Datalogic Scanning LASER SCANNER DS4300 User Manual

DS4300  
INSTALLATION MANUAL  
We  
DATALOGIC S.p.A.  
Via Candini, 2  
40012 - Lippo di Calderara  
Bologna - Italy  
declare under our sole responsibility that the product  
DS4300-XXXX, Laser Scanner and all its models  
to which this declaration relates is in conformity with the following standards or other normative  
documents  
EN 55022, August 1994:  
EN 50082-2, March 1995:  
LIMITS AND METHODS OF MEASUREMENTS OF RADIO DISTURBANCE  
CHARACTERISTICS OF INFORMATION TECHNOLOGY EQUIPMENT (ITE)  
ELECTROMAGNETIC COMPATIBILITY. GENERIC IMMUNITY STANDARD.  
PART 2: INDUSTRIAL ENVIRONMENT  
Following the provision of the Directive(s):  
89/336 CEE AND SUCCESSIVE AMENDMENTS, 92/31 CEE; 93/68 CEE  
Ruggero Cacioppo  
Lippo di Calderara, 16.11.1998  
Quality Assurance Supervisor  
Product names mentioned herein are for identification purposes only and may be trademarks  
and or registered trademarks of their respective companies.  
Datalogic S.p.A. reserves the right to make modifications and improvements without prior  
notification.  
- 1999 Datalogic S.p.A.  
821000262 (Rev. B)  
CONTENTS  
GUIDE TO INSTALLATION...............................................................v  
General View ..................................................................................... vi  
SAFETY PRECAUTIONS ................................................................viii  
Laser Safety......................................................................................viii  
Standard Regulations .......................................................................viii  
Power Supply......................................................................................x  
1
GENERAL FEATURES...................................................................1.1  
Introduction......................................................................................1.1  
Description.......................................................................................1.2  
Available Models..............................................................................1.4  
Accessories .....................................................................................1.4  
1.1  
1.2  
1.3  
1.4  
2
INSTALLATION ..............................................................................2.1  
Package Contents ...........................................................................2.1  
Mechanical Installation ....................................................................2.2  
Junction Box Installation..................................................................2.3  
2.1  
2.2  
2.3  
2.3.1 Junction Box Mounting ....................................................................2.3  
2.3.2 Junction Box Electrical Connections................................................2.5  
2.4  
Electrical Connections for 25-pin Models ........................................2.8  
2.4.1 Power Supply...................................................................................2.9  
2.4.2 Main Serial Interface......................................................................2.10  
RS232 ...........................................................................................2.10  
RS485 Full-Duplex ........................................................................2.12  
RS485 Half-Duplex........................................................................2.13  
20 mA Current Loop (INT-24 Accessory Only).............................2.15  
2.4.3 Auxiliary RS232 Interface ..............................................................2.16  
2.4.4 Inputs.............................................................................................2.16  
2.4.5 Outputs ..........................................................................................2.19  
2.5  
2.6  
Positioning .....................................................................................2.20  
Typical Layouts..............................................................................2.21  
2.6.1 Point-to-Point.................................................................................2.21  
2.6.2 Pass Through ................................................................................2.22  
2.6.3 RS232 Master/Slave......................................................................2.23  
2.6.4 RS485 Master/Slave......................................................................2.24  
2.6.5 Multiplexer .....................................................................................2.25  
iii  
3
READING FEATURES....................................................................3.1  
3.1  
Advanced Code Reconstruction ......................................................3.1  
3.1.1 Tilt Angle for Advanced Code Reconstruction.................................3.2  
3.2 Decoding Capacity in Linear Mode..................................................3.3  
3.2.1 Step Ladder Mode ...........................................................................3.3  
3.2.2 Picket Fence Mode..........................................................................3.4  
3.3  
3.4  
Performance....................................................................................3.5  
Reading Diagrams...........................................................................3.6  
4
MAINTENANCE ..............................................................................4.1  
4.1  
Cleaning...........................................................................................4.1  
5
TECHNICAL FEATURES................................................................5.1  
iv  
GUIDE TO INSTALLATION  
The following can be used as a checklist to verify all of the steps necessary  
for complete installation of the DS4300 scanner.  
1) Read all information in the section "Safety Precautions" at the beginning  
of this manual.  
2) Correctly position and mount the scanner for barcode reading according  
to the information in paragraphs 2.2, 2.5 and 3.4.  
3) Provide correct system cabling according to the signals necessary for  
your application (see the applicable sub-paragraphs under 2.3 or 2.4).  
4) Install the Configuration Disk.  
Upon successful completion of the installation, the readme.hlp file is  
opened, giving details about how to get started configuring your scanner.  
See also the Guide to Rapid Configuration link.  
Specific parameter details are available in the Help On Line.  
NOTE  
Fine tuning of the scanner position for barcode  
reading can be accomplished using the Test Mode  
as described in WinHost.  
The installation is now complete.  
v
DS4300  
General View  
11  
10  
9
8
5
6
4
2
1
7
3
Figure A  
Cable with 25-pin connector  
Mounting holes  
Warning and Classification labels  
Warning Label  
1
2
3
4
5
6
7
8
Laser active LED  
9
Ready LED  
Laser beam output window  
Accessory mounting holes  
Good Read LED  
External Trigger LED  
Data TX LED  
10  
11  
vi  
DS4300  
General View  
11  
10  
9
8
5
6
2
4
7
3
1
Figure B  
Cable with junction box  
Mounting holes  
Warning and Classification labels  
Warning Label  
1
2
3
4
5
6
7
8
Laser active LED  
9
Ready LED  
Laser beam output window  
Accessory mounting holes  
Good Read LED  
External Trigger LED  
Data TX LED  
10  
11  
vii  
SAFETY PRECAUTIONS  
LASER SAFETY  
The following information is provided to comply with the rules imposed by  
international authorities and refers to the correct use of the DS4300 scanner.  
Standard Regulations  
This scanner utilizes a low-power laser diode. Although staring directly at the  
laser beam momentarily causes no known biological damage, avoid staring  
at the beam as one would with any very strong light source, such as the sun.  
