DS6300 QUICK REFERENCE GUIDE. 821000689 (Rev. J)

DS63 QUICK REFERENCE GUIDE 8689 (Rev. J)

UPDATES AND LANGUAGE AVAILABILITY UK/US I F D E The latest drivers and documentation updates for this product are available on Internet. Log on to: www.automation.datalogic.com Su Internet sono disponibili le versioni aggiornate di driver e documentazione di questo prodotto. Questo manuale è disponibile anche nella versione italiana. Collegarsi a: www.automation.datalogic.com Les versions mises à jour de drivers et documentation de ce produit sont disponibles sur Internet. Ce manuel est aussi disponible en version française. Cliquez sur : www.automation.datalogic.com Im Internet finden Sie die aktuellsten Versionen der Treiber und Dokumentation von diesem Produkt. Die deutschsprachige Version dieses Handbuches ist auch verfügbar. Adresse : www.automation.datalogic.com En Internet están disponibles las versiones actualizadas de los drivers y documentación de este producto. También está disponible la versión en español de este manual. Dirección Internet : www.automation.datalogic.com SERVICES AND SUPPORT Datalogic provides several services as well as technical support through its website. Log on to www.automation.datalogic.com and click on the links indicated for further information: PRODUCTS Search through the links to arrive at your product page which describes specific Info, Features, Applications, Models, Accessories, and Downloads including the Genius utility program, which allows device configuration using a PC. It provides RS3 and Ethernet interface configuration. SERVICE - Overview - Warranty Extensions and Maintenance Agreements - Sales Network- Listing of Subsidiaries, Repair Centers, Partners - Helpdesk - Material Return Authorization LEGAL NOTICES 3 - Datalogic Automation S.r.l. ALL RIGHTS RESERVED. Protected to the fullest extent under U.S. and international laws. Copying, or altering of this document is prohibited without express written consent from Datalogic Automation S.r.l. Datalogic and the Datalogic logo are registered trademarks of Datalogic S.p.A. in many countries, including the U.S.A. and the E.U. Genius, Step-a-Head, ACR, and ID-NET are trademarks of Datalogic Automation S.r.l. All other brand and product names mentioned herein are for identification purposes only and may be trademarks or registered trademarks of their respective owners. Datalogic shall not be liable for technical or editorial errors or omissions contained herein, nor for incidental or consequential damages resulting from the use of this material.

DS63 GENERAL VIEW 3 Standard Figure A Laser Beam Output Window Laser Safety Label 3 Ethernet 3 DeviceNet Figure B Laser Beam Output Window Laser Safety Label 3 6 Profibus Figure D Lonworks 9-pin Male Connector Lonworks 9-pin Female Connector 3 Serial Interface and I/O -pin (6-pin) male Connector 3 RJ Modular Ethernet Connector DeviceNet -pin Male Connector Figure C 6 Profibus 9-pin Female Connector (white) Programming Keypad TX Data LED (Green) Power On LED (Red) LCD Display 3 Phase On LED (Yellow) NOTE For further details on product installation, see the complete Reference Manual available on the configuration CD-ROM included with this product. 3

CONNECTIVITY Examples of the most common system layouts are shown in this section, for additional layouts refer to the Reference Manual. Local Lonworks Networks CAB-Sxx CAB-6x BT-6 CBX** Master Local Host Slave P.S.* I/O, AUX BT-6 CAB-63xx PWR- * P.S. (Presence Sensor) connected to Input (External Trigger/PS) input. ** CBX jumper set to accept scanner power. Small Synchronized Network with Readers CAB-6x BT-6 CBX** CAB-6x Slave 3 Slave Master I/O, AUX, Encoder*** P.S.* Local Host Slave Slave PWR- CAB-6x CAB-6x CAB-Fx CAB-63xx BTK-8 CAB-63xx Note: In a mixed 8K and 6K family scanner network, only the 8K family scanner can be Master * P.S. (Presence Sensor) connected to Input (External Trigger/PS) input. ** CBX jumper set to accept scanner power. *** Encoder connected to Input (Encoder) input. Synchronized Network with DS8A Master and 6K Family Slaves - Serial Host

