths depending on the application.
Each mounting bracket can support up to 4 print carriages and would typically
interconnect with a 6” RJ50 data cable.

NOTE: Please address each unit individually as per page 2-17 prior to daisy
chaining the printers. Special care must be taken to connect the output of the
first print carriage to the input of the next print carriage.

When connecting multiple print carriages place no more than 2 stations on a side
of the mounting bracket as shown.

PRINT CARRIAGE
ADDRESS 4

PRINT CARRIAGE
LOCKING SET
SCREW

PRINT CARRIAGE
ADDRESS 1

TO
CONTROLLER
OR COMPUTER
DATA LINK

14 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

EVOLUTION II QUICK START

EV2 STOPPED
HD 1- - >SPEED=100

EVOLU

Connect the printer carriage to the appropriate
power source.
Connect the controller to the carriage assembly.
The controller derives power from the carriage.

On startup the LCD will display as pictured.

CHANGING LANGUAGE PROMPTS

< - - SELECT - - >

ENGLISH

Press the F4 key and select for
LANGUAGE. Use the keys to select the
desired language and press the

language.

ENABLING PRINT MODE

EV2 PRINTING
HD 1- - >SPEED=100

EVOLU

Press the GREEN PRINT key to start printing

HEAD SELECT MODE

EV2 STOPPED
HD 1- - >SPEED=100

EVOLU

The hand held controller can program up to 32 print
carriages on an RS485 data link. The factory default
sets each print carriage to ADDRESS 1. Selection
of another print head other than ADDRESS 1, press

to select the

< - - SELECT - - >
WHICH HEAD = 1

EVOLU

As an added convenience using the will auto scan to find the next

NO RESPONSE

ANY KEY TO EXIT

15 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

the
alternate print carriage number and press the

key. The print carriage whose address was selected
will respond with the current message and
appropriate parameters.

available head connected to the environment

Accessing an address not associated with any print
carriage will result in a no response message.

key. Use the keys to select the

ENTERING A MESSAGE

EV2 STOPPED
HD 1- - >SPEED=100

EVOLU

MESSAGE ENTRY

- - - - FONT-1 LINE

EVOLU

Press the GREEN PRINT key
The LCD display will change from PRINTING to
STOPPED.

Press the GREEN EDIT key

MESSAGE ENTRY

- - - - FONT-1 LINE

MESSAGE ENTRY

- - - - FONT-1 LINE

EXP 12/

MESSAGE ENTRY

- - - - FONT-1 LINE

2/10/04

EV2 PRINTING
HD 1- - >SPEED=100

EXP 12/

Press the BLUE F3 key to delete the entire
message

Press the BLUE FONT key to select
the desired font size and enter the text EXP
12/10/04

Press the ENTER key to end the MESSAGE
EDIT mode

Notice as data is entered the display scrolls to the
left as new characters are entered.

Press the ENTER key

will end the MESSAGE
EDIT mode, re-display the message end enter the
STOPPED mode.

Press the GREEN print enable key to enter
the print mode

16 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

STORING A MESSAGE

EV2 STOPPED
HD 1- - >SPEED=100

EXP 12/

MESSAGE # 1 EV2
PLEASE WAIT

Press the GREEN STOP PRINT KEY

Note: There are a total of 100 messages
stored in the hand held controller. This
allows the user to move the controller
to another print station and enter the
same or other saved message.
The upper right top line of the display
indicates the unit type the message was
prepared for.

MESSAGE # 1 EV2
MESSAGE STORED

EXP 12/

EV2 STOPPED
HD 1- - >SPEED=100

EXP 12/

Press the RED MESSAGE STORE key
The LCD display will display the message storage
screen

Use the or to select the desired storage
location

Press the RED MESSAGE STORE KEY a
second time and the current message appears in
the selected location and is stored.

Press the ENTER key to return to the
command prompt.

17 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

LOADING A MESSAGE

EV2 STOPPED
HD 1- - >SPEED=120

EVOLU

MESSAGE # 1 EV2

EXP 12/

EV2 STOPPED
HD 1- - >SPEED=120

EXP 12/

EV2 PRINTING
HD 1- - >SPEED=120

EXP 12/

Press the GREEN STOP PRINT KEY

Press the RED MESSAGE STORE key

use the

message and press the ENTER

or keys to select the desired

key

and

Press the GREEN print enable key to enter
the print mode

18 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

EVOLUTION II QUICK SETUP

Install a new cartridge. Press the following keys in order:

REMAINING INK
100 %
C NEW CARTRIDGE
OTHER KEY EXIT

To reset the ink level detector press

Each time a new print cartridge is installed the system automatically profiles the
correct operating parameters for the new cartridge. These parameters set the
required voltage and on time to produce consistent results without user
intervention.

NOTE: USING OTHER THAN AUTHORIZED CARTRIDGES MAY CAUSE
UNDESIRABLE RESULTS.

Press the GREEN print enable key to enter the print mode

To set the LINE SPEED, press to put the system in the Printing mode. Set
character width by

To set the PRINT DELAY press: to put the system in the Printing mode. Set
print delay by

. NOTE: Each increment or decrement changes the delay by the pre-defined
amount.

You may continue to experiment with line speed and print delay until the desired
code registration on the product is achieved.

19 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

PART 2: OPERATION PROCEDURES

OVERVIEW CONTROLLER AND LCD

The keypad on the print
station, pictured here, contains
64 keys. The LCD will display
various messages to assist in

EV2 STOPPED
HD 1 - ->SPEED= 100

EVOLU

EVOLUTION CODERS

programming on the upper half
of the display. The lower half
of the display will show up to
two lines of the entered print
message.
The system operates is 3 basic
modes. They are: Print Mode,
Command Mode, and
Message Entry Mode. In Print
Mode the majority of the keys
on the keypad are disabled to
avoid inadvertent changes.
When in Print Mode the Top
line of the LCD will display
PRINTING.

The Command Mode is used
to change the functions of the
printer. When in the
Command Mode the display
will show STOPPED on the top
line. The Message Entry Mode
is used to create or modify
printable codes, when in this
mode the top line of the display
will show MESSAGE ENTRY.
The 4 keys on the top row are
the function keys F1 through
F4. They each consist of
submenus for modifying
various printer functions. Their
specific menus are detailed
later in this section.
The next two rows of keys with
icon legends directly control
specific parameters of the
printer as follows.

1 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

KEYPAD KEY DESCRIPTIONS

This is the manual cycle key. When in the Stopped mode, pressing this
key causes the printer to print one code

.

This is the Print key. Use it to place the unit in the Print mode

This is the Purge key. Use it to purge ink for maintenance purposes. The
unit must be in the Command mode to use this key.

This is the Head Select key. Use it to select the address of the head to be

S1

communicated with. In edit mode it enters the DAY of WEEK
Use this arrow to decrease values, and use it to move the cursor in the
message line while editing the message.
Use this arrow to increase values and use it to move the cursor in the
message line while editing the message.
Use this arrow to move the cursor between the message lines while in
Edit mode and building a message.

Use this arrow to move the cursor between the message lines while in
Edit mode and building a message.

This key is the Message Storage key. Use it to store and to recall
individual codes.

This is the Delete key. Use it to backspace to delete a character when
mistyped as well as to exit from certain menus.

This is the Message Entry key. Use this key to enter the Message Entry
mode, to input a code or to edit a code.

This is the Date key. Use this key to enter the Date in Message Entry
Mode. (OPTION PACK 2). Change Date in STOPPED mode.

This is the Time key. Use this key to enter the Time in Message Entry
Mode. (OPTION PACK 2). Change Time in STOPPED mode.

This is the Sequence Number key. Use this key to enter the Sequence
Number in Message Entry Mode. (OPTION PACK 2)

This is the Enter or Return key. When pressed, the unit will accept input
and exit certain menus.

This key selects the Print Delay in COMMAND mode and Offset Date in
EDIT mode (OPTION PACK 3)

This key selects the Line Speed in COMMAND mode and the shift code in
the EDIT mode (OPTION PACK 3)

This key selects the Font size in the EDIT mode.
In the COMMAND mode pressing this key displays the current fonts
loaded in the print head.
Pressing this key while in the Message Entry mode accesses special
characters

S2

2 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

This key is reserved for special customer Logos

TURNING ON THE PRINT STATION FOR THE FIRST TIME

To turn the print station on insert the power jack into

EV2 STOPPED
HD1- - >SPEED=120

EVOLU

the DC power connector.

There is no on/off switch.

The first time the print station is turned on, as
received from the factory, the LCD will look like the
illustration on the left. Each line gives important
information regarding the system:

The Top line indicates the operating mode of the
unit: STOPPED when in Command mode, PRINTING when in Print mode, and
MESSAGE ENTRY when in message entry.

nd

The 2

line shows the print head currently selected, the direction of travel for the
product and the programmed SPEED.
The lower half of the display shows the message entered for printing. This may
represent one, two, three or four lines of code.

NOTE: THE DISPLAY IS A WYSWIG GRAPHIC TYPE AND MAY
ONLY DISPLAY A PORTION OF THE ACTUAL MESSAGE.

CHECKING SYSTEM INFORMATION

CONTROLLER 1.06
PRINTER 2.08K++++
PRINTER SN284955
ANY KEY TO EXIT

Verify system information by pressing the V key
on the hand held controller keyboard. The LCD
screen will display the software, firmware, serial
number and options enabled. The EVOLUTION
II printer is fully configured thus a ++++ will be
displayed.

CHECKING LOADED FONTS

EVSC ACTIVE FONTS
4 LINE ARIALA332
3 LINE ARIALA1_8
2 LINE ARIALA732
1 LINE ARIALA1_2

ANY KEY TO EXIT

Press the FONT

key in the COMMAND
mode to check what fonts are currently loaded
in the print head.

3 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

CHANGING SYSTEM DATE AND DAY OF WEEK CODES

PRESENT SETTING
ANY CHANGES Y/N
01/04/00

PRESENT SETTING
ANY CHANGES Y/N
01/04/00
ENTER MONTH-

PRESENT SETTING
ANY CHANGES Y/N
01/04/00
ENTER DAY-

PRESENT SETTING
ANY CHANGES Y/N
01/04/00
ENTER YEAR-

< - - SELECT - - >
DAY OF WEEK- 1

DAY FORMAT
1= NUMERIC
2= LETTERS

PRESENT SETTING
ANY CHANGES Y/N
04/23/05

When the unit is in the STOPPED mode

pressing the DATE key allows the user to
change the system date. If there are no
changes press the N key to return to the
STOPPED mode.
Press the Y key to change the date.
The system will prompt the user first for the
Month (enter 2 digits), then the Day (2 digits)
and finally the year (2 digits).

After the date is entered the system requests
the actual date day of week. This parameter is
usually set to 1 for Sunday, 2 for Monday etc.

The day of the week can be entered into a
message as either a number 1-7 or as a letter
A-G. The day of the week is entered into a

message by pressing the key while in the
MESSAGE ENTRY mode.

After the data is entered the system displays
the currently entered date and pressing the N
key returns the user to the STOPPED mode,
or press Y to the correct the date.

4 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

CHANGING SYSTEM TIME AND DATE ROLL OVER TIME

TIME SETTINGS
1= SET TIME
2= DATE CHANGE TIME

PRESENT SETTING
ANY CHANGES Y/N
23:05

PRESENT SETTING
ANY CHANGES Y/N
23:05
ENTER HOURS -

PRESENT SETTING
ANY CHANGES Y/N
23:05
ENTER MINUTES -

PRESENT SETTING
ANY CHANGES Y/N
13:50

TIME SETTINGS
1= SET TIME
2= DATE CHANGE TIME

DATE TIME CHANGE
ANY CHANGES Y/N
00:00

When the unit is in the STOPPED mode
pressing the TIME

key allows the user to
change the system date. If there are no
changes press the N key to return to the
STOPPED mode.

Select the N key if the time is correct and
return to the STOPPED mode.

Press the Y key to change to the correct time.
Enter the correct hours (2 digits) followed by
the correct minutes (2 digits). The screen
displays the corrected time. Press the Y key to
make further changes or N key to return to the
STOPPED mode.

Notice the time is in 24-hour format.

The Date Change option is enabled by
selecting option 2. This feature allows the date
to roll over at a specified time other than
12:00AM (midnight). For example if the start of
a new shift day occurs at 6:00AM the date will
be changed each day at 6:00AM.
Selecting Y allows changing of the roll over
time. Setting this parameter to 00:00 disables
the function.

5 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

DATE TIME CHANGE
ANY CHANGES Y/N
00:00
ENTER HOURS -

DATE TIME CHANGE
ANY CHANGES Y/N
00:00
ENTER MINUTES -

RESET CLOCK

ENTER HOURS -

RESET CLOCK

ENTER MINUTES -

Similar to entering the time enter first the hours
then at the next prompt enter the minutes.
Remember the time is entered in military time.

Entering 06:00 sets the date change time at
6:00AM.

Enabling this function requires resetting the
current correct time.

Enter both the current time in hours and
minutes.
This resets the correct time and establishes a
new Date Rollover Time.

6 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

PROGRAMMING

DEFINITIONS

There are two parts to programming the EVOLUTION II ink jet printer,

• Setting the operations parameters, (character width, delay, etc.) and

• Building the message.

MODES OF OPERATION

The system operates is 3 basic modes. They are: PRINTING Mode, STOPPED
(command) Mode, and MESSAGE ENTRY Mode.

In PRINTING Mode the majority of the keys on the keypad are disabled to avoid
inadvertent changes. When in PRINTING Mode the Top line of the LCD will
display PRINTING.

The STOPPED Mode is used to change the functions of the printer. When in the
Command Mode the display will show STOPPED on the top line.

The MESSAGE ENTRY Mode is used to create or modify printable codes, when
in this mode the top line of the display will show MESSAGE ENTRY.

PRINT MODE AND STOPPED “COMMAND” MODE

EV2 PRINTING
HD1- - >SPEED=100

EVOLU

EV2 STOPPED
HD1- - >SPEED=100

EVOLU

When in the Print mode the screen will look like
the screen on the left. When PRINTING is seen
on the LCD, the unit will print as product passes in
front of the carriage assembly. To enter Print

mode, press .