Avoid that the laser beam hits the eye of an observer, even through reflective  
surfaces such as mirrors, etc.  
This product conforms to the applicable requirements of both IEC 825-1 and  
CDRH 21 CFR 1040 at the date of manufacture. The scanner is classified as  
a Class 2 laser product according to IEC 825-1 regulations and as a Class II  
laser product according to CDRH regulations.  
There is a safety device which allows the laser to be switched on only if the  
motor is rotating above the threshold for its correct scanning speed.  
The laser beam can be switched off through a software command (see also  
“Beam Shutter” in the WinHost Help On Line).  
WARNING  
Use of controls or adjustments or performance of  
procedures other than those specified herein may  
result in exposure to hazardous visible laser light.  
The laser light is visible to the human eye and is emitted from the window on  
the front of the scanner (Figure A/B, 10 ).  
viii  
Warning labels indicating exposure to laser light and the device classification  
8
7
are applied onto the body of the scanner (Figure A/B,  
and ).  
DATALOGIC S.p.A. Via Candini, 2  
40012 LIPPO DI CALDERARA (BO) ITALY  
Model No.  
Volt  
Serial No.  
Amp.  
Manufactured  
This product conforms to the applicable requirements of  
21CFR1040 at the date of manufacture.  
LASER LIGHT  
DO NOT STARE INTO BEAM  
CLASS 2 LASER PRODUCT  
MAXIMUM OUTPUT RADIATION 1 mW  
EMITTED WAVE LENGTH 630~680 nm  
TO IEC 825-1 (1993)  
Warning and device class labels  
For installation, use and maintenance it is not necessary to open the  
scanner.  
The laser diode used in this device is classified as a class 3B laser product  
according to IEC 825-1 regulations and as a Class IIIb laser product  
according to CDRH regulations. As it is not possible to apply a classification  
label on the laser diode used in this device, the following label is reproduced  
here:  
LASER LIGHT  
AVOID EXPOSURE TO BEAM  
CLASS 3B LASER PRODUCT  
MAX. OUTPUT RADIATION 7 mW  
EMITTED WAVE LENGTH 630~680 nm  
TO IEC 825-1 (1993)  
Laser diode class label  
Any violation of the optic parts in particular can cause radiation up to the  
maximum level of the laser diode (30 mW at 630 to 680 nm).  
ix  
POWER SUPPLY  
For Model DS4300-1000: This device is intended to be supplied by a UL  
Listed Direct Plug-In Power Unit marked "Class 2", output rated 10-30 V,  
minimum 0.55 A.  
This device may also be supplied by a UL Listed Power Unit with a "Class 2"  
or LPS power source which supplies power directly to the scanner via the  
25-pin connector.  
For Model DS4300-1001: This device is intended to be supplied via the  
Junction Box by an NEC Class 2 Power Source, rated 10-30 V, minimum  
0.55 A.  
x
DATALOGIC  
DS4300  
1 GENERAL FEATURES  
1.1 INTRODUCTION  
The DS4300 is a compact laser scanner complete with decoder which  
employs Datalogic’s powerful ACR™ (Advanced Code Reconstruction)  
technology. It was designed to satisfy the most demanding requirements  
associated with omni-directional scanning, reading of non-oriented barcode  
labels, and reading of poorly printed or damaged labels.  
Standard Application Program  
A Standard Application Program is factory-loaded onto the DS4300. This  
program controls barcode reading, serial port interfacing, data formatting and  
many other operating and control parameters.  
It is completely user configurable from a host computer using the WinHost  
interface utility program provided on diskette with the scanner or using the  
Host Mode programming procedure, by ESC sequences via the serial  
interface.  
There are four different programmable operating modes to suit various  
barcode reading system requirements. Included in these is a test mode to  
verify the reading features and exact positioning of the scanner without using  
external tools.  
Programmability  
If your requirements are not met by the Standard Application Program,  
Custom Application Programs can be developed by your local Datalogic  
distributor.  
General Features - 1.1  
DS4300  
DATALOGIC  
1.2 DESCRIPTION  
Some of the main features of this scanner are given below:  
code reconstruction  
high scanning speed (800 scans/sec)  
completely configurable from host computer  
2 serial communication interfaces  
reads most popular codes  
supply voltage from 10 to 30 Vdc  
test mode to verify the reading features and exact positioning of the  
scanner without the need for external tools  
configurable in different operating modes to suit the most various barcode  
reading system requirements  
code verifier  
possibility to detect the position of the label in the scan line  
The DS4300 scanner uses a solid state laser diode as a light source; the  
light emitted has a wavelength between 630 and 680 nm. Refer to the  
section "Safety Precautions" at the beginning of this manual for information  
on laser safety.  
The reader is contained in a rugged aluminum housing; the mechanical  
dimensions are 101 x 83.5 x 42 mm and it weighs about 800 g.  
The protection class of the enclosure is IP65, therefore the reader is  
particularly suitable for industrial environments where high protection against  
harsh external conditions is required.  
1.2 - General Features  
DATALOGIC  
DS4300  
Electrical connection is provided through a cable on the side of the reader;  
this cable is terminated with a 25-pin connector (25-pin connector models,  
see paragraph 1.3, Figure A, 1 ) or by a junction box (junction box models,  
see paragraph 1.3, Figure B, 1 ).  
The laser beam output window is on the right hand side of the scanner  
(Figure A/B, 10 ). A green LED on the same side indicates the laser is active  
(Figure A/B, 9 ).  
A security system allows the laser to activate only once the motor has  
reached the correct rotational speed; consequently the laser beam is  
generated after a slight delay from the power on of the scanner.  
The four LEDs on the left hand side of the scanner indicate the following:  
READY  
(red), indicates the reader is connected to the power supply  
and the startup was successful. If the startup is not  
successful, this LED blinks. (Figure A/B, 3 ).  
GOOD READ  
(red), is used to signal successful barcode decoding. It is  
also used in Test mode to signal the decoding percentage  
(for details refer to the section "Test Mode" in the WinHost  
4
Help On Line). (Figure A/B, ).  