Fieldbus CAB-6x BT-6 CBX** Slave 3 Slave Remote Host CAB-6x I/O, AUX, Encoder*** P.S.* Slave Slave Master* PWR- CAB-6x CAB-6x CAB-63xx CAB-Fx CAB-63xx * P.S. (Presence Sensor) connected to Input (External Trigger/PS) input. ** CBX jumper set to accept scanner power. *** Encoder connected to Input (Encoder) input. Synchronized Network with DS63 Master and 6K Family Slaves - Fieldbus Host P.S.* P.S.* P.S.* P.S.* Slave 3 Slave Slave Master CAB-6x CAB-6x CAB-6x BT-6 BT-6 PG6 PG6 PG6 PG6 CAB-Sxx CAB-Sxx CAB-Sxx CAB-Sxx Local Host CBX * Each P.S. (Presence Sensor) connected to Input (External Trigger/PS) input. Multidata Network NETWORK TERMINATION When building a local Lonworks system the network must be properly terminated by positioning a BT-6 terminator on the DS63 master reader (BT-6 female side) and on the last slave reader (BT-6 male side). to Master 9-pin female to Slave 9-pin male BT-6 Network Terminator

ELECTRICAL CONNECTIONS The details of the connector pins are indicated in the following tables: The table below gives the pinout of the CBX/CBX terminal block connectors. Use this pinout when the DS63 reader is connected by means of the CBX/CBX: CBX/ Terminal Block Connectors Power Vdc Power Supply Input Voltage + GND Power Supply Input Voltage - Earth Protection Earth Ground Inputs +V Power Source Inputs -V Power Reference Inputs IA EXT TRIG/PS A (polarity insensitive) for PS IB EXT TRIG/PS B (polarity insensitive) for PS IA IN /ENC A (polarity insensitive) for Encoder IB IN /ENC B (polarity insensitive) for Encoder I3A IN 3A (polarity insensitive) (only with CBX) IA IN A (polarity insensitive) (only with CBX) I3B IN 3B/IN B Reference (polarity insensitive) (only with CBX) Outputs +V Power Source - Outputs -V Power Reference - Outputs O+ OUT + O- OUT - O+ OUT + O- OUT - O3A OUT 3A (polarity insensitive) (only with CBX) O3B OUT 3B (polarity insensitive) (only with CBX) Auxiliary Interface TX Auxiliary Interface TX RX Auxiliary Interface RX SGND Auxiliary Interface Reference Shield Shield Network Cable Shield Main Interface RS3 RS8 Full-Duplex RS8 Half-Duplex TX TX+ RTX+ RTS TX- RTX- RX *RX+ CTS *RX- SGND SGND SGND * Do not leave floating, see Reference Manual for connection details. CAUTION Do not connect GND and SGND to different (external) ground references. GND and SGND are internally connected through filtering circuitry which can be permanently damaged if subjected to voltage drops over.8 Vdc. 6