When in the Command Mode the screen looks like
the illustration at left. When STOPPED the printer
will not print when product is moved past the
carriage assembly.
In Command mode, access can be made to the
menus under the function keys, F1 through F4
icon control keys plus access to Message Entry

Mode. To enter Command mode, press .

7 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

MENU STRUCTURE

In the Command mode, access is allowed to the menu structure for basic
parameters. The menus reside within the function keys, F1 through F4. In order
to select one of the parameters, press the number key that corresponds to the
desired parameter.

The F1 key, when pressed, brings up the menu as shown below.

1=CHAR. SPACING
2=EXT. ENCODER
3=DATE OFFSET
4=BARCODE TYPE

The F2 key, when pressed, brings up the menu as shown below.

1=DIRECTION
2=PRINT INVERSE
3=PRODUCT DETECT
4=AUTO REPEAT

The F3 key, when pressed, brings up the menu as shown below.

1= PRODOCT COUNT
2= SHIFT CODE
3=DATE FORMAT
4=TIME FORMAT

The F4 key, when pressed, brings up the menu as shown below.

1=LANGUAGE
2=INK SUPPLY
3=SET UNIT I.D.
4=LOAD CARD

8 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

F1 MENU

1=CHAR. SPACING
2=EXT. ENCODER
3=DATE OFFSET
4=BARCODE TYPE

reserved for future system expansion.

Place the unit in the Command mode and press

. The screen shown to the left is produced.
Press the correct number to make changes to that
parameter. Those selections designated as NOT
AVAILABLE will not respond to selection. They are

1 = CHARACTER SPACING:

< - - SELECT - - >
# OF SPACES- 1

This parameter controls the amount of space between
characters in the code. Spacing can be varied from 1
to 25 columns. Use this control to make printed
codes more legible when code is compressed. Press

the

Press once the desired value is displayed.

then press or to change the value.

2 = EXT. ENCODER:

ENCODER
1=INTERNAL
2=EXTERNAL

be set to produce a perfect aspect ratio character (300 dpi vertical and
horizontal) or compressed by setting the print head line speed faster than the
actual line speed, or expanded by changing the internal speed slower than the
actual line speed.
In the event there is an acceleration or deceleration to the production line, or
there is a requirement to guarantee accurate aspect ratio, such in the case of

barcodes, an external encoder is necessary. Press
encoder. While external encoder is selected the LINE SPEED key

the expansion and compression of the printed message. NOTE: WHEN
PRODUCING BARCODES IT IS NECESSARY TO PRODUCE A PERFECT
ASPECT RATIO CHARACTER.
Swath height is 0.500 (1/2”) / 150 vertical dots = 0.0033” between vertical dots
Therefore to print a perfect aspect ratio character requires an encoder pulse
every 0.0033”. The encoder range adjustment is from 0 to 7 and assuming the
mean is a count of 4 then by connecting an encoder that produces a pulse for
each 0.000825” the correct character aspect ratio can be achieved. This allows
either compression or expansion of the printed text.

Press to select internal time base. This parameter
controls the source of the time base used for printing.
Each vertical column printed requires a signal
necessary to produce a character representative of
the line speed of the production line. The printer can

to select external

will adjust

9 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

3 = DATE OFFSET:

DATE OFFSET
USE KEYS 0->9
# OF DAYS = 100

4 = BARCODE TYPE:

< - - SELECT - - >
CODE 39

< - - SELECT - - >
UPC A

< - - SELECT - - >
MIN. BAR WIDTH= 5

< - - SELECT - - >
ADDED SPACE = 0

< - - SELECT - - >
QUIETZONE WIDTH 75

ADD CHECK DIGIT
1 = YES
2 = NO

To enter a date offset (expiration date) change the
value equal to the number of days until expiration.
Legal entries are 0 to 999 days. The format of the
date offset can be different than a normal date and
may be set with the F3 #3 option DATE FORMAT.

This parameter determines the barcode type to be
entered into a message. As standard the
EVOLUTION II contains 8 barcode symbologies,
which are: UPC-A, UPC-E, EAN-8, EAN-13, CODE
39, CODE 128B, CODE 128C AND INTERLEAVED
2 OF 5.

Press or to change the barcode type and
press once the desired type is displayed.

The default system parameter establishes that the
normal size of a narrow bar is equal to 5 vertical
columns. This value, which is variable from 3 to 15,
is selectable depending on the overall length of the
barcode to be printed. This value sets both the light
and dark bars nominal width.
The added space parameter allows the user to
insert extra columns to a normal light bar width to
allow for the bleed factors associated with various
substrates. Valid entries are from 0 to 3 extra
spaces.

The quiet zone is the space before and after a
barcode that must be kept blank. Each count is
equal to one vertical column. In proper aspect ratio
each column is 0.0033” thus a count of 75 would
leave 0.247” before and after the barcode.

Check digits may be added to any of the imbedded
symbologies by selecting option 1.

10 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

ADD MAN READABLE
1 = YES
2 = NO

This parameter adds a man readable set of
characters directly beneath the barcode being
printed, and is valid for all barcode types.

ADD GUARD BARS
1 = YES
2 = NO

If man readable characters are enabled the user
has the option of enabling or disabling guard
bars.

Barcode reliability is directly related to the substrate and linearity of the
production line. Care should be taken to ensure that the production environment
is conducive to printing barcodes. For example barcodes are susceptible to
vibration (bounce) found on roller style conveyers where flat belt types are
preferable. Acceleration and deceleration components will add a skew factor to
the barcode as will slippage between the product and production line. Refer to
Appendix A for further details on “Producing a Reliable Barcode”.

11 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

F2 MENU

Place the unit in the Command mode and press

1=DIRECTION
2=PRINT INVERSE
3=PRODUCT DETECT
4=AUTO REPEAT

produced. Press the correct number to make
changes to that parameter

. The screen shown to the left is

1 - DIRECTION:

The arrow shown on the LCD’s third line screen

< - - SELECT - - >
LINE DIRECTION

< - - - -

should agree with the direction of product travel.
Press or to change the direction of print.
Press for the unit to accept the change.

2 - PRINT INVERSE:

CODE ORIENTATION
1 = NORMAL PRINT
2 = UPSIDE DOWN

on the imprint.

This parameter allows the code to print right side
up or upside down. Pressing will produce
the following screen. Press for normal print
or for upside down codes. Save the choice
by pressing . Look for the change of direction

3 – PRODUCT DETECT:

PRODUCT DETECT
1 = INTERNAL
2 = EXTERNAL

a portion of the product not directly in front of the print head then an external
product detect sensor must be used. This setting also allows the printer to be
controlled from other sources, like a PLC. When external product detect is
selected the user must also change the jumper option within the print head. Refer
to the OPTION SELECT section for proper use.

This menu selection allows the user to select the
source of the product detect feature. Press

to use the internal product detect sensor located
at the front of the print carriage just below the
print cartridge. If it becomes necessary to sense

12 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

4 - AUTO REPEAT:

< - - SELECT - - >
REPEAT TIME= 0

time delay adds or subtracts a distance equivalent to the pre-defined setting.
Save your choice by pressing . The maximum repeat spacing is 255 counts
where each count is equal to 16 character columns or 0.053”. This allows for a
total displacement of 13.46”. Setting a print delay that uses the same
mathematical equation can increase this number. Thus a total displacement of

26.92” can be realized.

This option enables the unit to continuously print
repeated codes at specified time intervals along
the entire length of the product. A time of 0
disables the Auto Repeat option. Use or
to change the repeat time. Each number in the

13 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

F3 MENU

1= PRODUCT COUNT
2= SHIFT CODE
3=DATE FORMAT
4=TIME FORMAT

1 – PRODUCT COUNT:

PRODUCT COUNT
CHANGES Y / N OR C
08:00 - - > 17:00
COUNT = 000000

PRODUCT COUNT
START TIME
08:00 - - > 17:00
ENTER HOURS-

PRODUCT COUNT
START TIME
08:00 - - > 16:00
ENTER MINUTES-

PRODUCT COUNT
STOP TIME
08:00 - - > 16:00
ENTER HOURS-

PRODUCT COUNT
STOP TIME
08:00 - - > 16:00
ENTER MINUTES-

PRODUCT COUNT
CHANGES Y / N OR C
08:00 - - > 17:00
COUNT = 000000

The product counter is a non-printable entity,
and must be read after the end of the set time
period. The counter indicates each print cycle
sensed by the external photo eye. Depressing
the C key may clear the counter.

If there are no changes press the N key.

To change the settings depress the Y key.
All times are in Military Time 00:00 to 23:59
hours.

Enter the start time HOURS.
At the next screen prompt enter the start time
MINUTES

The system then prompts the user for the STOP
TIME.

Enter both the stop time HOURS and then the
MINUTES.

The newly entered data is re-displayed for
verification or correction if necessary Press the
Y key to change the data or the N key to finish
and return to the STOPPED MODE
.

14 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

2 – SHIFT CODE:

1= PRODUCT COUNT
2= SHIFT CODE
3=DATE FORMAT
4=TIME FORMAT

Shift codes may be encoded directly in the
printable message. The printer can print 6
individual shift codes. Each shift code contains a
unique start time and alpha/numeric code to be
printed.

ADJUST SHIFTS
< - - SELECT - - >
SHIFT 1 07:00 A
ANY CHANGES Y/N

ADJUST SHIFTS
SHIFT 1
START TIME
ENTER HOURS -

ADJUST SHIFTS
SHIFT 1
START TIME
ENTER HOURS -

Press or to change the desired shift to
view or change.

The shift code option allows the user to enter 6
different shift times per day. Use the arrow keys
to select a shift and enter a Y to change a shifts
start time.
All times are in Military Time 00:00 to 23:59
hours.

Enter the correct start time HOURS for the shift
selected.

ADJUST SHIFTS
SHIFT 1
START TIME
ENTER MINUTES -

Enter the correct start time MINUTES for the
shift selected..

ADJUST SHIFTS
SHIFT 1

PRINT CODE -

Finally, enter the desired code to be printed in
the message. Legal characters are the letters A
to Z and the numbers 0 to 9.

ADJUST SHIFTS
< - - SELECT - - >
SHIFT 1 07:00 A
ANY CHANGES Y/N

The printer re-displays the data for the selected
shift for verification.

NOTE: THIS PROCEDURE MAY BE
REPEATED FOR ALL DESIRED SHIFTS

NOTE: TO DISABLE A SHIFT ENTER A
SPACE CHARACTER IN THE PRINT CODE FIELD. THE SHIFT
TIMES WILL BE DISPLAYED AS --:-- FOR ALL DISABLED SHIFT
TIMES.

15 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

3 – DATE FORMAT:

Y

Y

j

Y

j

1= PRODUCT COUNT
2= SHIFT CODE
3=DATE FORMAT
4=TIME FORMAT

CHANGE FORMAT
1=CALENDAR DATE
2=OFFSET DATE

MONTH FORMAT
1=NUMERIC
2=LETTERS

DATE FORMAT
D=DAY M=MONTH

=YEAR J=JULIAN

dm/dd/dy

DATE FORMAT
D=DAY M=MONTH

=YEAR J=JULIAN

jj

DATE FORMAT
D=DAY M=MONTH

=YEAR J=JULIAN

jjyy

colon (:), the forward slash (/) or the period (.).

Press F3 to change the date formatting. Each of

the following screens prompts the user to enter

the desired format for printing.

NOTE: THE USER MAY INDIVIDUALLY

CHANGE THE FORMAT OF BOTH THE

CALANDER FORMAT AND THE DATE

OFFSET FORMAT

NOTE: THE FOLOWING PROCEDURE

APPLYS TO BOTH CALANDER AND OFFSET

DATE FORMATS.

Selecting the standard numeric format will

prompt the user to enter the format of the date in

standard number format.

The default as shipped from the factory is

dm/dd/dy, and may be modified as required.

If the offset format was selected the word DATE

is replaced with the word OFFSET.

To change the format press the delete key and

the last line on the display will be erased. The

entire format will be erased and must be re-

entered.

Press either of the designator keys (i.e. M for

month) and the display will display the correct

code for the item selected. As an example enter

the Julian date and year. Press the J key

followed by the Y key. The code entered will

print the Julian date followed by the 2-digit year.

Notice no delimiters were selected, but may

have been entered by selecting the appropriate

key on the keyboard. Legal delimiters are the

16 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

MONTH FORMAT

Y

j

Y

1=NUMERIC
2=LETTERS

Alpha characters may have bee selected by

pressing option 2.

DATE FORMAT
D=DAY M=MONTH

=YEAR

jjyy

Delete the current formatting by pressing the

Delete key.

DATE FORMAT
D=DAY M=MONTH

=YEAR

ddmmmyy

Enter the desired Date Format and notice when

the M (month) is selected the display shows

mmm. Select the appropriate key on the

keyboard by entering in the desired code. Press

the Enter key to return to the STOPPED mode.

WEEKLY DATE
1=ENABLE
2=DISABLE

The software performs a special function

allowing the user to set the current date to

change only at a certain day of the week. This

function is typically used in batch processing,

where a batch may be prepared on Sunday and

packaged from Monday through Friday of the

following week.
Entering either the current date or offset date in a message will result in the initial
date being printer for either function throughout the following week. Selecting
option 2 returns the user to the STOPPED mode.

17 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

4 – TIME FORMAT:

1= NOT AVAILABLE
2= NOT AVAILABLE
3=DATE FORMAT
4=TIME FORMAT

TIME FORMAT
H=HOURS
M=MINUTES
hh:mm

TIME FORMAT
H=HOURS
M=MINUTES
hh

Change the Time Format by selecting option 4.

NOTE: Delimiter characters like a :
code may be entered to separate fields

The factory default for time formatting is hh:mm
and may be changed as required. Press the
Delete key and the last line on the display is
erased.

Enter the desired format by pressing the H and or
M keys, and select delimiters as required. Select
H if only hours are required.
Press the Enter key to return to the STOPPED
mode.