EXT TRIG  
TX DATA  
(yellow), indicates external trigger activity (for details refer to  
par.2.4.4. (Figure A/B, 5 ).  
(green), indicates data transmission on the main serial  
output line. (Figure A/B, 6 ).  
The screw holes on the body of the reader are for mechanical fixture (Figure  
2
11  
A/B, ); the screw holes shown in Figure A/B,  
are to attach accessories  
such as the optional 90° mirror.  
General Features - 1.3  
DS4300  
DATALOGIC  
1.3 AVAILABLE MODELS  
The DS4300 scanner is available in versions that differ in regard to the  
following characteristics:  
Optical Resolution  
Cable Termination  
The following models are therefore available:  
DS4300 - 100X  
Cable Termination  
Optical Resolution  
0 = 25-pin connector  
1 = junction box  
1 = Standard Resolution  
1.4 ACCESSORIES  
The following accessories are available on request for the DS4300:  
90° deflection mirror  
GFC-41  
Power Block 110 Vac  
PG110/DVE-1212A  
PG220/DVE-1212A  
INT-24  
Power Block 220 Vac  
20 mA Active Current Loop interface  
1.4 - General Features  
DATALOGIC  
DS4300  
2 INSTALLATION  
2.1 PACKAGE CONTENTS  
Verify that the DS4300 reader and all the parts supplied with the equipment  
are present and intact when opening the packaging; the list of parts includes:  
1) DS4300 reader with cable  
2) Installation manual  
3) Barcode test chart  
4) DS4300 communication and utility program disk  
5) Mounting kit  
Mounting screws and washers (4 ea.)  
Mounting bracket (1)  
*
Junction box (for junction box models only, see paragraph 1.3)  
4
3
2
5
*
1
Figure 2.1 - DS4300 package contents  
Installation - 2.1  
DS4300  
DATALOGIC  
2.2 MECHANICAL INSTALLATION  
DS4300 can be installed to operate in different positions. The four screw  
holes (M4 x 5) on the body of the reader are for mechanical fixture (Figure  
2
A/B, ).  
The diagram below gives the overall dimensions of the scanner and may be  
used for its installation.  
Refer to paragraph 2.5 for correct positioning.  
Figure 2.2 - Overall dimensions  
2.2 - Installation  
DATALOGIC  
DS4300  
2.3 JUNCTION BOX INSTALLATION  
The junction box provides a passive connection between your scanner and  
the outside world in a fast and practical way. It represents an alternative to  
the 25-pin connector models. Figure 2.3 shows the basic layout of DS4300  
using the junction box.  
Junction Box  
Scanner  
cable  
DS4300  
System cables  
Figure 2.3 - Scanner using junction box  
For junction box connections, the scanner has a cable that terminates in a  
24-pin connector that plugs into the junction box. The system cables pass  
through 6 glands in the side of the junction box and the individual wires  
connect to spring clamp terminal blocks inside which provide access to all  
scanner signals.  
2.3.1 Junction Box Mounting  
The diagram below shows the dimensions of the junction box and its relative  
mounting holes.  
mm  
in  
Figure 2.4 - Junction box dimensions  
Installation - 2.3  
DS4300  
DATALOGIC  
The junction box is designed to be mounted to a panel of metal, plastic or  
other appropriate material using the mounting screws provided in the  
package. To do this:  
1) Open the junction box by unscrewing the 4 cover screws.  
If necessary, using the two mounting holes inside the junction box as a  
pattern, mark the panel with an appropriate object and then drill two small  
pilot holes in the panel.  
2) Align the junction box and insert the two self-threading screws with their  
washers and screw them into the panel until tight (see Figure 2.5).  
Figure 2.5 - Junction box mounting  
2.4 - Installation  
DATALOGIC  
DS4300  
2.3.2 Junction Box Electrical Connections  
The connection and wiring procedure for the junction box is described as  
follows:  
1) Open the junction box by unscrewing the 4 cover screws.  
2) Pass all System cables through the glands in the junction box housing.  
3) To connect the power and input/output signals:  
Prepare the individual wires of the system cables by stripping the  
insulation back approximately 11 mm.  
Using a device such as a screwdriver, push down on the orange  
lever directly above the clamp (see Figure 2.6).  
Insert the wire into the clamp and release the lever.  
The wire will now be held in the spring clamp.  
Figure 2.6 - System cable connections to the junction box  
The wiring used can be solid or stranded but must meet the following  
specifications.  
Positions 1-4:  
Positions 5-39:  
24 - 16 AWG  
26 - 20 AWG  
0.2 - 1.5 mm²  
0.14 - 0.5 mm²  
The junction box pinouts are indicated in the following table:  
Installation - 2.5  
DS4300  
DATALOGIC  
J. BOX pinout for DS4300  
18  
1
39  
Pin  
Name  
01  
02  
03  
04  
05  
06  
07  
08  
09  
10  
11  
12  
13  
14  
15  
16  
17  
18  
19  
20  
21  
22  
23  
*24  
*25  
*26  
27  
28  
29  
30  
31  
32  
33  
34  
35  
36  
37  
38  
39  
VS  
GND  
VS  
GND  
CHASSIS  
VS  
VS  
EXT TRIG+  
EXT TRIG-  
GND  
GND  
VS  
VS  
IN1+  
IN1-  
GND  
GND  
5
17  
J1  
Figure 2.7 - Junction box connector and pinout  
To allow connection of an NEC Class 2  
Power Unit, use a correct female plug  
adapter.  
Junction Box  
NEC Class 2  
Power supply  
OUT1+  
OUT1-  
OUT2+  
OUT2-  
IN2+  
IN2-  
Main interface signals  
see table below  
Female Plug  
System cables  
Reserved  
GND  
Main interface signals  
see table below  
Figure 2.8 - NEC Class 2 Power unit connections  
* The signals on pins 24, 25 and 26 are repeated  
on pins 29, 30 and 31 to facilitate network  
connections (i.e. Multiplexer connections using  
the RS485 half-duplex Interface). In this way the  
network bus can enter and exit the junction box  
from different spring clamps but be physically  
connected together.  