The DS63 scanner provides a -pin (6-pin for Fieldbus models) male D-sub connector for connection to power supply, Host interface (Main and Aux), and input/output signals. -pin / 6-pin D-Sub Connector Pinout Pin Name Function CHASSIS Chassis - internally connected to GND Cable shield connected to chassis RXAUX Receive data of auxiliary RS3 (referred to GND) TXAUX Transmit data of auxiliary RS3 (referred to GND) 8 OUT + Configurable digital output positive pin 3 OUT - Configurable digital output negative pin OUT + Configurable digital output positive pin OUT - Configurable digital output negative pin 6 OUT 3A Configurable digital output 3 polarity insensitive -pin male D-sub Connector 7 OUT 3B Configurable digital output 3 polarity insensitive 8 EXT_TRIG/PS A External trigger (polarity insensitive) for PS 9 EXT_TRIG/PS B External trigger (polarity insensitive) for PS 9 6 IN/ENC A Input signal (polarity insensitive) for Encoder 8 IN/ENC B Input signal (polarity insensitive) for Encoder 9 6 IN3A Input signal 3 (polarity insensitive) 6-pin male D-sub Connector INA Input signal (polarity insensitive) IN_REF Common reference of IN3 and IN (polarity insensitive) 9, 3 VS Supply voltage positive pin 3,, 6 GND Supply voltage negative pin Main Interface Pin RS3 RS8 Full-Duplex RS8 Half-Duplex TX TX8+ RTX8+ 3 RX * RX8+ RTS TX8- RTX8- CTS * RX8-7 GND_ISO GND_ISO GND_ISO * Do not leave floating, see Reference Manual for connection details. Two 9-pin connector(s) provide access to the scanner s local Lonworks network. The Master/Slave model has two Lonworks connectors used for both input and output connections to build a multi-sided or omni-station system. The Fieldbus models have one Lonworks connector and therefore can be used in a Lonworks network only as a Master. 9-pin Lonworks Connector Pinout Pin Name Function CHASSIS Cable shield internally connected by capacitor to chassis 9 VS Supply voltage positive pin GND Supply voltage negative pin 6 VS_I/O Supply voltage of I/O circuit 3 Ref_I/O Reference voltage of I/O circuit SYS_ENC_I/O System signal SYS_I/O System signal 7 LON A Lonworks line (polarity insensitive) 8 LON B Lonworks line (polarity insensitive) 9 6 Female 6 9 Male (M/S model only) 9-pin Local Lonworks Connectors 7

Ethernet Model DS63 RJ Modular Connector HUB / SWITCH TX+ TX- RX+ 3 3 8 n. c. n. c. RX- 6 6 n. c. n. c. 7 8 7 8 RJ Female Connector n. c. = not connected DeviceNet Model NOTE When using DeviceNet, the Main serial interface is disabled and must not be physically connected. -pin DeviceNet Connector Pinout Pin Name Function V+ Supply voltage positive pin 3 CAN_L CAN bus data line L SHIELD Shield CAN_H CAN bus data line H 3 V- Supply voltage negative pin -pin male DeviceNet Connector NOTE The power supplied on pin V+ and V- is used only to propagate power to the section of the DeviceNet board directly connected to the Bus. It is completely isolated from the DS63 power which must be supplied on pin 9, 3 and pin 3, of the 6-pin Main/Aux connector. Profibus Model 9-pin Profibus Connector Pin Name Function Shield Shield, Protective Ground resp. (optional) Free 3 B-LINE (RxD/TxD-P) Received/Transmitted Data-P CNTR-P Repeater Control Signal (optional, RS8 level) DGND Data Ground (MV) 6 + V Voltage Plus (PV) 7 Free 8 A-LINE (RxD/TxD-N) Received/Transmitted Data 9 CNTR-N Repeater Control Signal 9 6 9-pin female Profibus Connector (white) 8

APPENDIX TECHNICAL FEATURES ELECTRICAL FEATURES Supply Voltage Power Consumption Common Communication Interfaces Model-Dependent Communication Interfaces Inputs Ext. Trigger, Encoder aux. digital inputs Outputs 3 software programmable digital outputs OPTICAL FEATURES Light Receiver Wavelength Safety Class Laser Control READING FEATURES Scan rate Maximum Resolution Max. Reading Distance Max. Reading Width Max. Depth of Field USER INTERFACE LCD Display Keypad LED Indicators Main to 3 Vdc. to. A; W typical.3 to. A; W Max. (including startup current) Baud Rate RS3 RS8 full-duplex to RS8 half-duplex Auxiliary RS3 to Other Lonworks Ethernet DeviceNet Profibus (optocoupled NPN or PNP) (optocoupled) Avalanche photodiode. Mb/s Mb/s up to Kb/s up to Mb/s 63 to 68 nm Class - EN68-; Class II - CDRH Security system to turn laser off in case of motor slow down 6 to scans/s (see reading diagrams) lines by 6 characters LCD 3 keys Power On (red) Phase On (yellow) TX Data (green) 9