18 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

F4 MENU

1 = LANGUAGE
2 = INK SUPPLY
3 = SET UNIT I.D.
4 = LOAD CARD

Place the unit in the Command mode and press

. The screen shown at left is produced.
Press the number that corresponds to the
parameter you wish to change.

1 - LANGUAGE:

< - - SELECT - - >

ENGLISH

mode. Whenever language is chosen, all prompts and commands shown on the
screen will be in that language.

Press and the screen will change like the
one on the left. The default language is English;
the other choice is Spanish. Scroll through the

choices using either or . Once the
desired language is shown on the screen, press

. This will return the unit to the Command

2 - INK SUPPLY:

The second line of the display shows the

REMAINING INK
100
C NEW CARTRIDGE
ANY KEY TO EXIT

When a C is entered the system automatically profiles the operating conditions
for the new cartridge.

Each cartridge is tested and profiled at the factory eliminating the burden of
personalizing each cartridge by the user. There are a number of tasks associated
with print cartridge profiling, as each print cartridge differs from another. The
correct drive voltage, pulse width timing and pre-fire pulse warming must be
calculated for optimum operation.

percentage of ink remaining in the print
cartridge.
Each time a new cartridge is installed the user
must reset the system ink gauge by pressing the

C key.

NOTE: USING NON-AUTHORIZED CARTRIDGES MAY
PRODUCE UNDESIRABLE RESULTS

19 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

3 – SET UNIT I.D.:

< - - SELECT - - >
SET HEAD # = 1

when adding multiple print carriages to affix a label indicating the unique
ADDRESS number of the individual carriage.

Each print carriage can contain a unique address
to distinguish multiple carriages when controlled
by a single hand held controller or computer data
link using an RS485 data link. The default for each
new print carriage module is ADDRESS 1.
Addresses can range from 1 to 32. It is advisable

Note: To program a carriage it must be connected directly to the
hand held controller, with no other carriages connected.

20 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

4 – LOAD CARD:

LOADING FONTS (MENU SELECT 1)

EXECUTE LOADER
1=LOAD FONTS
2=LOAD LOGOS
3=LOAD OPTIONS

LOAD FONT
1= LOAD DEFAULTS
2= LOAD ALTERNATE

LOAD RESULTS
PLEASE WAIT

MEMORY ERROR
NO FLASH CARD

ANY KEY TO EXIT

LOAD RESULTS
2 LINE fontname
1 LINE fontname
ANY KEY TO EXIT

LOAD RESULTS
2 AF fontname
1 AF fontname
ANY KEY TO EXIT

NOTE: when optional fonts are loaded into the system the Data Flash Card
is encoded with the serial number of the unit and is valid only for the unit in
which the fonts were loaded.

The user can replace the existing FONT, add up
to six logos, or load optional software from a
Data Flash card, which is plugged into the top of
the print carriage. Select 1 to load a different
font to replace the current system font.

The screen to the left will appear and after a few
seconds a result will be displayed to indicate
NOTHING LOADED or the name of the newly
loaded font, logos or software upgrades.

To load or replace the current LOGOS in the
system press the key. Similar to loading

FONTS the screen at the left will appear
indicating the load results.

This screen will be displayed if the data flash
card is either not present or cannot be read.

CHECK THAT THE DATA FLASH CARD IS
PROPERLY INSTALLED

A successful load will display the current font
names loaded into the print head. This screen
will be displayed when the default fonts are
loaded.

When loading alternate fonts the AF will replace
LINE for the alternate font or fonts loaded.

21 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

LOADING LOGOS (MENU SELECT 2)

EXECUTE LOADER
1=LOAD FONTS
2=LOAD LOGOS
3=LOAD OPTIONS

The user can replace the existing FONT, add up
to six logos, or load optional software from a Data
Flash card, which is plugged into the top of the

print carriage. Select to load logos into the
print head.

EXECUTE LOADER
PLEASE WAIT

MEMORY ERROR
NO FLASH CARD

ANY KEY TO EXIT

This screen will be displayed if the data flash card
is either not present or cannot be read.

CHECK THAT THE DATA FLASH CARD IS
PROPERLY INSTALLED

LOAD RESULTS
2 LINE 1 2 3
1 LINE 1 2 3
ANY KEY TO EXIT

Displaying the number of logos as indicated in the
pictorial indicates successful loading.
The display indicates the number of logos loaded
for the 1 line or 2 line mode.

LOADING OPTIONS (menu select 3)

EXECUTE LOADER
1=LOAD FONTS
2=LOAD LOGOS
3=LOAD OPTIONS

Optional software may be added via Data Flash
Card to the basic unit to add features.

NOTE: when optional software is loaded into the system the Data Flash
Card is encoded with the serial number of the unit and is valid only for the
unit in which the software was loaded.

CONTROLLER 1.06
PRINTER 2.08K ++++
PRINTER SN284955
ANY KEY TO EXIT

Verify system information by pressing the V key
on the hand held controller keyboard. The LCD
screen will display the software, firmware, serial
number and options enabled. Enabled options
are indicated on the second line as a series of +
characters where the first + indicates option

pack 1, the second + indicates option pack 1.5 the third is option pack 2 and the
last + indicates option pack 3.

22 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

NOTE: THE FIGURE BELOW SHOWS THE CORRECT
ORIENTATION FOR INSERTING THE DATA FLASH CARD.

INSERT THE DATA FLASH CARD INTO THE
SLOT PROVIDED AT THE TOP OF THE PRINT
CARRIAGE AS SHOWN. NOTE THE
ORIENTATION OF THE LABEL ON THE CARD.
PRESS THE CARD COMPLETELY INTO THE
SLOT. THE CARD SHOULD BE REMOVED
AFTER USE AND STORED IN A SAFE PLACE.
ONCE LOADED (FONTS & OPTIONS) THE CARD
IS SECURITY LOCKED WITH THE SERIAL
NUMBER OF THE PRINTER CARRIAGE AND
WILL NOT OPERATE IN ANOTHER PRINT
CARRIAGE.

NOTE:
There are four fonts loaded into the EVOLUTION II printer
at any one time. Loading a new font will overwrite the existing
font or fonts. Print starts at the bottom nozzle of the print head
(dot 150 for line 2) and at the middle of the print head (dot 75 line

1). The printer is shipped with a 1/2” font, a 7/32” font, a 1/8” font
and a 3/32” font. The 1/2” font may be replaced with other than a
1/2” tall character. Alternate fonts that are loaded replace the
existing fonts. Inserting a data flash card containing alternate
fonts and cycling the power will temporarily use the alternate
fonts on the data flash card until the card is removed and either
the power is cycled or the print station is set to the STOPPED
mode. This eliminates the need to load the alternate font using
the LOAD CARD option.

23 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

SETTING PRINT DELAY AND LINE SPEED

LINE SPEED – This setting adjusts the width of the printer message on the

product. This setting should be adjusted to produce the desired print on the
product. Line speed can be increased or decreased to stretch or compress the
message to fit the desired print area.

PRINT DELAY – This setting adjusts the location of the printed message on the
product.

EV2 STOPPED
HD1- - >SPEED=100

EVOLU

EV2 PRINTING
HD1- - >SPEED=100

EVOLU

Access to these parameters is possible when the
unit is in either the STOPPED or PRINTING mode
as shown to the left.

Pressing the delay key allows the user to
determine the amount of print delay. Each count at
a normal aspect ratio is approximately 0.060”. This
will vary according the amount of compression or
expansion used.

SETTING LINE SPEED

Normally, the system will be set to use the internal

< - - SELECT - - >
LINE SPEED = 100

time base for line speed control. The default value is
100, which creates a normal width character on a
line moving at 100 ft per min. The print can be
narrowed by increasing the number and widened by

parameter. Once pressed, a new screen appears, as shown to the left.
Changes can now be made by using or . The range of values for

character width is 1 to 200. Once the desired number is chosen, press
save your entry.

< - - SELECT - - >
ENCODER DIV = 4

24 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

decreasing the number. Pressing accesses this

to

If external encoder is enabled and the unit is in the
PRINTING mode the user has the option of
adjusting the compression ratio of the printer

message. Changes may be made by using or

. Once the desired number is chosen, press

to save your entry.

SETTING PRINT DELAY

EV2 STOPPED
HD1- - >SPEED=100

EVOLU

Print delay is used to position a message on the
product at a location other than at the leading edge.

Access this parameter by pressing on the
keypad.

NOTE: This parameter may be set when the unit is either in the PRINTING
or STOPPED mode

EV2 PRINTING
HD1- - >SPEED=100

EVOLU

To change the value use either or . The
range of values for this parameter is 1 to 255. Each
increment represents 18 columns, approximately

< - - SELECT - - >
PRINT DELAY= 100

.053” (1.35mm). Therefore, a delay of 255 would
approximate 13.46” (342mm). Once a number is

chosen, press to save the entry.

NOTE: THE DIMENSION INDICATED IS WHILE PRINTING A PERFECT
ASPECT RATIO CHARACTER. WHEN PRINTING A COMPRESSED OR
EXPANDED CHARACTER THE ACTUAL DIMENSIONAL NUMBER WILL BE
DIFFERENT BUT CAN BE ESTIMATED BASED ON THE 18 COLUMNS PER
COUNT.

NOTE: Setting the line speed first, then adjusting the print delay may prove
to be the best starting point

SETTING HEAD ALIGNMENT

Aligning the vertical print for messages in multiple

< - - SELECT - - >
HEAD ALIGN = 0

head alignment. Valid selections are from 0-16.

print heads is fine-tuned with an additional feature
found in either the PRINTING or STOPPED mode.
Pressing the letter O on the keyboard accesses
this feature.
A count of 0 disables this feature while using the
arrow keys allows the user to fine-tune the print

25 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

INPUT, EDIT OR DELETE MESSAGES

EV2 STOPPED
HD1- - >SPEED=120

EVOLU

MESSAGE ENTRY
FONT 1 LINE

EVOLU

MESSAGE ENTRY
FONT 1 LINE

MESSAGE ENTRY
FONT 1 LINE

To input, delete or edit a message, the unit must be
in the STOPPED Mode. If the LCD reads
PRINTING, press . The screen should be
similar to the one shown at the left.

Enter the Message Entry mode by pressing .
The top portion of the screen will change as shown
on the left.

The user has two options to edit or change a
message. If a new message is to be entered press
the key to delete the entire existing message.

For example, to produce a single line of 1 LINE.
Press the font key until the 1/2 “ font size
is shown, and enter EXP followed by the

key. This enters the DATE OFFSET as

.DD.DY

MESSAGE ENTRY
FONT 2 LINE
BEST BY
EXP 12/01/2004

defined in the F1 menu.

To place two lines use the to select 2 LINE size.
Press the
Press the to select which line the data
will be entered on. Enter BEST BY. The pictorial at
the left shows two lines of 2 LINE character size. To

key to delete the entire message.

STOPPED
HD1- - >SPEED=120
BEST BY
EXP 12/01/2004

AN EXPIRATION DATE.

26 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

enter and print only 1 line of 2 LINE select the line
and enter data to that line only.
Once the message line(s) is complete, save the
change by pressing .

NOTE: USE THE DATE OFFSET KEY TO ENTER

MESSAGE ENTRY
FONT 1 LINE
BEST BY
EXP 12/01/2004

MESSAGE ENTRY
FONT 1 LINE
BEST BY
EXP

MESSAGE ENTRY
FONT 1 LINE
BEST BY
EXP 12/31/2004

MESSAGE ENTRY
FONT 1 LINE
BEST BY
EXP 12/01/2014

< - - SELECT - - >
!#$&( )*+=¢ŇẾỖ

EV2 STOPPED
HD1- - >SPEED=120
BEST BY
EXP 12/01/2014

to the Command mode.

The second option is to replace characters by using
the key or moving the cursor over a character to

be replaced. When the MESSAGE ENTRY mode is
entered the cursor is placed at the end of the line.

Pressing the key will delete the last character on
the line. Successive ’s will continue to delete the

last character on a line.
At the left the characters 12/01/2004 were deleted..

Enter the correct data, in this case 12/31/2004.
.

The alternative approach if just a few characters are
to change is to use the or to place the cursor

over the characters to be changed and retype the
correct characters. . In this example the 12/31/2004
WAS CHANGED TO 12/31/2014.

Symbols are inserted by pressing . When in
Message Entry mode, position the cursor where a

symbol is needed and press . The screen will
show a line of symbols as presented on the left.

Position the cursor by pressing
special character to be inserted and press .

Continue to build the message or press

or on the

to return

EVOLUTION II messages may contain up to 4 lines of text.
Selecting multiple message lines is accomplished by pressing
the font key until the appropriate line designation is displayed.
NOTE: barcodes may only be used in the 1 or 2 line mode.
Smaller barcodes are generally un-useable under 7/32”.

27 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

MESSAGE ENTRY

- - - - FONT- 1 LINE

Enabling variable field programming requires the
use of the special function keys.

MESSAGE ENTRY

- - - - FONT- 1 LINE
DM/DD/DY

MESSAGE ENTRY

- - - - FONT- 1 LINE

HH:MM

MESSAGE ENTRY
#### FONT- 1 LINE

0000

To enter a date that automatically changes use

the key. The current date format as set in the
F3 menu is entered into the message.

To enter a time that automatically changes use the

key. The current date format as set in the F3

menu is entered into the message.

Sequence numbers may be added to a message

with the key. Note when the key is

depressed the four ---- are changed to ####
indicating a sequence number field. After entering

MESSAGE ENTRY

- - - - FONT- 1 LINE

0000

MESSAGE ENTRY
< < < < FONT- 1 LINE

DM.DD.

MESSAGE ENTRY

- - - - FONT- 1 LINE

S

the correct sequence number press the key
to terminate the sequence field. The maximum
number of digits allowable is 9 numeric
characters.

Date offset codes are entered by using the
key.
The correct date offset format as defined in the F3
menu is entered into the message with the

key to enter a shift code.
Shift codes are defined in the F3 menu and will
automatically change at the appropriate shift
times. The shift designator S is displayed to
indicate the data entry.