GND  
TXAUX  
SGND Aux  
GND  
RXAUX  
Reserved  
Pin  
RS232  
RS485  
RS485  
20 mA CL  
full-duplex  
half-duplex  
(INT-24 Only)  
24, 29  
25, 30  
26, 31  
32  
TX232  
TX485+  
TX485-  
SGND Main  
RX485+  
RX485-  
RTX485+  
RTX485-  
SGND Main  
RTS232  
SGND Main  
RX232  
CLOUT-  
SGND Main  
33  
CTS232  
CLIN-  
2.6 - Installation  
DATALOGIC  
DS4300  
4) After wiring the junction box and while the scanner is unplugged from the  
power supply, place the Scanner cable so that the rubber seal fits into the  
cutout in the housing of the junction box and plug the 24-pin connector  
into connector J1 on the PCB inside the junction box as shown in figure  
2.9.  
Rubber seal  
J1  
Scanner cable  
Figure 2.9 - Scanner cable connections to the junction box  
5) Close the junction box using the 4 cover screws making sure the rubber  
seal is fitted correctly between the parts of the housing.  
The junction box is now installed which completes the electrical connections  
for your scanning system.  
If it ever becomes necessary to disconnect the scanner from the junction  
box, simply reverse the procedure in step 4.  
Installation - 2.7  
DS4300  
DATALOGIC  
2.4 ELECTRICAL CONNECTIONS FOR 25-PIN MODELS  
25-pin connector models (see paragraph 1.3) are equipped with a cable  
terminated by a 25-pin D-sub connector for connection to the power supply  
and input/output signals. The details of the connector pins are indicated in  
the following table:  
Figure 2.10 - 25-pin D-sub connector  
25-pin D-sub connector pinout  
Pin  
Name  
Function  
13  
25  
1
VS  
GND  
Power supply input voltage +  
Power supply input voltage -  
Chassis Ground  
External Trigger supply voltage +  
External Trigger +  
External Trigger -  
Input +  
CHASSIS  
VS  
EXT TRIG+  
EXT TRIG-  
IN1+  
9
18  
19  
6
10  
8
IN1-  
Input -  
Output +  
Output -  
Output +  
Output -  
Input +  
Input -  
Auxiliary RS232 input  
Auxiliary RS232 output  
Signal Ground Auxiliary interface  
Power supply input voltage -  
OUT1+  
OUT1-  
OUT2+  
OUT2-  
IN2+  
22  
11  
12  
14  
15  
20  
21  
23  
24  
16  
17  
IN2-  
RXAUX  
TXAUX  
SGND Aux  
GND  
Reserved  
Reserved  
RS232  
TX232  
Main interface RX232  
(see par. 2.4.2) RTS232  
CTS232  
RS485  
RS485  
20 mA CL  
full-duplex half-duplex (INT-24 Only)  
2
3
4
5
7
TX485+  
RX485+  
TX485-  
RX485-  
RTX485+  
RTX485-  
CLOUT-  
CLIN-  
SGND Main SGND Main SGND Main SGND Main  
2.8 - Installation  
DATALOGIC  
DS4300  
2.4.1 Power Supply  
Power can be supplied to the scanner through the pins provided on the 25-  
pin connector used for communication with the host (Figure 2.11):  
DS4300  
USER INTERFACE  
13  
VS  
V+ (10 - 30 Vdc)  
25  
1
GND  
GND  
Earth Ground  
CHASSIS  
CHASSIS  
Figure 2.11 - Power supply connections  
or through the jack connector on the side of the 25-pin connector for  
connections to a UL Listed Direct Plug-in Power Unit (Figure 2.12). If the jack  
input is used to supply power to the DS4300, pin 13 is automatically  
disconnected; the supply voltage for the external trigger remains on pin 9.  
The plug connector is not supplied with the DS4300.  
GND  
Plug  
Jack  
V+ (10 - 30 Vdc)  
Figure 2.12 - Power supplied using the jack connector  
The power must be between 10 and 30 Vdc only. There is a current peak of  
about 1A at 10 V during power on caused by the motor starting.  
It is recommended to connect pin 1 (CHASSIS) to a common earth ground.  
Installation - 2.9  
DS4300  
DATALOGIC  
2.4.2 Main Serial Interface  
The signals relative to the following serial interface types are available on the  
input/output connector:  
RS232  
RS485 FULL DUPLEX  
RS485 HALF DUPLEX  
An active 20-mA Current Loop interface is available if the optional INT-24  
accessory is installed. This accessory interface replaces the RS232/RS485  
selections.  
The main serial interface type and its relative parameters (baud rate,  
data bits, etc.) are selected via software either using the WinHost utility  
program or Host Mode programming. For more details refer to the  
section "Main Interface Menu" in the WinHost Help On Line.  
Details regarding the connections and use of the main interface selection are  
given in the next paragraphs.  
RS232  
The serial interface is used in this case for point-to-point connections; it  
handles communication with the host computer and allows both transmission  
of code data and the configuration of the scanner. This is the default  
interface.  
The following pins of the 25-pin connector are used for RS232 interface  
connection:  
Pin  
Name  
Function  
2
3
4
5
7
TX232  
RX232  
RTS232  
CTS232  
SGND Main  
transmitted data  
received data  
request to send  
clear to send  
signal ground main interface  
2.10 - Installation  
DATALOGIC  
DS4300  
DS4300  
USER INTERFACE  
2
TX232  
RXD  
3
4
RX232  
TXD  
DCD  
RTS232  
CTS232  
5
DTR  
7
SGND Main  
SGND  
RTS/CTS HARDWARE HANDSHAKING ENABLED  
Figure 2.13 - RS232 main interface connections  
Figure 2.14 - RS232 control signals  
The RTS232 and CTS232 signals control data transmission and synchronize  
the connected devices.  
If the RTS/CTS handshaking protocol is enabled, the DS4300 activates the  
RTS232 output to indicate a message is to be transmitted. The receiving unit  
activates the CTS232 input to enable the transmission.  