SOFTWARE FEATURES Readable Codes Interleaved / Code 39 Standard Codabar Code 8 EAN 8 Code 93 (standard and full ASCII) EAN/UPC (including Add-on and Add-on ) GS DataBar (including Limited and Expanded) Code Selection Up to codes during one reading phase Headers and Terminators Up to 8-bytes headers and 8-bytes terminators Operating Modes On Line, Serial On Line, Automatic, Test, Continuous Configuration Modes Genius utility program Parameter Storage Non-volatile internal FLASH ENVIRONMENTAL FEATURES Operating Temperature Storage Temperature Humidity Ambient Light Immunity Vibration Resistance EN 668--6 hours on each axis Shock Resistance EN 668--7 3 shocks on each axis Ethernet models to + C (+3 to + F) - to +7 C (- to +8 F) 9% non condensing 3 lux mm @ to Hz;. mm @ 3 to Hz; g @ 7 to Hz 3 g; ms Master/Slave models Protection Class EN 69 IP IP6 PHYSICAL FEATURES Standard models Oscillating Mirror models Mechanical Dimensions x3x99 (.33x.x3.9) 3x8x. (.x7.8x.) Weight. kg (3.3 lb). kg (. lb) MODEL DESCRIPTION DS63 - X - YY Optical Model (Head) = Standard = Oscillating Mirror Decoder Model (Base) = Master/Slave = Profibus = Ethernet = Devicenet

ACCESSORIES Name Description Part Number Power Supplies PG6 Single unit power supply (US) 93ACC78 PG6 Single unit power supply (UK) 93ACC79 PG6 Single unit power supply (EU) 93ACC7 PWR- J-box power unit /3 VAC V W 93ACC3 PWR- J-box power unit /3 VAC V W 93ACC7 PWR-8A J-box power unit /3 VAC V 8 W 93ACC8 Cables and Terminators BT-6 Bus terminator 93A99 CAB-6 9-pin scanner/scanner connection cable m 93A CAB-6 9-pin scanner/scanner connection cable m 93A3 CAB-6 9-pin scanner/scanner connection cable m 93A CAB-6 9-pin scanner to scanner no power cable m 93A CAB-6 9-pin scanner to scanner no power cable m 93A CAB-63 -pin power cable Fam 6k m 93ACC768 CAB-63 -pin power cable Fam 6k m 93ACC7 CAB-S STD cable to CBX m (-pin to -pin) 93A3 CAB-S STD cable to CBX m (-pin to -pin) 93A3 CAB-S STD cable to CBX m (-pin to -pin) 93A33 CAB-S STD cable to CBX m (-pin to -pin) 93A3 CAB-F 6K-8K FBUS cable to CBX m (6-pin to -pin) 93A3 CAB-F 6K-8K FBUS cable to CBX m (6-pin to -pin) 93A36 CAB-F 6K-8K FBUS cable to CBX m (6-pin to -pin) 93A37 CAB-6 Fam 6K-8K cross cable. m (9-pin to 7-pin) 93A88 CAB-6 Fam 6K-8K cross cable m (9-pin to 7-pin) 93A89 Software Management Datalogic WebSentinel- Supervisor (up to arrays) 93A Datalogic WebSentinel- Supervisor (up to arrays) 93A Datalogic WebSentinel- Supervisor (up to arrays) 93A6 Datalogic WebSentinel-3 Supervisor (up to 3 arrays) 93A7 Datalogic WebSentinel-6 Supervisor (up to 6 arrays) 93A8 Datalogic WebSentinel-8 Supervisor (up to 8 arrays) 93A9 Datalogic WebSentinel-6 Supervisor (up to 6 arrays) 93A Mirrors GFC-6 9 mirror 93A GFC-6 9 mirror close distance 93A * Connection Boxes CBX Compact Connection Box 93A367 CBX Modular Connection Box 93A368 CBX8 Gateway Connection Box 93A377 BM Backup Module 93ACC88 BA DIN Rail Adapters for CBX 93ACC8 BA Bosch Adapters for CBX 93ACC8 BA9 Two Cable Glands Panel 93ACC87 Sensors MEP-93 Photocell kit PNP (PH-) 93ACC79 MEP-3 Photocell kit NPN 93ACC78 OEK- Optical encoder kit ( m cable + spring) 93ACC77 OEK- Optical encoder kit + m cable 93ACC6 Brackets FBK-6 Fast bracket kit ( pcs) 93ACC7 US-6 Mounting bracket kit ( pcs) for multisided stations 89 * DS63 application software does not support any of the CBX Host Interface Module accessories nor the BM Display accessory. Use the CBX8 Gateway for Host Interface Applications, (Fieldbus and non Fieldbus).