28 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

SEQ. NUMBER

Y

1= COUNT UP
2= COUNT DOWN

CLEAR SEQ# FIELD

ES OR NO Y/N

COUNTER LIMIT

ANY CHANGES Y/N
ENTER #000000000

COUNTER LIMIT

ANY CHANGES Y/N
ENTER #000005000

Sequence number format is programmable in the
STOPPED mode. The counter may be set to
count either up or down by selecting number 1 or

2. Pressing enter advances the user to the next
menu prompt.

Clearing the sequence field resets the counter to
their initial settings.

The next prompt allows for changes in the
sequence limit field. Selecting Y allows the user to
enter the desired maximum (minimum for down
count) count. Digits are enter via the keyboard
right justified. As an example to set a maximum
count of 5000 enter 5000. Pressing the DEL key
allows for re-entry while pressing the ENTER key
returns the user to the STOPPED mode.

29 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

Moving the cursor back over the various characters contained in the message
may be used to validate the message. Note that the field designator will normally
appear as - - - - indicating an alpha/numeric code as would be seen by moving
the cursor under the M F G or the E X P on the second line. The same
designator will be seen when the cursor is placed under any non-changeable
field including the space character.
Moving the cursor under a variable programmable field will display the correct
field designator in place of the - - - - alpha/numeric designator.

MESSAGE ENTRY

- - - - FONT- 3 LINE
BATCH 3FT4E
MFG DM/DD/DY HH:MM
EXP DM.DD.DY S 0009

The various field designators displayed are:

- - - - Alpha/Numeric non-changeable data
# # # # Sequence number field
< < < < Shift code field
OM Offset date month field
OD Offset date day field
OY Offset date year field
DM Current date month field
DD Current date day field
DY Current date year field
TH Current time hour field
TM Current time minute field

For example, moving the cursor under the S (shift
code) on the second line would display the field
designator as < < < <

NOTE: ONLY 15 OBJECTS ARE PERMITTED ON A PARTICULAR
LINE. IN THE ABOVE EXAMPLE THE FIRST LINE OF DATA MFG
DM/DD/DY HH:MM CONTAINS 10 OBJECT FIELDS. FOR
PURPOSES OF CLARITY THE SPACE CHARACTER IS SHOWN
AS THE UNDERLINE _ CHARACTER
WHERE:

MFG_ = ALPHA/NUMERIC FIELD
DM = DATE MONTH FIELD
/ = ALPHA/NUMERIC FIELD
DD = DATE DAY FIELD
/ = ALPHA/NUMERIC FIELD
DY = DATE YEAR FIELD
_ = ALPHA/NUMERIC FIELD
HH = TIME HOURS FIELD
: = ALPHA/NUMERIC FIELD
MM = TIME MINUTES FIELD

30 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

The above constitutes 10 object fields. Even though there are 48
characters permitted per line data entry will be inhibited when

th

the 15

object is entered, although the last field, if it is an
alphanumeric object, may contain enough characters to meet
the 48-character limit.
Barcodes are also an object field and must be considered when
entering a message. Thus a barcode with an imbedded
sequence number is counted as two objects.

31 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

MESSAGE ENTRY

- - - - FONT- 1 LINE
CODE 128C
12345

MESSAGE ENTRY

- - - - FONT- 1 LINE
CODE 128C

may contain Alpha and Numeric characters, code dependent.
The barcode types are selected from the STOPPED screen and press the key,
and select menu option 4.
Entering a sequence number within a barcode requires a specific sequence of
operations that must be adhered to:

1. ENTER THE BARCODE FIELD BY PRESSING THE key.

2. ENTER ANY CHARACTERS REQUIRED PRIOR TO SEQUENCE
NUMBER

Barcode fields may be entered by pressing the

key while in the MESSAGE ENTRY mode.
The barcode insignia is indicated following the font
style and the code type is displayed on the third
line of the display. When the barcode entry is

completed press the key to end the barcode
field entry. The software checks that the data
entered is valid according to the barcode type
selected. If the barcode entered is valid the
system re-displays the barcode with a series of
lined overlaying the barcode field. Barcode fields
may contain a sequence number if the specified
code permits such a function. Codes therefore

3. PRESS THE SEQUENCE NUMBER KEY TO BEGIN THE FIELD

4. ENTER THE APPROPRIATE SEQUENCE NUMBER

5. PRESS THE SEQUENCE NUMBER KEY TO END THE FIELD

6. ENTER ANY CHARACTERS REQUIRED FOLLOWING THE SEQUENCE
NUMBER

7. EXIT THE BARCODE FIELD BY PRESSING THE key.

The above sequence will allow the user to imbed a sequence number into the
barcode type selected.

The system contains 8 barcode types:
CODE 39
INTERLEAVED 2of5
CODE 128B and CODE 128C
UPC A and UPC E
EAN 8 and EAN 13
Each barcode type may contain man readable characters, guard bars, and check
characters. All barcode characteristics are programmable and are controlled in
the F1 menu option select #4.

NOTE: REFER TO APPENDIX A – PRODUCING RELIABLE
BARCODES

32 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

VARIABLE FIELD FORMAT PRINTING

The EVOLUTION II printer provides the operator the capability of adding variable
fields to a message. This includes TIME, DATE, SEQUENCE, DATE OFFSET
and SHIFT CODE PRODUCT COUNT and BARCODES. Entering any of these

special fields is accomplished with the
To input, delete or edit a message, the unit must be in the STOPPED Mode. If
the LCD reads PRINTING, press . The screen should be similar to the one
shown at the left.

MESSAGE ENTRY
FONT 1 LINE
EVOLU

MESSAGE ENTRY
FONT 1 LINE

MESSAGE ENTRY
FONT 1 LINE

DD/DY

MESSAGE ENTRY
FONT 1 LINE
HH:MM

MESSAGE ENTRY
####FONT 1 LINE
0000

Enter the Message Entry mode by pressing .
The top portion of the screen will change as shown
on the left.

The user has two options to edit or change a
message. If a new message is to be entered press

the key to delete the entire existing message.

The following applies to either a 1, 2, 3 OR 4 line
message.

To enter a DATE CODE depress the key. The
currently formatted date code as preset under the
F3 menu, is inserted into the message.
Note: the current format is displayed as mm for
month, dd for day and yy for year

To enter a TIME CODE depress the
currently formatted time as preset under the F3
menu, is inserted into the message.
Note: the current format is displayed as hh for
hours, and mm for minutes

To enter a SEQUENCE NUMBER depress the

key. Enter the correct number of digits required

keys.

key. The

EV2 STOPPED
HD1- - >SPEED=120
DD/DM/

33 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

the depress the
number field . Note during this operation the ####
displayed next to the FONT 1 LINE indicating a
sequence number field.

Press the
return to the STOPPED MODE.

key to end MESSAGE EDIT and

again to end the sequence

MESSAGE ENTRY
FONT 1 LINE
EVOLU

MESSAGE ENTRY
FONT 1 LINE

Enter the Message Entry mode by pressing .
The top portion of the screen will change as shown
on the left.

The user has two options to edit or change a
message. If a new message is to be entered press

the key to delete the entire existing message.

To enter a DATE OFFSET CODE depress the

MESSAGE ENTRY
FONT 1 LINE
DD.DY

key. The currently formatted date offset code
as preset under the F3 menu, is inserted into the
message. The correct number of days to offset are
set under the F1 menu.

MESSAGE ENTRY
FONT 1 LINE

mm.dd.yys

Endering a SHIFT CODE is accomplished by

pressing the key. Shift codes are set under
the F3 key. The correct alpha/numeric character
preset is added to the message

STOPPED
HD1- - >SPEED=120

mm.dd.yys

Press the key to end MESSAGE EDIT and
return to the STOPPED MODE.

NOTE: Variable field data can be entered
anywhere within the message and will be
automatically updated at the beginning of each
new print cycle

MESSAGE ENTRY
FONT 1 LINE

mm.mm.yys

Adding a special character or LOGO is
accomplished by pressing the S! or S2 keys and
selecting the appropriate special symbol or stored
logo.

Press the S1 key and position the cursor just prior to

MESSAGE ENTRY
FONT 1 LINE

mm.mm.yys#L’

the desired character and press the key. In this
case the # character was selected. To add a stored
LOGO press the S2 key and scroll through the list of

stored logos and press the key. The logos are
displayed by the L character. Each logo will have an

L and 1,2 or 3 imbedded ‘ to indicate the logo selected.

34 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

PASSWORD PROTECTION

Y

The printer contains a password function

PASSWORD XXXXX

ENABLE PASSWORD

ES OR NO Y/N

PASSWORD XXXXX

will not allow message editing without the entry of the password.

designed to limit access to the edit menu and
prevent unauthorized changing of message
lines. To activate this function, switch the unit

off, then press and hold while switching the
unit on. The display changes and requests the
default password (which is 12345). Enter the

12345.

The screen to the left appears and prompts the
operator or ENABLE PASSWORD
A response of N maintains the current password
and disables password protection.

If the response Y is selected the screen at the
left appears to prompt the user to enter a new
password. Enter the new 5 character password
any combination of letters and numbers may be
used. Once this has been completed, the unit

NOTE: If the new password is misplaced or forgotten, reset the
unit.

35 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

MESSAGE STORAGE
STORING A MESSAGE

MESSAGE # 1 EV2

MESSAGE # 1 EV2
PLEASE WAIT

MESSAGE # 1 EV2
MESSAGE STORED

EVOLUTION 1

The controller is able to store up to 100 system wide
programmed messages and their associated
parameters. Follow these steps to store a
message. Create the message and press .
Press . Using or , scroll to the desired

message location number.
Press a second time. This places the message
into that numeric location for recall at a later time.
Use the same procedure to overwrite an existing
stored message as well.

The LCD display will indicate that the message is
stored. The display also defines what system type
the message has been created for.

Press to exit.

NOTE: Message storage should be used after the product has been coded
satisfactorily. When a message is stored all operating parameters of the
printed code are saved. Once recalled, codes will be printed the same as
they had been before.
The controller is capable of storing up to 99 messages, and it should be
noted that all stored messages are contained in the hand held controller.

RECALLING A STORED MESSAGE

MESSAGE # 1 EV2

EVOLUTION 1

EV2 STOPPED
HD1- - >SPEED=120

EVOLUTION 1

Place the unit in “Stopped” mode and press
Use the

messages. Find the desired message and press

. That message is now displayed on the screen

ready for printing.

or to scroll through the stored

.

36 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

PART 3: MAINTENANCE PROCEDURES

SHORT PERIODS OF SHUT DOWN

When the printer has been shut down overnight, the system might require a
purge to clear out dust particles that have settled on the nozzle area during non­use. This is only necessary if there are missing dots in the printed code on
product.

STOPPED
HD1- - >SPEED=120

EVOLUTION 1

PURGING
HD1- - >SPEED=120

EVOLUTION 1

STOPPED
HD1- - >SPEED=120

EVOLUTION 1

PRINTING
HD1- - >SPEED=120

EVOLUTION 1

To purge be sure that the unit is in the STOPPED
Mode by pressing green key. The screen

changes to STOPPED as shown to left.

Place a piece of lint free wipe (or absorbant paper)
in front of the print head and press the red .

Allow the unit to purge for several seconds. There is
an automatic shut down after 1,000 printed columns
to ensure that the print head will not be damaged. If
ink residue has solidified on the nozzle area a small
drop of water may be applied to the lint free wipe.
When purging is complete the LCD will be returned
to the STOPPED mode.

Press the green and the screen changes to
PRINTING, as shown at the left. The unit is ready
to begin coding.

1 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

LONG PERIODS OF SHUT-DOWN

When the printer is to be shut down for extended periods, or the ink cartridge
needs to be changed to insert a different color cartridge, the ink cartridge should
be removed.
Clean the print head nozzle area with a soft, lint free wipes and insure there is no
ink residue remaining on the nozzle area. Re-apply the sealing tape. The print
cartridge may be stored in a sealable plastic bag.

CAUTION: USE THE ORIGINAL SEALING TAPE SUPPLIED WITH
THE EVOLUTION II INK CARTRIDGE. DO NOT USE ANY OTHER
MATERIAL OR ANY ADHESIVE BACKED PRODUCT, AS THIS
WILL DAMAGE THE NOZZLE AREA.

2 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

PRINT CARTRIDGE MAINTENANCE

It is necessary to maintain the print cartridge free from accumulated dust and
debris. Periodically the cartridge should be removed and cleaned. This is totally
dependent on the operating environment and the average printable life of the ink
cartridge. In extremely dusty environments, this maintenance procedure may be
required regularly.

To clean the cartridge, carefully clean the face of the cartridge with a soft, lint
free wipe. Use caution in wiping the NOZZLE area so as not to scratch the face.
Always wipe in the ARRAY PLATE vertically as indicated.
Clean the CONTACT area in a similar fashion.

NOZZLES

CONTACT AREA

DIRECTION OF WIPING

3 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

NOTE:
Ingested air or severe nozzle clogs may be eliminated with the
use of the cleaning syringe/tray ordered optionally.

The photo below shows the correct procedure in using the syringe and cleaning
tray. Insert the ink cartridge into the tray and securely snap into place. Place the
tip of the syringe into the front of the tray. While holding the syringe securely in
place gently draw back on the syringe plunger until ink flows into the syringe.
Normally, it is not necessary to evacuate more than 0.1 cc of ink at a time as
indicated below. Following ink withdrawal remove the syringe carefully. Remove
the ink cartridge from the tray. Remove any remaining ink from the nozzle face
with a lint free wipe. Place a piece of clean white paper directly in front of the
print head and perform a purge function by pressing and releasing the purge key

. The key is activated on the release of the key. Swipe the paper quickly past
the print head to expand the purge pattern so the individual droplets may be
viewed.
Perform a test print and verify that all nozzles are firing correctly.

0.1 cc of ink drawn
at any one time

Scale gradation is in 1.0 cc
major increments

4 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

PRINT CARRIAGE MAINTENANCE

It is necessary to maintain the print head carriage free from accumulated dust
and debris. Periodically the print head carriage should be inspected and cleaned.
This is totally dependent on the operating environment. In extremely dusty
environments, this maintenance procedure may be required occasionally but on
average every week should be sufficient.
Remove the print cartridge and carefully inspect the print carriage C21001 for
dust and debris.
Re-insert the print cartridge and place the unit into the PRINTING mode by

pressing .