Installation - 2.11  
DS4300  
DATALOGIC  
RS485 Full-Duplex  
The RS485 full-duplex interface is used for non-polled communication  
protocols in point-to-point connections over longer distances than those  
acceptable for RS232 communications or in electrically noisy environments.  
The following pins of the 25-pin connector are used for RS485 full-duplex  
communications:  
Pin  
Name  
Function  
2
4
3
5
7
TX485+  
TX485-  
RX485+  
RX485-  
RS485 transmitted data +  
RS485 transmitted data -  
RS485 received data +  
RS485 received data -  
SGND Main  
signal ground main interface  
DS4300  
USER INTERFACE  
2
4
TX485+  
TX485-  
RX485  
3
5
7
RX485+  
RX485-  
TX485  
SGND Main  
RS485REF  
Figure 2.15 - RS485 full-duplex connections  
2.12 - Installation  
DATALOGIC  
DS4300  
RS485 Half-Duplex  
The RS485 half-duplex (3 wires + shield) interface is used for polled  
communication protocols.  
It can be used for Multidrop connections in a master/slave layout or with a  
Datalogic Multiplexer, (see par. 2.6.4 and 2.6.5).  
The following pins of the 25-pin connector are used for RS485 half-duplex  
communications:  
Pin  
Name  
Function  
2
4
7
RTX485+  
RTX485-  
SGND Main  
RS485 transmitted/received data +  
RS485 transmitted/received data -  
signal ground main interface  
DS4300  
MULTIPLEXER  
2
4
7
RTX485+  
RTX485+  
RTX485-  
RTX485-  
SGND Main  
RS485REF  
Figure 2.16 - RS485 half-duplex connections  
Installation - 2.13  
DS4300  
DATALOGIC  
The figure below shows a multidrop configuration with DS4300 scanners  
connected to a Multiplexer.  
120 Ohm  
max. 2 m.  
2
4
7
DS4300  
# x  
1
1
1
(up to 31)  
2
4
7
DS4300  
# 1  
max. 1200 m.  
RTX485+  
RTX485-  
2
4
7
DS4300  
# 0  
SGND Main  
CHASSIS  
three wires  
+ shield  
RTX485+  
RTX485-  
MULTIPLEXER  
RS485REF  
SHIELD  
120 Ohm  
Figure 2.17 - DS4300 multidrop connection to a Multiplexer  
2.14 - Installation  
DATALOGIC  
DS4300  
20 mA Current Loop (INT-24 Accessory Only)  
When the INT-24 accessory board is installed, the DS4300 is equipped with  
a 20 mA active current loop interface.  
The following pins of the 25-pin connector are used for the connections:  
Pin  
Name  
Function  
4
5
7
CLOUT-  
CLIN-  
SGND Main  
current loop output  
current loop input  
signal ground main interface  
DS4300/DS4600  
USER INTERFACE  
+
I = 20 mA  
C.L. OUT-  
4
+
GND  
SGND Main  
C.L. IN-  
7
5
I = 20 mA  
MAX. 300 METERS  
Figure 2.18 - 20 mA active C.L. connections  
For 20 mA passive current loop interface connections, contact your local  
Datalogic representative.  
Installation - 2.15  
DS4300  
DATALOGIC  
2.4.3 Auxiliary RS232 Interface  
The auxiliary serial interface is used exclusively for RS232 point-to-point  
connections.  
The parameters relative to the auxiliary interface (baud rate, data bits, etc.)  
as well as particular communication modes such as Local Echo can be  
defined using the WinHost utility program or Host Mode programming. For  
more details refer to paragraph 2.6 and to the section "Auxiliary Interface  
Menu" in the WinHost Help On Line.  
The following pins of the 25-pin connector are used to connect the RS232  
auxiliary interface:  
Pin  
Name  
Function  
20  
21  
23  
RXAUX  
TXAUX  
SGND Aux  
auxiliary RS232 received data  
auxiliary RS232 transmitted data  
signal ground auxiliary interface  
DS4300  
USER INTERFACE  
20  
21  
23  
RXAUX  
TXD  
RXD  
TXAUX  
SGND Aux  
SGND  
Figure 2.19 - RS232 auxiliary interface connections  
2.4.4 Inputs  
There is an input available on the DS4300 scanner relative to the External  
Trigger.  
There are also 2 general purpose inputs:  
IN1 can be used to store the code verifier (see "Store verifier HW" in the  
Winhost Help On Line).  
IN2 is not used in the Standard Application Program but is available for use  
with Custom Application Programs.  
2.16 - Installation  
DATALOGIC  
DS4300  
The pinouts are indicated below:  
Pin  
Name  
Function  
18  
19  
6
EXT TRIG+  
EXT TRIG-  
IN1+  
external trigger +  
external trigger -  
input 1 +  
10  
14  
15  
IN1-  
IN2+  
IN2-  
input 1 -  
input 2 +  
input 2 -  
The EXT TRIG inputs are used in the ON-Line Operating mode and tells the  
scanner to scan for a code. The active state of this input is selected in  
software. Refer to the WinHost Help On Line. The yellow led, (Figure A/B,  
5
), is on when the External Trigger signals the active reading phase.  
These inputs are optocoupled and can be driven by both an NPN or PNP  
type command. The connections are indicated in the following diagrams:  
Vext  
30 Vdc max.  
DS4300  
USER INTERFACE  
+ 5V  
18/6/14  
+
-
V
19/10/15  
Signal  
Figure 2.20 - Input NPN command using external power  
DS4300  
USER INTERFACE  
9
VS  
+
V
+ 5V  
18/6/14  
19/10/15  
25  
-
Signal  
GND  
Ground  
Figure 2.21 - Input NPN command using DS4300 power  
Installation - 2.17  
DS4300  
DATALOGIC  
30 Vdc max.  
Vext  
DS4300  
USER INTERFACE  
V
+ 5V  
Signal  
18/6/14  
+
-
19/10/15  
Ground  
Figure 2.22 - Input PNP command using external power  
DS4300  
USER INTERFACE  
9
VS  
+
V
+ 5V  
Signal  
18/6/14  
19/10/15  
25  
-
GND  
Figure 2.23 - Input PNP command using DS4300 power  
The electrical features of the inputs are:  
Maximum voltage = 30 Vdc  
Maximum current = 25 mA.  
An anti-disturbance hardware filter is implemented on the External Trigger  
input (< 5 milliseconds delay).  
An additional 15 ms (typical) delay can be implemented through a dedicated  
software parameter (refer to WinHost Help On Line).  
2.18 - Installation  
DATALOGIC  
DS4300  
2.4.5 Outputs  
The following pins are present on the 25-pin connector of the scanner:  
Pin  
Name  
Function  
8
OUT1+  
OUT1-  
OUT2+  
OUT2-  
output 1 +  
output 1 -  
output 2 +  
output 2 -  
22  
11  
12  
The meaning of the two outputs OUT1 and OUT2 can be defined by the user  
(No Read, Right or Wrong). Refer to WinHost Help On Line.  
By default, OUT1 is associated with the No Read event, which activates  
when the code signalled by the External Trigger is not decoded. OUT2 is  
associated with the Right event, which activates when the code is decoded  
correctly.  
DS4300  
USER INTERFACE  
Vext 40 Vdc max  
8/11  
OUT1+/OUT2+  
22/12 OUT1-/OUT2-  
Figure 2.24 - Open collector output connection  
These outputs are both level or pulse configurable.  
Installation - 2.19  
DS4300  
DATALOGIC  
2.5 POSITIONING  
The DS4300 scanner is able to decode moving barcode labels at a variety of  
angles, however significant angular distortion may degrade reading  
performance.  
When mounting the DS4300 take into consideration these three ideal label  
position angles: Pitch 0°, Skew 10° to 30° and Tilt 0°.  
Follow the suggestions below for the best orientation:  
P
The Pitch angle is represented by  
the value P in figure 2.25. Position  
the reader in order to minimize the  
Pitch angle.  
Figure 2.25 - Pitch angle  
The Skew angle is represented by  
the value S in Figure 2.26. Position  
the reader to assure at least 10° for  
the Skew angle. This avoids the  
S
direct reflection of the laser light  
emitted by the DS4300.  
Figure 2.26 - Skew Angle  
T
The Tilt angle is represented by the  
value T in figure 2.27. Position the  
reader in order to minimize the Tilt  
angle.  
Figure 2.27 - Tilt angle  
2.20 - Installation  
DATALOGIC  
DS4300  
2.6 TYPICAL LAYOUTS  
The following typical layouts refer to system hardware configurations. Dotted  
lines in the figures refer to optional hardware configurations within the  
particular layout.  
These layouts also require the correct setup of the software configuration  
parameters. Complete software configuration procedures can be found in the  
Guide To Rapid Configuration in the WinHost Help On Line.  
2.6.1 Point-to-Point  
In this layout the data is transmitted to the Host on the main serial interface.  
Host Mode programming can be accomplished either through the main  
interface or the auxiliary interface.  
In Local Echo communication mode, data is transmitted on the RS232  
auxiliary interface independently from the main interface selection.  
When On-Line Operating mode is used, the scanner is activated by an  
External Trigger (photoelectric sensor) when the object enters its reading  
zone.  
DS4300  
Terminal  
Host  
1
3
2
Main serial interface  
1
Auxiliary serial interface (Local Echo)  
External Trigger (for On-Line mode)  
Figure 2.28 - Point-to-Point layout  
2
3
Installation - 2.21  
DS4300  
DATALOGIC  
2.6.2 Pass Through  
Pass through mode allows two or more devices to be connected to a single  
external serial interface.  
Each DS4300 transmits the messages received by the auxiliary interface  
onto the main interface. All messages will be passed through this chain to the  
host.  
When On-Line Operating mode is used, the scanner is activated by an  
External Trigger (photoelectric sensor) when the object enters its reading  
zone.  
The main and auxiliary ports are connected as shown in the figure below:  
DS4300  
DS4300  
2
1
1
3
3
Main serial interface  
Host  
1
2
Auxiliary serial interface  
External Trigger (for On-Line mode)  
3
Figure 2.29 - Pass through layout  
2.22 - Installation  
DATALOGIC  
DS4300  
2.6.3 RS232 Master/Slave  
The RS232 master/slave connection is used to collect data from several  
scanners to build either an omni-directional or a multi-sided reading system;  
there can be one master and up to 9 slaves connected together.  
The Slave scanners use RS232 only on the main and auxiliary serial  
interfaces. Each slave DS4300 transmits the messages received by the  
auxiliary interface onto the main interface. All messages will be passed  
through this chain to the Master.  
The Master scanner is connected to the Host on the main serial interface.  
The possible main interface types for the Master scanner are RS232 or  
RS485. (20 mA C.L. can also be used if the INT-24 accessory is installed).  
Either On-Line or Serial On-Line Operating modes can be used in this layout.  
When On-Line Operating mode is used, the external trigger signal is  
unique to the system however it is not necessary to bring the external  
trigger signal to the Slave scanners.  
The main and auxiliary ports are connected as shown in the figure below.  
1
DS4300 Slave  
2
2
DS4300  
Slave  
1
DS4300  
Master  
1
3
Main serial interface  
1
2
3
Host  
Auxiliary serial interface  
External Trigger (for On-Line mode)  
Figure 2.30 - RS232 Master/Slave layout  
Installation - 2.23  
DS4300  
DATALOGIC  
2.6.4 RS485 Master/Slave  
The RS485 master/slave connection is used to collect data from several  
scanners to build either an omni-directional or a multi-sided reading system;  
there can be one master and up to 5 slaves connected together.  
The Slave scanners are connected together using RS485 half-duplex on the  
main serial interface. Every Slave scanner must have a multidrop address in  
the range 0-4.  
The Master scanner is also connected to the Host on the RS232 auxiliary  
serial interface.  