EXPLODED VIEW OF THE C21002 PRINT CARRIAGE

5 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

PART 4: TROUBLESHOOTING AND REPAIRS

A

FAULTS

This chart was created to assist the user in troubleshooting the unit. Find the
problem in the first column; apply the remedy(s) suggested in the third column.

Condition Probable Cause Remedy

LCD remains blank. No power.

Ensure the controller is securely
connected to the correct port on
the print carriage assembly

Unit does not print, although
LCD shows information.
Unit in “COMMAND”

No ink. Replace ink cartridge; reset ink

Low ink indicator on with full
ink cartridge.

Unit does not purge. Out of ink. Replace with full ink cartridge.

Unit in “PRINTING” mode

Ink cartridge clogged Clean Ink Cartridge Nozzle area

Missing one or more dots
from code.

Long down-time. Follow daily start-up procedure if

Unit loses data while printing Static electricity Eliminate source of static.

High levels of radio

Spikes in electrical line. Use AC line filter

No message in unit Input your message (see pages

2-18).
Press .

mode.

volume parameter (press
and follow the sequence.

Did not reset ink volume
parameter.

No ink. Clean or Replace cartridge and

frequency.

Press . Continue key
entry following menu prompts.

Reset ink volume parameter
(press ).

Press Stop Print.

with lint free wipe

purge system (press

your line experienced a long
down time.

ttach ground strap between
print head and low impedance
earth ground.
Move unit to an alternate
location or attach ground strap
as above.

).

1 EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006

PART 5: PARTS LIST AND OPTIONS

Part No. Description

C21001-1

SPARE PARTS

EVOLUTION II Controller Cabinet
C21001-2
C21001-3

C30238

C21002
C21002-7

C21002-8
C21005

C21000-2

96280-01 Floor stand
C21003 Top Coding Mounting Bracket
C21006 External Product Detect
C21007 External Encoder

C21012 Optional Junction Box
EV1-FONT Alternate Font (Specify when ordering)

EV1-LOGO Logo Option (Specify when ordering)

EVOLUTION II Controller LCD Assembly

EVOLUTION II Controller PCB Assembly

EVOLUTION II Controller Keypad

EVOLUTION II Print Head Carriage Assembly

EVOLUTION II Print Head Carriage CPU Assembly

EVOLUTION II Print Head Carriage POGO Assembly

EVOLUTION II Mounting Bracket Assembly

EVOLUTION II Power supply

OPTIONS

C21008-1
C21008-3

C21008-10
C21008-25
C21008-50
C21008-100

CABLES

EVOLUTION RJ50 Cable 6 INCH

EVOLUTION RJ50 Cable 3 Feet

EVOLUTION RJ50 Cable 10 Feet

EVOLUTION RJ50 Cable 25 Feet

EVOLUTION RJ50 Cable 50 Feet

EVOLUTION RJ50 Cable 100 Feet

INKS

4500BK6 6 Pack of Black Ink Cartridges
4500RD6 6 Pack of Red Ink Cartridges
4500GR6 6 Pack of Green Ink Cartridges
4500BL6 6 Pack of Blue Ink Cartridges

EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006 1

4500YW6 6 Pack of Yellow Ink Cartridges
4500CY6 6 Pack of Cyan Ink Cartridges
4500UV6 6 Pack of Ultra Violet Ink Cartridges

4600BK6 6 Pack of Black Ink Cartridges (SEMI-POROUS)

EVOLUTION 1 SYSTEM MANUAL Issue 1.1 20 Dec 2006 2

PART 6: COMMUNICATIONS PROTOCOL

This communication protocol covers all EVOLUTION
products. Some commands are not applicable to
certain units, and care must be taken in determining
what valid commands are for a specific unit.
Commands that reference specific units are so noted.

ASCII CHARACTER CHART

0 1 2 3 4 5 6 7 8 9 A B C D E F
0 NUL SOH STX ETX EOT ENQ ACK BEL BS HT LF VT FF CR SO SI
1 DLE DC1 DC2 DC3 DC4 NAK SYN ETB CAN EM SUB ESC FS GS RS US
2 SP ! " # $ % & ' ( ) * + , - . /
3 0 1 2 3 4 5 6 7 8 9 : ; < = > ?
4 @ A B C D E F G H I J K L M N O
5 P Q R S T U V W X Y Z [ \ ] ^ _
6 ` a b c d e f g h i j k l m n o
7 p q r s t u v w x y z { | } ~ DEL

1 EVOLUTION 1 SYSTEM MANUAL Issue Issue 1.1 20 Dec 2006

DESCRIPTION

This communication protocol is based on Version 1.4, which was released NOV
2005 and is used with all EVOLUTION products. The communications option
converses with a host computer via an RS485 data link.

NOTE: EACH REQUEST OR COMMAND SENT TO A PRINT STATION
RECEIVES A RESPONSE FROM THAT PRINT STATION. COMMUNICATIONS
SOFTWARE MUST WAIT FOR A RESPONSE TO DETERMINE IF THE PRINT
STATION WAS READY TO ACCEPT THE COMMAND, AND THE DATA WAS
VALID AND PROCESSED. NO RESPONSE COULD INDICATE THE DATA
WAS LOST. IF AN ERROR WAS DETECTED IN PROCESSING A NAK WITH
AN ERROR CODE IS RETURNED.

DATA WORD DEFINITION

Full Duplex
7 Data Bits
1 Even Parity Bit
1 Start Bit
1 Stop Bit

BAUD RATE

115,200 Bits per second

DEFINITIONS

Q=QUERY TO HEAD
R=RESPONSE FROM HEAD
D=DATA UPDATE TO HEAD
X=ACK FROM HEAD
‘!’=ASCII CHARACTER OR CHARACTERS

0x21 HEX DATA EQUIVELENT
ADDRESS= TWO ASCII REPRESENTATIONS OF HEX CHARACTERS

`x`|`y` TWO ASCII CHARACTERS REPRESENTING THE UPPER AND LOWER

NIBBLE OF A HEXADECIMAL BYTE WHERE X IS THE UPPER NIBBLE AND

Y IS THE LOWER NIBBLE
FOR EXAMPLE:
TO SEND A SPEED OF 165 FEET PER MINUTE SEND – ASCII :

WHICH WOULD BE 0x3A AND 0x35 HEXADECIMAL

TO SEND A DELAY OF 30 SEND – ASCII 3

WHICH WOULD BE 0x33 AND 0x30 HEXADECIMAL

AND ASCII 0

AND ASCII 5

CABLING FOR EVLINK ENVIRONMENT

C20552 RS232C to RS485 converter module
C20551 Cable from PC to RS485 converter module
C21008-xxxx Cable (define length) from EVOLUTION units to RS485 data link
C21009 Termination plug for RS485 data link

2 EVOLUTION 1 SYSTEM MANUAL Issue Issue 1.1 20 Dec 2006

HARDWARE INTERFACE

When connecting multiple print carriages via an RS485 link, input and output
connectors are provided on the print station, which allows the cabling to be daisy
chained. NOTE: It is important to remember to set each of the print stations to a
unique address.

PHYSICAL CONNECTIONS RS485 PRINT CARRIAGE

Pin # 4 = Receive +
Pin # 5 = Receive ­Pin # 6 = Transmit +
Pin # 7 = Transmit ­Pin # 9 = Ground

Note: At the end of the data link a termination plug is installed to balance the
RS485 data link-connecting pin 4 to pin 5 and pin 6 to pin 7 with120-ohm.

PROTOCOL FORMAT:

Host request for information;
ESC|Command|SOH|EOT (Single End Host to 1 printer)

Or

ESC|STX|Address|Command|SOH|EOT (Multiple printers)

Host sending new information;
ESC|Command|Data|EOT (Single End Host to 1 printer)

Or

ESC|STX|Address|Command|Data|EOT (Multiple printers)

EVOLUTION PRINTABLE CHARACTER SET

A B C D E F G H I J K L M N O P Q R S T U V W X Y Z
0 1 2 3 4 5 6 7 8 9
Special Symbols:
ASCII Character
Space (0x20) Space
! (0x21) Hour Glass
# (0x23) #
$ (0x24) $
& (0x26) &
( (0x28) (
) (0x29) )
* (0x2a) *
+ (0x2b) +

- (0x2d) ­ . (0x2e) Period
= (0x3d) =
: (0x3a) :

Hexadecimal Prints As

3 EVOLUTION 1 SYSTEM MANUAL Issue Issue 1.1 20 Dec 2006

/ (0x2f) /
" (0x22) Cents
% (0x25) Solid block
; (0x3b) Ň
? (0x3f) Ě
@ (0x40) Ó
{ (0x7b} Logo 1
| (0x7c) Logo 2
} (0x7d} Logo 3

SOFTWARE PROTOCOL

In the following pages, all references to characters or digits pertain to the
standard ASCII character set. The bar (|) character is used as a field separator
and it is not part of the transferred data. When data is shown in hexadecimal, it
will consist of the hex number preceded by a 0x, for example (0x1B). Generally,
all packets to and from a print station begin with an ESC (0x1B) and terminate
with an EOT (0x04).
There are two types of commands:
Downloading information to the print station
Requesting information from the print station.
To distinguish the two types of commands, a SOH (0x01) is placed after the
command byte in a request command string. The following illustrates this
concept:
To download data to print station
ESC/GROUP ADDRESS/UNITADDRESS/COMMAND/DATA/EOT

To request data from the Print Station

ESC/GROUP ADDRESS/UNITADDRESS/COMMAND/SOH/EOT

NOTE: EACH REQUEST OR COMMAND SENT TO A PRINT STATION
RECEIVES A RESPONSE FROM THAT PRINT STATION. COMMUNICATIONS
SOFTWARE MUST WAIT FOR A RESPONSE TO DETERMINE IF THE PRINT
STATION WAS READY TO ACCEPT THE COMMAND, AND THE DATA WAS
VALID AND PROCESSED. NO RESPONSE COULD INDICATE THE DATA
WAS LOST. IF AN ERROR WAS DETECTED IN PROCESSING A NAK WITH
AN ERROR CODE IS RETURNED.

ERROR CODES

Commands to a print station, if completed successfully, return a single byte
response of an ASCII ACK (0x06). If the command was not successful, a two­byte response of an ASCII NAK (0x15) is returned, followed by an error code.
Below is a list of the returned error codes.

NAK 1 = NOT USED
NAK 2 = Illegal Command Byte
NAK 3 = NOT USED
NAK 4 = NOT USED
NAK 5 = Trying to write a read only register

4 EVOLUTION 1 SYSTEM MANUAL Issue Issue 1.1 20 Dec 2006

NAK 6 = Print station buffer full must print before next download to clear

buffer.
NAK 7 = NOT USED
NAK 8 = NOT USED

5 EVOLUTION 1 SYSTEM MANUAL Issue Issue 1.1 20 Dec 2006

COMMANDS:
'!' 0x21 Software Version (read only)

(EV I, EV II, EV SC)

Q. ESC|STX|Address|`!`|SOH|EOT
R. ESC|STX|Address|{PRINTER fffffssss}|CR|EOT
Where:

PRINTER= ASCII string PRINTER for EVOLUTION I
EV2 for EVOLUTION II
EVSC for EVOLUTION SC

fffff = Software and Firmware versions

(eg. 2.02H indicates version 2.02 with Firmware version H)
ssss = Optional Software loaded
Where: (for EV I only)
The first y indicates option pack 1
The second y indicates option pack 2
The third y indicates option pack 1.5
The last y is reserved for future expansion
Where: (for EV II and EV SC)

Both units are standard with all options thus a ++++ will be
returned

'#' 0x23 Printer Configuration (Read only)

(EV I, EV II, EV SC)

Q. ESC|STX|Address|`#`|SOH|EOT
R. ESC|STX|Address|`#`|`x`|`y`|EOT
Where Byte x Bits 3,2,1,0
Bit 3 = if 1 Cartridge Not Valid
Bit 2 = Not Used
Bits 1,0 = System Type
11 = Evolution 1
10 = Evolution 2
01 = Evolution 3
00 = Evolution Small Character
Where Byte y Bits 3,2,1,0
0000 = no options available
0001 = option1 enabled
0010 = option2 enabled
0100 = option3 enabled

'\' 0x5c Unit Serial Number (Read only 6 digits)

(EV I, EV II, EV SC)

Q. ESC|STX|Address|`\`|SOH|EOT
R. ESC|STX|Address|`\`|`serial number`|CR|EOT

6 EVOLUTION 1 SYSTEM MANUAL Issue Issue 1.1 20 Dec 2006

'l' 0x6c Special Field Flags

(EV II, EV SC AND EVI WITH OP1 AND ABOVE)

Q. ESC|STX|Address|`l`|SOH|EOT
R. ESC|STX|Address|`l`|`x`|`y'|EOT
Where: x defines bits 7,6,5,4
Bit 7 = don’t care
Bit 6 = dont care
Bit 5 = 1 = No guard bars
Bit 4 = 1 = Man read added to barcode
Where: y defines bits 3,2,1,0
Bit 3 = 1 = Bar checksum added to barcode
Bit 2 = 0 = Calendar will only change on 1st day of week
Bit 1 = 1 = Day of the week is alpha
Bit 0 = 1 = counting down

D. ESC|STX|Address|`l`|`x`|`y`|EOT
X. ESC|STX|Address|`l`|ACK|EOT

'8' 0x38 Control Flags

(EV I, EV II, EV SC)

Q. ESC|STX|Address|`8`|SOH|EOT
R. ESC|STX|Address|`8`|`x`|`y`|EOT
Where: x defines bits 7,6,5,4

Bit 7 1 = Head busy printing message

Bit 6 1 = Print image inverted

Bit 5 1 = Head busy manual cycle
Bit 4 1 = Head busy purging
Where: y defines bits 3,2,1,0
Bit 3 1 = External Encoder
Bit 2 1 = External Product Detect
Bit 1 1 = Direction forward