The External Trigger signal is unique to the system; there is a single reading  
phase and a single message from the master scanner to the Host computer.  
It is necessary to bring the External Trigger signal to all the scanners.  
The main and auxiliary ports are connected as shown in the figure below.  
DS4300 Slave  
2
1
1
DS4300  
Slave  
3
* Master  
1
Host  
Auxiliary serial interface  
1
2
3
RS485 HD Main serial interface  
External Trigger  
Figure 2.31 - RS485 Master/Slave layout  
For a list of Master  
* DS4300 cannot be used as the Master in the RS485 Master/Slave layout.  
compatible scanners see the Guide to Rapid configuration in the WinHost Help On Line.  
2.24 - Installation  
DATALOGIC  
DS4300  
NOTE  
The auxiliary serial interface of the slave scanners can be used  
in Local Echo communication mode to control any single  
scanner (visualize collected data) or to configure it using the  
WinHost utility or Host Mode Programming procedure.  
The termination resistors of the RS485 bus must not be  
installed.  
2.6.5 Multiplexer  
Each scanner is connected to an MX4000 with the RS485 half duplex mode  
on the main interface.  
1
31  
1
0
MX4000  
2
2
2
3
3
3
Host  
RS485 HD Main interface  
Auxiliary interface (Local Echo)  
External Trigger (for On-Line mode)  
1
2
3
Figure 2.32 - Multiplexer layout  
The auxiliary serial interface of the slave scanners can be used in Local Echo  
communication mode to control any single scanner (visualize collected data)  
or to configure it using the WinHost utility or Host Mode Programming  
procedure.  
When On-Line Operating mode is used, the scanner is activated by an  
External Trigger (photoelectric sensor) when the object enters its reading  
zone.  
Installation - 2.25  
DS4300  
DATALOGIC  
This page is intentionally left blank.  
2.26 - Installation  
DATALOGIC  
DS4300  
3 READING FEATURES  
3.1 ADVANCED CODE RECONSTRUCTION  
The traditional way of barcode reading could be called "Linear Reading". In  
this case, the laser beam crosses the barcode symbol from its beginning to  
its end as shown in Figure 3.1.  
Laser Beam  
Figure 3.1 - Linear reading  
In “Advanced Code Reconstruction” mode, it is no longer necessary for the  
laser beam to cross the label from the start to the end. With just a set of  
partial scans on the label (obtained using the motion of the label itself), the  
DS4300 is able to "reconstruct" the barcode. A typical set of partial scans is  
shown in Figure 3.2.  
Code Direction  
Figure 3.2 - Partial scans  
None of the partial scans contains the whole label. The decoder aligns each  
partial scan correctly and combines them in order to obtain the entire code.  
The alignment is performed by calculating the time difference from one  
partial scan to another using a reference code element.  
Reading Features - 3.1  
DS4300  
DATALOGIC  
3.1.1 Tilt Angle for Advanced Code Reconstruction  
The most important parameter in Advanced Code Reconstruction is the  
value of the maximum tilt angle (α maximum) under which the code  
reconstruction process is still possible.  
We define the Tilt angle as the angle (α) between the laser beam and a line  
parallel to the barcode label, as shown in Figure 3.3.  
Laser Beam  
0° to max  
α
= tilt angle  
α
α
Figure 3.3 - Tilt angle  
The formulas to calculate α maximum depend on various parameters such  
as: label height, number of scans per second, code motion speed, etc. To  
obtain α maximum for your application, please contact your Datalogic  
representative.  
You must remember that the decoder will be able to read the label with a tilt  
angle between + α max and - α max as shown in Figure 3.4 (the shaded  
zones are the NO READ zones).  
0°  
-
α
+α  
Laser Beam  
Figure 3.4 - Reading zones with α max  
3.2 - Reading Features  
DATALOGIC  
DS4300  
3.2 DECODING CAPACITY IN LINEAR MODE  
When in Linear Reading mode, the number of reads performed by the  
DS4300 and therefore the decoding capacity, is influenced by the following  
parameters:  
number of scans per second  
code motion speed  
label dimensions  
scan direction with respect to code motion  
At least 5 scans during the code passage should be allowed to ensure a  
successful read.  
3.2.1 Step Ladder Mode  
Code motion  
moving at LS speed  
DS4300  
LH  
Laser Beam  
Figure 3.5 - "Step Ladder" scanning mode  
If scanning is perpendicular to the code motion direction (Figure 3.5 - "step  
ladder" mode), the number of effective scans performed by the reader is  
given by the following formula:  
SN = [(LH/LS) SS] - 2  
*
These symbols signify:  
SN = number of effective scans  
LH = label height (in mm)  
LS = label movement speed (in mm/s)  
SS = number of scans per second  
Reading Features - 3.3  
DS4300  
DATALOGIC  
For example, the DS4300 (800 scans/sec.), for a 25 mm high code moving  
at 1250 mm/s performs:  
[(25/1250) 800] - 2 = 14 effective scans.  
*
3.2.2 Picket Fence Mode  
Laser Beam  
Code motion  
moving at LS speed  
DS4300  
LW  
FW  
Figure 3.6 - "Picket Fence" scanning mode  
If scanning is parallel to the code motion, (Figure 3.6 - "picket fence" mode),  
the number of effective scans is given by:  
SN = [((FW-LW)/LS) SS] - 2  
*
These symbols signify:  
SN = number of effective scans  
FW = reading field width (in mm)  
LW = label width (in mm)  
LS = label movement speed (in mm/s)  
SS = scans per second  
For example, for a 100 mm wide code moving in a point where the reading  
field is 200 mm wide at a 2000 mm/s speed, the DS4300 (800 scans per  
sec.), performs:  
[((200-100)/2000) 800] - 2 = 38 scans  
*
3.4 - Reading Features  
DATALOGIC  
DS4300  
3.3 PERFORMANCE  
The DS4300 scanner reads codes with densities from 0.20 mm (8 mils) to  
1.00 mm (40 mils) in the zone between 50 mm (1.9 in) and 400 mm (15.7 in)  
from the emission window.  