Bit 0 1 = Enable print mode

D. ESC|STX|Address|`8`|`x`|`y`|EOT
X. ESC|STX|Address|`8`|ACK|EOT
Where: x defines bits 7,6,5,4

Bit 7 Don't Care
Bit 6 1 = Print image inverted
Bit 5 Don't Care
Bit 4 Don't Care
Where: y defines bits 3,2,1,0

Bit 3 1 = External Encoder
Bit 2 1 = External Product Detect
Bit 1 1 = Direction forward
Bit 0 1 = Enable print mode

7 EVOLUTION 1 SYSTEM MANUAL Issue Issue 1.1 20 Dec 2006

‘G’ 0x47 Errors (note: error codes must be reset)

(EV I, EV II, EV SC)

Q. ESC|STX|Address|`G`|SOH||EOT
R. ESC|STX|Address|`G`|'x`|`y'|EOT
Where: x defines bits 7,6,5,4
Bit 7 = UART Overrun Error
Bit 6 = Communication Overrun Error
Bit 5 = UART Framing Error
Bit 4 = UART Parity Error
Where: y defines bits 3,2,1,0
Bit 3 = Font checksum error loading from card to chip
Bit 2 = Font 1 checksum error in Ram
Bit 1 = Font 0 checksum error in Ram
Bit 0 = Real Time Clock Memory error

TO RESET ERROR CODES

D. ESC|STX|Address|`G`|'x`|`y'|EOT
same bit positions as above
use only as a mask to clear error bits.
i.e. x = 0001 and y = 0001 clears real time clock memory
error and UART parity error.
X. ESC|STX|Address|`G`|ACK|EOT

'R' 0x52 Head Status (read only)

(EV I, EV II, EV SC)

Q. ESC|STX|Address|`R`|SOH|EOT
R. ESC|STX|Address|`R`|`x`|`y`|EOT

Where: x defines bits 7,6,5,4
Bit 7 = Not Used
Bit 6 = Latched eye active
Bit 5 = Unfiltered eye active
Bit 4 = Product being printed

Where y defines bits 3,2,1,0
Bit 3 = auto repeat print gap active
Bit 2 = Not Used
Bit 1 = Input buffer Line 2 full
Bit 0 = Input buffer Line 1 full

'B' 0x42 Set Unit Address (Write Only)

(EV I, EV II, EV SC)

D. ESC|STX|Address|`B`|`x`|`y`|EOT
X. ESC|STX|Address|`B`|ACK|EOT
Where x y = 8 bit unit address
i.e. x = 0x31 & y = 0x35 yields unit address 15

8 EVOLUTION 1 SYSTEM MANUAL Issue Issue 1.1 20 Dec 2006

'1' 0x31 Auto Repeat Inter-print delay (Range 0 - 255)

(EV II, EV SC AND EVI with any option pack)

Q. ESC|STX|Address|`1`|SOH|EOT
R. ESC|STX|Address|`1`|`x`|`y`|EOT

D. ESC|STX|Address|`1`|`x`|`y`|EOT
X. ESC|STX|Address|`1`|ACK|EOT
0 = Auto Repeat Disabled

Each count provides a delay equal to 16 columns for EV I and EV II.

Each count provides a delay equal to 2 columns for EV SC.

'&' 0x26 Line Speed (RANGE 10-200)

(EV I, EV II, EV SC)

Q. ESC|STX|Address|`&`|SOH|EOT
R. ESC|STX|Address|`&`|`x`|`y`|EOT

D. ESC|STX|Address|`&`|`x`|`y`|EOT
X. ESC|STX|Address|`&`|ACK|EOT

'd' 0x64 Encoder Divider (Range 0-7)

(EV I, EV II, EV SC)

Q. ESC|STX|Address|`d`|SOH|EOT
R. ESC|STX|Address|`d`|`x`|`y`|EOT

D. ESC|STX|Address|`d`|`x`|`y`|EOT
X. ESC|STX|Address|`d`|ACK|EOT

'’' 0x27 Product Delay (RANGE 1-255)

(EV I, EV II, EV SC)

Q. ESC|STX|Address|`0x27`|SOH|EOT
R. ESC|STX|Address|`0x27`|`x`|`y`|EOT

D. ESC|STX|Address|`0x27`|`x`|`y'|EOT
X. ESC|STX|Address|`0x27`|ACK|EOT

')' 0x29 Inter-Character spaces (RANGE 1-25)

(EV I, EV II, EV SC)

Q. ESC|STX|Address|`)`|SOH|EOT
R. ESC|STX|Address|`)`|`x`|`y`|EOT

D. ESC|STX|Address|`)`|`x`|`y'|EOT
X. ESC|STX|Address|`)`|ACK|EOT

9 EVOLUTION 1 SYSTEM MANUAL Issue Issue 1.1 20 Dec 2006

'>' 0x3E Head Align (Range 0 - 16) 'O' on keyboard

(EV II only)

Q. ESC|STX|Address|`>`|SOH|EOT
R. ESC|STX|Address|`>`|`x`|`y'|EOT

D. ESC|STX|Address|`>`|`x`|`y`|EOT

X. ESC|STX|Address|`>`|ACK|EOT

'4' 0x34 Sequence Number Rollover Value

(EV II, EV SC AND EV1 with version 2.09 and OP2 or 3)

Q. ESC|STX|Address|`4`|SOH|EOT
R. ESC|STX|Address|`4`|{#########}|CR|EOT

where ######### = rollover value in ascii

D. ESC|STX|Address|`4`|{#########}|CR|EOT
X. ESC|STX|Address|`4`|ACK|EOT

'[' 0x5b DATE_ROLLOVER
(EV II, EV CS AND EV1 with version 2.09 and OP2 or 3)

Q. ESC|STX|Address|`[`|SOH|EOT
R. ESC|STX|Address|`[`|`x`|`y`|`x1`|`y1`|EOT

Where:

|`x`|`y`| = Time of Day Hours

|`x1`|`y1`| = Time of Day Minutes

D. ESC|STX|Address|`[`|`x`|`y`|`x1`|`y1`|EOT
X. ESC|STX|Address|`[`|ACK|EOT

‘3’ 0X31 Days until Expiration (max 999)

(EV II, EV SC AND EVI WITH OP3)

Q. ESC|STX|Address|`3`|SOH|EOT
R. ESC|STX|Address|`3`|`aaaa`|EOT
Where: each set of 2 ASCII characters represent the upper and

lower nibble of a packed BCD byte

D. ESC|STX|Address|`3`|aaaa`|EOT
Where: each set of 2 ASCII characters represent the upper and

lower nibble of a packed BCD byte

X. ESC|STX|Address|`3`|ACK|EOT

'r' 0x52 Remaining Ink (0 to 99%)

(EV I, EV II, EV SC)

Q. ESC|STX|Address|`R` |SOH|EOT
R. ESC|STX|Address|`R`|`x`|`y`|EOT

10 EVOLUTION 1 SYSTEM MANUAL Issue Issue 1.1 20 Dec 2006

‘0’ 0x30 Shift Code (max 6 shift codes)

(EV II, EV SC AND EVI WITH OP3)

Q. ESC|STX|Address|`0`|SOH||EOT

R. ESC|STX|Address|`0`|`hh mm`|{zz}|……|CR|EOT
Where: each set of 2 ASCII characters represent the upper and

lower nibble of a packed BCD byte
…… = pattern repeat for each shift code programmed

hh = shift start hours
mm = shift start minutes
zz = shift code to print

D. ESC|STX|Address|`0`|`hhmm`|{z}|CR|EOT
Where: each set of 2 ASCII characters represent the upper and

lower nibble of a packed BCD byte
hh = shift start hours
mm = shift start minutes
zz = shift code to print
X. ESC|STX|Address|`0`|ACK|EOT

‘/’ 0x2f Product Counter (6 Digits Max)

(EV II, EV SC AND EVI WITH OP3)

Q. ESC|STX|Address|`/`|SOH|EOT
R. ESC|STX|Address|`/`|`HH MM hh mm`|{cccccc}|CR|EOT
Where: each set of 2 ASCII characters represent the upper and

lower nibble of a packed BCD byte

HH = Product counter start hours
MM = Product counter start minutes
hh = Product counter stop hours
mm = Product counter stop minutes
cccccc = counter (6 Digits Max)

D. ESC|STX|Address|`/`|`ww xx yy zz`|{cccccc}|CR|EOT
Where: each set of 2 ASCII characters represent the upper and

lower nibble of a packed BCD byte

HH = Product counter start hours
MM = Product counter start minutes
hh = Product counter stop hours
mm = Product counter stop minutes
cccccc = counter
X. ESC|STX|Address|`/`|ACK|EOT

11 EVOLUTION 1 SYSTEM MANUAL Issue Issue 1.1 20 Dec 2006

SPECIAL FIELD OBJECTS

Message Objects define special characteristics about the messages contained in
line 1 or line 2. These may define for example font size, sequence number, date
code, etc. There may be up to 15 Objects (special fields) for each line in a
message with the limitation that there can only be 1 sequence number imbedded
in a message.

'P' 0x50 Message Objects

(EV I, EV II, EV SC)

Q. ESC|STX|Address|`P`|SOH|aabb|EOT
R. ESC|STX|Address|`P`|'aa bb cc dd ee ff gggg hhhh'|EOT

Where: each set of 2 ASCII characters represent the upper and

lower nibble of a byte
aa = objects for which line 0 or 1
bb = number of objects transmitted. (Max 15)
Each object as defined by bb: (repeat the for each object)
cc = Position within message string
dd = Number of characters in object
ee = Attribute of the object
Where:
ee= 00 Normal Alpha/Numeric character
ee= 01 Time Hours
ee= 02 Time Minutes
ee= 03 Time Seconds
ee= 04 Date Month
ee= 05 Date Day
ee= 06 Date Year
ee= 07 Date Julian
ee= 08 Sequence Number (1 per message)
ee= 09 Barcode
ee= 0A Shift Code
ee= 0B Expiration Date Month
ee= 0C Alpha Date Code
ee= 0D Expiration Date Year
ee= 0E Expiration Date Julian
ee= 0F Expiration Date Day
ee= 10 Day of Week (1-7)
ee= 80 Bar Code Attribute (EV II only)

The above constitutes 10 object fields. Even though there are 48
characters permitted per line data entry will be inhibited when

th

the 15

object is entered, although the last field, if it is an
alpha/numeric object, may contain enough characters to meet
the 48-character limit.

12 EVOLUTION 1 SYSTEM MANUAL Issue Issue 1.1 20 Dec 2006

Barcodes are also an object field and must be considered when
entering a message. Thus a barcode with an imbedded
sequence number is counted as two objects.

13 EVOLUTION 1 SYSTEM MANUAL Issue Issue 1.1 20 Dec 2006

'P' 0x50 Message Objects (continued)

ff = font of object
Where: for EV I AND EV II
ff= 00 for 2 Line Font
ff= 01 for 1 Line Font
ff= 02 for 3 Line Font (EV II only)
ff= 03 for 4 Line Font (EV II only)
Where: for EVSC ONLY
ff= 00 for S5 Font
ff= 01 for S7 Font
ff= 02 for B7 Font
ff= 03 for S12 Font
ff= 04 for B12 Font

gggg = starting column of object in printed image (reserved)
hhhh = starting row of object in printed image (reserved)
D. ESC|STX|Address|`P`|`aa bb cc dd ee ff gggg hhhh`|EOT
X. ESC|STX|Address|`P`|ACK|EOT

NOTE: TO ENTER A LOGO CALLOUT INTO A MESSAGE USE
THE ACSII CHARACTERS 0x7B FOR LOGO1 0x7C FOR LOGO 2
AND 0x7D FOR LOGO 3

'$' 0x24 Line 1 Message

(EV I max 24 characters – 48 characters OP1.5, 2 or 3)
(EV II max 48 characters)
(EV SC max 96 characters)

Q. ESC|STX|Address|`$`|SOH|EOT
R. ESC|STX|Address|`$`|{message}|CR|EOT

D. ESC|STX|Address|`$`|{message}|CR|EOT
X. ESC|STX|Address|`$`|ACK|EOT

'%' 0x25 Line 2 Message

(EV I max 24 characters – 48 characters OP1.5, 2 or 3)
(EV II max 48 characters)
(EV SC max 96 characters)

Q. ESC|STX|Address|`%`|SOH|EOT
R. ESC|STX|Address|`%`|{message}|CR|EOT

D. ESC|STX|Address|`%`|{message}|CR|EOT
X. ESC|STX|Address|`%`|ACK|EOT

14 EVOLUTION 1 SYSTEM MANUAL Issue Issue 1.1 20 Dec 2006

'w' 0x77 Line 3 Message (max 24 characters)

(EV II only max 48 characters)

Q. ESC|STX|Address|`$`|SOH|EOT
R. ESC|STX|Address|`$`|{message}|CR|EOT

D. ESC|STX|Address|`$`|{message}|CR|EOT
X. ESC|STX|Address|`$`|ACK|EOT

'z' 0x7a Line 4 Message (max 24 characters)

(EV II only max 48 characters)

Q. ESC|STX|Address|`$`|SOH|EOT

R. ESC|STX|Address|`$`|{message}|CR|EOT

D. ESC|STX|Address|`$`|{message}|CR|EOT
X. ESC|STX|Address|`$`|ACK|EOT

':' 0x3A Logo1 Name (read only - max 9 characters)

(EV I, EV II)

Q. ESC|STX|Address|`:`|SOH|`x`|`y`|EOT
R. ESC|STX|Address|`:`|{logo name}|CR|EOT
Where: x = don’t care
y = Bit 0 = 0 = Logo Name in Font 0
1 = Logo Name in Font 1
Bit 1 = 0 = Get Name from on board data flash chip
1 = Get Name fro Data Flash card

';' 0x3B Logo2 Name (read only - max 9 characters)

(EV I, EV II)

Q. ESC|STX|Address|`;`|SOH|`x`|`y`|EOT
R. ESC|STX|Address|`;`|{logo name}|CR|EOT
Where: x = don’t care
y = Bit 0 = 0 = Logo Name in Font 0
1 = Logo Name in Font 1
Bit 1 = 0 = Get Name from on board data flash chip
1 = Get Name fro Data Flash card

'<' 0x3C Logo3 Name (read only - max 9 characters)

(EV I, EV II)

Q. ESC|STX|Address|`<`|SOH|`x`|`y`|EOT
R. ESC|STX|Address|`<`|{logo name}|CR|EOT
Where: x = don’t care
y = Bit 0 = 0 = Logo Name in Font 0
1 = Logo Name in Font 1
Bit 1 = 0 = Get Name from on board data flash chip
1 = Get Name fro Data Flash card

15 EVOLUTION 1 SYSTEM MANUAL Issue Issue 1.1 20 Dec 2006

'Q' 0x51 Starting Sequence Number (max. length 9 digits)

(EV II, EV SC AND EV1 with version 2.09 and after)

Q. ESC|STX|Address|`Q`|SOH|EOT
R. ESC|STX|Address|`Q`|{zzzzzzzzz}|CR|EOT

Where:

zzzzzzzzz = ASCII string which is the starting sequence

number to print.

D. ESC|STX|Address|`Q`|{zzzzzzzzz}|CR|EOT
X. ESC|STX|Address|`Q`|ACK|EOT

'2' 0x32 Date and Time Setting / Reading

(EV I, EV II, EV SC)

Q. ESC|STX|Address|`2`|SOH|EOT
R. ESC|STX|Address|`2`|`aa bb cc dd ee ff gg'|EOT

Where: each set of 2 ASCII characters represent the upper and

lower nibble of a packed BCD byte
aa= Time of Day Seconds (not used)
bb= Time of Day Minutes
cc= Time of Day Hours
dd= Day of Week
ee= Date Day
ff = Date Month
gg= Date Year

D. ESC|STX|Address|`2`|`aa bb cc dd ee ff gg'|CR|EOT
X. ESC|STX|Address|`2`|ACK|EOT

'u' 0x75 Store message in non-volatile memory (Write only)

(EV I, EV II, and EV SC)

D. ESC|STX|Address|`u`| EOT
X. ESC|STX|Address|`u`|ACK|EOT

16 EVOLUTION 1 SYSTEM MANUAL Issue Issue 1.1 20 Dec 2006

NOTE: THE FOLLOWING CODES ARE SPECIFIC TO EVOLUTION II
ONLY

' " ' 0x22 Minimum Bar Width (Range 3-15 Data matrix 2-15)

Default 5

Q. ESC|STX|Address|`"`|SOH|EOT
R. ESC|STX|Address|`"`|`x`|`y`|EOT

D. ESC|STX|Address|`"`|`x`|`y`|EOT
X. ESC|STX|Address|`"`|ACK|EOT

' .' 0x2e Bleed Compensation (Range 0 - 3) Default 0

Q. ESC|STX|Address|`.`|SOH|EOT
R. ESC|STX|Address|`.`|`x`|`y`|EOT

D. ESC|STX|Address|`.`|`x`|`y`|EOT
X. ESC|STX|Address|`.`|ACK|EOT

' * ' 0x28 Quiet Zone (Range 0 - 150) Default 75

Q. ESC|STX|Address|`*`|SOH|EOT
R. ESC|STX|Address|`*`|`x`|`y`|EOT

D. ESC|STX|Address|`*`|`x`|`y`|EOT
X. ESC|STX|Address|`*`|ACK|EOT

'n' 0x6e Type of Barcode (read only)

Q. ESC|STX|Address|`n`|SOH|EOT
R. ESC|STX|Address|`n`|`x`|`y`|EOT
where
x = number of available barcodes
y = type of barcode
0= CODE39
1= TWO OF FIVE
2= CODE 128B
3= CODE 128C
4= UPCA
5= UPCE
6= EAN8
7= EAN13
8= DATAMATRIX

17 EVOLUTION 1 SYSTEM MANUAL Issue Issue 1.1 20 Dec 2006

'?' 0x3F Barcode Name(read only)

Q. ESC|STX|Address|`?`|SOH|`x`|`y`|`x1`|`y1`|EOT
Where:

`x``y` = Barcode type as in 'n' command
`x1`|`y1` = don't care
R. ESC|STX|Address|`?`|{BARCODENAME}|CR|EOT
where BARCODENAME = Ascii name of type of barcode

'=' 0x3d Barcode Verify

D. ESC|STX|Address|`=`|`x`|`y`|{BARCODESTRING}|CR|EOT

x = don't care
y = type of barcode ( same as 'n' command)
BARCODESTRING = Barcode Ascii data
X. ESC|STX|Address|`=`|`xy`|EOT
where
if barcode verifies
ESC|STX|Address|`=`|ACK|EOT
if barcode doesn't verify
ESC|STX|Address|`=`|NAK|{9}|EOT

18 EVOLUTION 1 SYSTEM MANUAL Issue Issue 1.1 20 Dec 2006

Example written in C to query a print station to determine the line speed.

// Query Print Station Address 7 for Line Speed
putchar(0x1b); // Send out ESC
putchar(0x02); // Send out STX
putchar(0x30); // Send out upper nibble of address 07
putchar(0x37); // Send out lower nibble of address 07
putchar(0x26); // Send out a '&' command
putchar(0x01); // Send out SOH
putchar(0x04); // Send out EOT

// Get results from print station
{
unsigned char dummy,speed;

dummy = getchar(); // Get ESC
dummy = getchar(); // Get STX
dummy = getchar() << 4; // Get upper nibble of address
dummy |= getchar() & 0x0f; // Get lower nibble of address
if(dummy == our_address)
{
dummy = getchar(); // Get command
speed = getchar() << 4; // Get upper nibble of speed
speed |= getchar() & 0x0f; // Get lower nibble of speed
dummy = getchar(); // Get EOT
} else {
// error handler (not our address)
}
}

19 EVOLUTION 1 SYSTEM MANUAL Issue Issue 1.1 20 Dec 2006

Example written in C to send a line speed to a print station

// Send Print Head Address 2 Line Speed of 100 feet per minute.
putchar(0x1b); // Send out ESC
putchar(0x02); // Send out STX
putchar(0x30); // Send out upper nibble of address
putchar(0x32); // Send out lower nibble of address
putchar(0x26); // Send out '&' command
putchar(0x36); // Send out upper nibble for Line Speed 100
putchar(0x34); // Send out lower nibble for Line Speed 100
putchar(0x04); // Send out EOT

// Get results from print station
{
unsigned char dummy;

dummy = getchar(); // Get ESC
dummy = getchar(); // Get STX
dummy = getchar() << 4; // Get upper nibble of address
dummy |= getchar() & 0x0f; // Get lower nibble of address
if(dummy == our_address)
{
dummy = getchar(); // Get command
dummy = getchar(); // Get ACK for print station
if(!dummy == ACK)
{
// error handler (didn't get acknowledgement from printer)
} else {
dummy = getchar(); // Get EOT
}
} else {
// error handler (not our address)
}
}

20 EVOLUTION 1 SYSTEM MANUAL Issue Issue 1.1 20 Dec 2006

Example written in VB to send a new message to a print station.

Public Sub DoMessage()
DATA$ = "800": GETINFODATA: Rem DISABLE PRINT MODE
DATA$ = "&32": GETINFODATA: Rem SET LINE SPEED TO 50
DATA$ = "P01010010000100000000" & Chr$(&HD): GETINFODATA: Rem SET OBJECTs
DATA$ = "%ABCDEFGHIJ" & Chr$(&HD): GETINFODATA: Rem SEND MESSAGE
End Sub

Public Sub GETINFODATA() : : Rem SENDS A COMMAND AND GETS A RESPONSE
RESPONSE$ = "": COMM.InBufferCount = 0
COMM.Output = ESC & STX & "01" & DATA$ & EOT
Timer.Enabled = True: TIMERFLAG = False
GETINFO:
Do
DoEvents
If TIMERFLAG = True Then GoTo TCOMMERROR
Loop Until COMM.InBufferCount >= 1
RESPONSE$ = RESPONSE$ & COMM.Input
If InStr(RESPONSE$, Chr$(&H15)) > 0 Then GoTo GETDATAERROR:
Rem A NAK WAS RECEIVED
If InStr(RESPONSE$, Chr$(&H4)) = 0 Then GoTo GETINFO
Rem AN EOT WAS RECEIVED
RESPONSE$ = Mid$(RESPONSE$, 6, Len(RESPONSE$))
Rem DELETE ADDRESS HEADER
Timer.Enabled = False
Rem WE NOW HAVE A VALID RESPONSE
Exit Sub
GETDATAERROR:
Timer.Enabled = False: TIMERFLAG = False
GoTo PROCESSERROR
Exit Sub
TCOMMERROR:
Timer.Enabled = False: TIMERFLAG = False
PROCESSERROR:
If RESPONSE$ = "" Then RESPONSE$ = "0" Else RESPONSE$ = Right$(RESPONSE$, 1):
Rem GET THE ERROR CODE
Select Case (RESPONSE$)
Case 0
MSG$ = "NO RESPONSE FROM UNIT"
Case 1
MSG$ = "TRANSMISSION ERROR"
Case 2
MSG$ = "ILLEGAL COMMAND"
Case 3
MSG$ = "TRYING TO PRINT WHILE IN COMMAND MODE"
Case 4
MSG$ = "TRYING TO READ A WRITE ONLY REGISTER"
Case 5
MSG$ = "TRYING TO WRITE A READ ONLY REGISTER"
Case 6
MSG$ = "UNIT INPUT BUFFER FULL"
Case 7
MSG$ = "UNIT IN EDIT MODE"
Case 8
MSG$ = "PRINT STATION BUSY TRY AGAIN"
End Select

21 EVOLUTION 1 SYSTEM MANUAL Issue Issue 1.1 20 Dec 2006

MsgBox MSG$
COMM.InBufferCount = 0: Rem FLUSH THE INPUT BUFFER
End Sub

THE ABOVE VB ROUTINES DEMONSTRATE THE ENTIRE SEQUENCE OF:
PREPARING DATA TO SEND TO THE HEAD
SENDING THE DATA TO THE HEAD
WAIT FOR A RESPONSE
DETERMINE IF THE DATA WAS ACCEPTED OR REJECTED

22 EVOLUTION 1 SYSTEM MANUAL Issue Issue 1.1 20 Dec 2006

PART 7: OPTION JUMPERS AND CABLING

OPTION JUMPER DESCRIPTIONS

Factory default for all jumper settings is in the ON position. To remove a jumper
in the OFF position place the jumper on a single pin for future use

VSEL J7

This jumper when in the ON position supplies a +12vdc source on the RJ50 input
connector. The hand held controller uses this source for power. Removing this
jumper prevents the +12vdc source from exiting on pin 2 and possibly damaging
other external control devices.

ENSEL J9

When this jumper is in the ON position the external encoder signal connected to
the RJ50 output connector is passed through the print carriage to the RJ50 input
connector. This allows the same encoder signal to drive several print carriages. If
this is not desired remove the jumper

PRSEL J10

When this jumper is in the ON position the external product detect signal
connected to the RJ50 output connector is passed through the print carriage to
the RJ50 input connector. This allows the same product detect signal to drive
several print carriages. If this is not desired remove the jumper

ON OFF

1 EVOLUTION 1 SYSTEM MANUAL Issue Issue 1.1 20 Dec 2006

JUMPER LOCATION

EXTERNAL ENCODER
ENSEL J9
ON= PASS THRU
OFF= FLOAT OUTPUT

VOLTAGE SELECT
VSEL J7
ON= +12 OUTPUT
OFF= FLOAT OUTPUT

EXTERNAL PRODUCT
DETECT
PRSEL J10
ON=PASS THRU
OFF=FLOAT OUTPUT

2 EVOLUTION 1 SYSTEM MANUAL Issue Issue 1.1 20 Dec 2006

OPTION CABLING DESCRIPTIONS

Evolution printers can accept inputs from external sources to control
product detection and timing circuits to track product speed (Encoders). These
device inputs are internally connected to pull-up resistors and drive optically
isolated devices and may be driven by open collector or switch contacts.

ENC

PDET

R?
1K

V3.3

R?
1K

8
7

6
5

U?

PCT218

C1
E1

C2
E2

A1
K1

A2
K2

R?
1K

1
2

3
4

V+

V+V3.3

R?
1K

ENCIN
RDATA+

RDATA­TDATA+
TDATA­XPDETIN

SP1

V+

J?

COMMOUT

1
2
3
4
5
6
7
8
9

10

Each input requires the capability of sinking 12ma to ground as depicted in
the above circuit. Connection to the optional control port requires an RJ50
connector.
Below is an example of the external product detect eye supplied by
DIGITAL DESIGN INC part number C21006.

3 EVOLUTION 1 SYSTEM MANUAL Issue Issue 1.1 20 Dec 2006

For those applications requiring accurate line speed detection an external
encoder is needed.
The external encoder will provide accurate signals eliminating problems in
those applications where moving product has an acceleration or deceleration
component in its motion, and is often mandatory when trying to produce a
reliable printed barcode. Selecting the external encoder should take into
consideration a supply source that will yield the correct aspect ration of printed
height to width.
A vertical printed column contains 150 dots and spans 1/2”. This equates
to 0.00333 between each vertical dot placement, thusly each horizontal dot
placement should be the same to maintain a perfect 300DPI ratio.
Selecting the external encoder, the line speed calculation is replaced by a
scalable encoder setting ranging from 0-7 allowing a printed message to be
compressed or expanded. Ideally, the external encoder should be provided to
use this feature to its maximum advantage.
If the external encoder were selected to provide a resolution of 0.00333
then the external encoder set to 0 would produce the correct aspect ratio and the
message can only be expanded in multiples of 0.00333 thousands of an inch.
This may provide all that is required. Selecting an external encoder source that
provided 0.00111 thousands of an inch would be a better choice.