DS4300 can be optimized for reading high density codes (between 0.20 mm  
(8 mils) and 0.30 mm (12 mils) by configuring the Code Resolution parameter  
(see WinHost Help On Line).  
Refer to the diagrams given in paragraph 3.4 for further details on the  
reading features. These diagrams are taken on various resolution sample  
codes at a 25 °C ambient temperature, depending on the conditions in the  
notes under each diagram.  
If standard devices do not satisfy specific requirements, contact your nearest  
Datalogic distributor, supplying code samples, to obtain complete information  
on the reading possibilities.  
Reading Features - 3.5  
DS4300  
DATALOGIC  
3.4 READING DIAGRAMS  
The following diagrams show the reading distance for barcodes with different  
densities.  
DS4300-100X (Code Resolution Standard)  
0.50 mm  
(20 mils)  
0.60 mm  
(24 mils)  
0.80 mm  
(31 mils)  
NOTE:  
(0,0) is the center of the laser beam output window  
CONDITIONS:  
Test Codes used  
= Interleaved 2/5 and Code 39  
(according to the Datalogic Barcode Test Chart)  
"Pitch" angle  
"Skew" angle  
"Tilt" angle  
Reading Mode  
Code Resolution  
= 0°  
= 10°  
= 0°  
= Linear  
= Standard  
3.6 - Reading Features  
DATALOGIC  
DS4300  
DS4300-100X (Code Resolution High)  
0.20 mm  
(8 mils)  
0.30 mm  
(12 mils)  
NOTE:  
(0,0) is the center of the laser beam output window  
CONDITIONS:  
Test Codes used  
= Interleaved 2/5 and Code 39  
(according to the Datalogic Barcode Test Chart)  
"Pitch" angle  
"Skew" angle  
"Tilt" angle  
Reading Mode  
Code Resolution  
= 0°  
= 10°  
= 0°  
= Linear  
= High  
Reading Features - 3.7  
DS4300  
DATALOGIC  
This page is intentionally left blank.  
3.8 - Reading Features  
DATALOGIC  
DS4300  
4 MAINTENANCE  
4.1 CLEANING  
Clean the laser beam output window periodically for continued correct  
operation of the reader.  
Dust, dirt, etc. on the window may alter the reading performance.  
Repeat the operation frequently in particularly dirty environments.  
Use soft material and alcohol to clean the window and avoid any abrasive  
substances.  
WARNING  
Clean the window of the DS4300 when the scanner  
is turned off or, at least when the laser beam is  
deactivated.  
Maintenance - 4.1  
DS4300  
DATALOGIC  
This page is intentionally left blank.  
4.2 - Maintenance  
DATALOGIC  
DS4300  
5 TECHNICAL FEATURES  
ELECTRICAL FEATURES  
Power  
Supply voltage  
10 to 30 Vdc  
5.5 W  
Power consumption max.  
Serial Interfaces  
Main  
RS232, RS485 full-duplex, RS485 half-duplex  
(20 mA C.L. only with INT-24 accessory )  
RS232  
Auxiliary  
Baud rates  
Inputs  
1200 to 115200  
External Trigger, IN1, IN2  
(optocoupled NPN or PNP)  
Voltage max.  
30 Vdc  
25 mA  
Input current max.  
User-defined OUT1 and OUT2  
Outputs  
(optocoupled open emitter, open collector)  
V
max.  
40 Vdc  
CE  
Collector current max.  
saturation  
40 mA continuous; 130 mA pulsed  
1V at 10 mA max.  
V
CE  
Power dissipation max.  
90 mW at 40 °C (Ambient temp.)  
OPTICAL FEATURES  
Light source  
Semiconductor laser diode  
630 ~ 680 nm  
Wave length (Note 1)  
Safety class  
Class 2 - IEC 825-1; Class II - CDRH  
READING FEATURES (Note 2)  
Scan rate  
800 scans/sec  
60°  
Aperture angle  
Reading distance  
50 mm (1.9 in) to 400 mm (15.7 in)  
0.20 mm (8 mils)  
Maximum resolution  
USER INTERFACE  
LED indicators  
Ready, Good Read, External Trigger ,  
Data Transmission, Laser Beam Active  
Technical Features - 5.1  
DS4300  
DATALOGIC  
SOFTWARE FEATURES  
READABLE CODE SYMBOLOGIES  
EAN/UPC  
Code 93  
2/5 Interleaved  
Code 39  
Code 128  
EAN 128  
Codabar  
Pharmacode  
up to six codes during one reading phase  
can enable multiple good reads of same code  
up to four headers and four terminators  
ON LINE, AUTOMATIC, SERIAL ON LINE, TEST  
through menus using WinHost utility  
CODE SELECTION  
DECODING SAFETY  
HEADERS AND TERMINATORS  
OPERATING MODES  
CONFIGURATION MODES  
receiving commands from one of the serial  
ports (HOST MODE)  
Non-volatile internal memory  
PARAMETER STORAGE  
ENVIRONMENTAL FEATURES  
Operating temperature (Note 3)  
Storage temperature  
0 to 40 °C (32 to 104 °F)  
-20 to 70 °C (-4 to 158 °F)  
90% non condensing  
Humidity max.  
Vibration resistance  
IEC 68-2-6 test FC 1.5 mm;  
10 to 55 Hz; 2 hours on each axis  
IEC 68-2-27 test EA 30G;  
11 ms; 3 shocks on each axis  
IP65  
Shock resistance  
Protection class  
PHYSICAL FEATURES  
Mechanical dimensions  
Weight  
101 x 83.5 x 42 mm (3.97 x 3.29 x 1.65 in.)  
about 800 g. (28.2 oz.)  
Note 1: The features given are typical at a 25 °C ambient temperature (if not otherwise  
indicated).  
Note 2: Further details given in paragraphs 3.3 and 3.4.  
Note 3: If the reader is used in high temperature environments (over 35 °C), use of the Beam  
shutter is advised (for details refer to the WinHost Help On Line).  
5.2 – Technical Features  

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