The above pictorial is an example of the connections for an external
encoder.
If it becomes necessary to supply both external product detect, and
external encoder, both signals can be wired into the same connector, or DIGITAL
DESIGN INC can supply an optional adaptor to allow connection of both cables
(part number C21012)

4 EVOLUTION 1 SYSTEM MANUAL Issue Issue 1.1 20 Dec 2006

PART 8: SPECIFICATIONS

PRINTER SPECIFICATIONS

PRINT CHARACTERISTICS

Character Set: Full alphanumeric and 20 special symbols
Standard Font: Arial style
Logos: up to 3 resident
Line Speeds: From 10 to 200 fpm
Encoder Ratio: 0 to 7
Print Delay: From 1 to 255 (approx .060 in to 15.0 in)
Character Heights:
1/2” single line of print
7/32” two lines of print
Length: 24 characters (1/2”) 48 characters (7/32”)
Message Storage 50 Messages
Print Head to Product Distance: Up to 1/4" (6.35 mm)

CONTROLLER

Standard Finish: Hi Impact ABS Black
Dimensions: 8.75"H x 4.25"W x 2.7"D (222 mm x 108 mm x 69
mm)
Weight: 1 lbs. (4.5 kg)
Control Panel: Touch Switches and 4x16 Line LCD

PRINT CARRIAGE

Standard Finish: Aluminum Black Anodized
Dimensions: 3.0"H x 1.8"W x 4.0"D (76 mm x 46 mm x 102 mm)
Weight: 1 lbs. (4.5 kg)

ENVIRONMENTAL CONDITIONS

Temperature Range: 40°F - 104°F (5°C - 40°C)
Humidity: up to 90% relative, non-condensing
Electrical Supply: 100-250 VAC; 50-60 Hz; 0.25Amp

GENERAL

Product Detector: IR LED convergent
Communications link RS485 (115KBAUD 7-BITS EVEN PARITY 1 STOP

BIT)

1 EVOLUTION 1 SYSTEM MANUAL Issue Issue 1.1 20 Dec 2006

DEFAULT SETTINGS

FUNCTION DEFAULT SETTING RANGE
DIRECTION

FONTS ARIEL STYLE USER DEFINED
INTER-CHARACTER
SPACING
LANGUAGE ENGLISH ENGLISH / SPANISH
LINE SPEED 100 10 - 200
LOGOS 0 1 - 3
PRINT INVERSE NORMAL NORMAL / INVERSE
PRODUCT DETECT INTERNAL INTERNAL / EXTERNAL
EXTERNAL ENCODER INTERNAL INTERNAL / EXTERNAL
PRINT DELAY 1 1 - 255
ENCODER RATIO 4 0 - 7
MESSAGE STORAGE 1 1 - 50
PASSWORD

AUTO REPEAT 0 0 - 255
DATE dd/dm/dy USER DEFINED

< < >

10 1 - 25

12345 5 CHARACTERS USER

DEFINED

TIME hh:mm USER DEFINED
SHIFT CODE TIMES AND CODES

USER DEFINED

SET TO ZERO

DATE OFFSET OFFSET DAYS SET

USER DEFINED

TO ZERO

PRODUCT COUNTER

TIMES AND CODES
SET TO ZERO

USER DEFINED

BARCODE TYPE 8 SELECTABLE
MIN BAR WIDTH 5 3 - 15
ADDED SPACE 0 0 - 3
QUIET ZONE 75 0 - 150
CHECK DIGIT NO
MAN READABLE NO

2 EVOLUTION 1 SYSTEM MANUAL Issue Issue 1.1 20 Dec 2006

APPENDIX A – PRODUCING RELIABLE BAR CODES

Printing reliable barcodes requires that several key issues be observed.

1. Barcode integrity

2. Contrast ratio

3. Bar separation

4. Quiet zone

BARCODE INTEGRITY -

Barcode integrity is the validity of the data contained in the barcode. This
includes valid characters and the correct ratio of dark to light bars.

CONTRACT RATIO -

The contrast ratio is the optical density of the print against the background
substrate. For example a black ink barcode against a white coated cardboard
versus a black ink barcode on a brown cardboard.

BAR SEPARATION -

Bar separation is the ratio of a dark bar to a light bar. This is one of the
most critical parameters to be observed. Assuming that the aspect ratio of the
printed barcode is correct, bleed factors can greatly diminish the readability of a
barcode. Bleed factors vary greatly depending on substrates. For example
printing on virgin versus recycled corrugated cases.

EVOLUTION II printers have the capability to adjust various parameters of the
printed barcode to circumvent the inherent problems in producing a reliable
printed barcode. These include:

Dark Bar width
White bar width

Even though the ratio of a dark bar to a light bar should not be changed it might
be necessary to alter the printed barcode by adjusting the light bar size relative to
a dark bar size allowing for bleed factors found on different substrates

QUIET ZONE -

These are areas at the beginning and end of a barcode symbol that allow

optical equipment to differentiate the barcode from other printed material.

The inks developed for the EVOLUTION printers will produce, at 300 dpi and
200ft/min, a class “A” barcode on brown corrugated, but care must be exercised
in programming the various parameters that control how the printed image is
produced. As with any fine resolution image the distance from the print head to
the product is of utmost importance. Trial and error is often required to produce
the desired results.

3 EVOLUTION 1 SYSTEM MANUAL Issue Issue 1.1 20 Dec 2006

PROGRAMMING BAR CODES:

BARCODE TYPE: This is the type of barcode to be used and only one type is
valid per message.

Valid types are:

CODE 39
CODE128B
CODE 128C
INTERLEAVED 2of5
EAN13
EAN 8
UPC-A
UPC-E
DATA MATRIX (optional)

MINIMUM BAR WIDTH: This parameter controls the number of columns in a
narrow bar. The legal limits are 3 to 15 printed columns for 1-D linear codes and
2 to 15 for 2-D codes.

ADDED SPACE: This controls the amount of added columns for 1-D codes only
and is intended to overcome the nature of the bleed factor of the ink on different
substrates. The legal values are 0, 1, 2 or 3 additional printed columns.

QUIET ZONE: These are areas at the beginning and end of a barcode symbol
that allow optical equipment to differentiate the barcode from other printed
material. The user may program a value from 0 to 150 printable columns where,
with a correct aspect ratio, each column is 0.0033”.

ADD CHECK CHARACTER: If selected the software will calculate the check
character automatically.

ADD MAN READABLE TEXT: If selected the software will add man readable
characters to the barcode.

GUARD BARS: If selected indicates that guard bars will be higher than other
bars to allow for man readable characters located at the bottom of the code.
Man readable characters must be enabled for guard bars to take effect.

4 EVOLUTION 1 SYSTEM MANUAL Issue Issue 1.1 20 Dec 2006

BARCODE TECHNIQUES:

The following are actual scanned images of a UPC-A barcode (without man­readable or guard bars for clarity). These tests were produced on white coated
corrugated. These are pictured here to help the user understand some of the
important parameters in producing a reliable barcode. The faint background
noise is a result of the scanning process and is not indicative of a typical printed
sample.

Notice the diminished
size ratio of the narrow
light bar versus the
narrow dark bar

The narrow light bar is
still slightly less than
the dark bar

Adding 2 spaces
makes the narrow light
bar equal to the
narrow dark bar

Notice the diminished
size ratio of the narrow
light bar versus the
narrow dark bar

The narrow light bar is
still slightly less than
the dark bar

Adding 2 spaces
makes the narrow light
bar equal to the
narrow dark bar

Barcode reader/verifier test equipment QUICK CHECK 800
All barcodes were readable and acceptable, some better than others
Decodability is the percentage as compared to the verifiers standard
Average bar is the size difference of a light bar to a dark bar
Code class is the overall acceptance of the code A B C D F

5 EVOLUTION 1 SYSTEM MANUAL Issue Issue 1.1 20 Dec 2006

Barcode with:
Bar width = 5
Added space = 0
Decodability = 39%
Average bar = 16X
Code class = C

Barcode with:
Bar width = 5
Added space = 1
Decodability = 50%
Average bar = .11X
Code class = B

Barcode with:
Bar width = 5
Added space = 2
Decodability = 62%
Average bar = .03X
Code class = A

Barcode with:
Bar width = 6
Added space = 0
Decodability = 47%
Average bar = .17 X
Code class = C

Barcode with:
Bar width = 6
Added space = 1
Decodability = 51%
Average bar = .10 X
Code class = B

Barcode with:
Bar width = 6
Added space = 2
Decodability = 64%
Average bar = .00 X
Code class = A

The picture at the right is an
exploded view of the
previous scanned image.
Again notice the ink bleed
and how it affects the ratio
of the dark to the light bar
widths. Using the ADD
SPACE parameter gives the
user the ability to minimize
this effect.
Trial and error is necessary
to find the correct settings to
be used. The substrate
material is the governing
factor in deciding what the
correct settings are.

The second concept that the
pictures show is the overall
consistency in bar width
across the image. All
scanners have the capability
of accepting a certain
amount of bar growth but
must be kept to a minimum.
Bar growth will be seen in
non-linear production lines.
Normally with a consistent
running production line,
there is no need for an
external encoder. Where
there is an acceleration or
deceleration component in
the production line, it is
absolutely necessary to use
an encoder. Even with an
encoder a code can deviate
from the proper aspect ratio.
This deviation is caused by
slippage of the product
against the production line.
Bar growth will also lead to a less dense dark bar due to the fact the printed
vertical columns will print further apart then previous dark bars. This may also be
seen when not using an encoder and the line speed of the printer is set slower
than the actual line speed of the production line.

6 EVOLUTION 1 SYSTEM MANUAL Issue Issue 1.1 20 Dec 2006

The image below is a scanned image of two sample prints. The upper section of
code is produced at 60ft/min matching the line speed, while with the second
sample, the line speed was increased to 100 ft/min. It should be immediately
apparent at the difference in the optical density between both prints. This
variation will be more apparent on brown corrugated than on a white substrate.

NORMAL OPTICAL DENSITY

Displacing adjacent vertical
columns farther than the correct
aspect ratio caused this lack of
optical density.

DIMINISHED OPTICAL DENSITY

NORMAL ASPECT RATIO

The pictorial at the right
is an expanded section
of the above code and
clearly defines the
correct versus incorrect
aspect ratio and should
be avoided.

It should also be noted
that the MINIMUM BAR
WIDTH parameter was
set to 6.

BAD ASPECT RATIO

7 EVOLUTION 1 SYSTEM MANUAL Issue Issue 1.1 20 Dec 2006

Below is a scanned image of a typical application where there was an
acceleration and deceleration component in the line movement. Notice how the
bars grew from left to right then began to compress towards the normal at the
right. Also apparent is the change in the optical density of the pattern. This was a
totally unreadable code.

BAR WIDTHS BEGIN TO
STRETCH

BAR WIDTHS BEGIN TO
COMPRESS

Finally, the image as it should look. This code was produced on white corrugated
at 100ft/min and produced a verifiable class “A” with a decodability of 70%. The
average bar growth from the reference standard was 0.03%.

8 EVOLUTION 1 SYSTEM MANUAL Issue Issue 1.1 20 Dec 2006

BARCODE TYPES

The following is a short description of the supported barcode types:
Each barcode type contains either 2 or 4 widths. This defines how many sizes or
a light or dark bar exists in the code.

CODE39: Code 39 is an alphanumeric bar code that can encode (2 widths)

Numbers
Upper case alphabet
Special symbols _ . * $ / % +
If the Check Character flag is set the software will calculate the optional
check character (modulus 43).

CODE128: Code 128 is a 128-character ASCII code (4 widths)

If the Check Character flag is set the software will calculate the optional
check character (modulus 103).

EAN-13: EAN-13 encodes 13 characters (4 widths)
Numbers only
It includes a 2 or 3 digit country code
9 or 10 data digits (depending on the length of the country code)

Checksum digit
If the Check Character flag is set the software will calculate the optional
check character (modulus 10).

EAN-8: EAN-8 is a shortened version of the EAN-13 code (4 widths)
Numbers only
It includes a 2 or 3 digit country code

4 or 5 data digits (depending on the length of the country code)
Checksum digit.
If the Check Character flag is set the software will calculate the optional
check character (modulus 10).

INTERLEAVED 2of5: Interleaved 2 of 5 is a numeric only bar code (2 widths)
Numbers only

If the Check Character flag is set the software will calculate the optional
check character (modulus 10).
This code requires an even number of digits. If an odd number of digits
are entered the software automatically inserts a leading 0. If a code
contains an even number of digits and a check digit then the software
adds a leading 0.

9 EVOLUTION 1 SYSTEM MANUAL Issue Issue 1.1 20 Dec 2006

UPC-A: UPC-A encodes 12 characters (4 widths)
Numbers only

It includes a 1-digit system code (normally 0)

10 digits are the data characters

Checksum digit
If the Check Character flag is set the software will calculate the optional
check character (modulus 10).

10 EVOLUTION 1 SYSTEM MANUAL Issue Issue 1.1 20 Dec 2006

UPC-E: The UPC-E code is a compressed barcode (4 widths)

Numbers only (must include 0’s)
Compression works by squeezing extra zeroes out of the barcode and
then automatically re-inserting them at the scanner. Only barcodes
containing zeroes are candidates for the UPC-E symbol.

DATAMATRIX: Is a 2-D full 256-character ASCII code

The code is made up of square modules (elements) arranged within a
perimeter-clocking pattern.
The symbol consists of data regions, which contain square modules set
out in a regular array.

Most of the symbols are square ranging from 10x10 to144x144 elements.

The correct array is automatic, dependent on the data entered.

The following are ideal data matrix codes.
The pictorial below is a 10x10 array encoding the numbers 1, 2, 3, 4 and 5
scaled for reference purposes.

CLOCKING PATTERNS

CLOCKING PATTERNS

Data matrix codes are more tolerable to stretch and skew by the nature of their
imbedded clocking patterns defining both columns and rows.

Below is an 18x18 array encoding DIGITAL DESIGN INC. The pattern is
repeated 7 times with various resolutions ranging from a 7x7 element to a 1x1
element. Even though it is conceivable to produce a 1x1 element, the nature of
ink bleed makes it unrealistic. The EVOLUTION II with the optional DATAMATRIX
symbologies installed limits the element size to a 2x2 array.

11 EVOLUTION 1 SYSTEM MANUAL Issue Issue 1.1 20 Dec 2006