OSCILLATING MIRROR MODEL Figure A Laser Beam Output Window Oscillating mirror models are used when coverage of a large reading area is required, mainly in picket fence applications. The DS63 scanner mounts a dedicated optic head with integrated oscillating mirror driven by a linear motor. The speed, precision, repeatability, and reliability of this driving technology assure high level performance. The new oscillating mirror is completely software controlled and software programmable. The Genius software tool allows adjusting the linear motor speed (oscillating frequency) and the upper and lower limits of the oscillation by defining the top and bottom line limit angles. When the oscillating mirror is programmed to read barcode labels at very small angles, position the reader to assure at least for the Skew angle (see DS63 Reference Manual). This angle refers to the most inclined or external laser line, so that all other laser lines assure more than Skew. This avoids the direct reflection of the laser light emitted by the reader. Oscillating Mirror Skew Angle Otherwise, the scanner can be mounted at an angle of inclination of 7. in order to attain symmetrical deflection ranges. 7. 7. Oscillating Mirror Reading Position In the above case, the zone where the scan line is perpendicular to the reflecting surface corresponds to a neutral zone at the center of the reading field.

The mirror can be deflected up to. Oscillation with respect to the output window median axis is asymmetrical (see figure below). 37. -. Oscillating Mirror Maximum Aperture and Asymmetry By configuring the oscillating speed up to the maximum value of 9 Hz, raster emulation can be performed for reading fast moving objects. Hz Max. Aperture - 6-3 - 6-9 NOTE By limiting the raster width to the minimum necessary, the number of scans on the reading surface is increased. Oscillating angles are selected in software where the minimum and maximum angles correspond to. and +37.. The scanner can be tilted in order for the 7. software setting to correspond with the horizontal plane. +37. -. +7. Oscillating Mirror Extreme Angle Positions These models provide higher scanning speed ( scans/sec) compared to standard models and the reading performance is not adversely effected by the oscillating mirror. The example represents the selection of an angle of + for the bottom line and an angle of + for the top line (see figure beside). +37. +7. +7. Oscillating Mode 3

MECHANICAL INSTALLATION The DS63 reader can be positioned and installed in the best way possible as a result of the patented Step-A- Head TM feature. Thanks to the separation between Head and Base, you can modify the orientation of the decoder base, and therefore display-keypad and connector panels, while keeping the optic head in the correct reading position. The reading head and the decoder base can be rotated independently from each other allowing the installation even in the most critical locations. To rotate the head follow the given procedure:. detach the head from the base by unscrewing the four fixing screws; Head Screws. rotate the head in the desired position; 3. loosen but don t remove the two screws on top of the head;. affix the head onto the base carefully aligning the four fixing screws and Fixing progressively tightening them about half-way; Screw (). completely tighten the two screws on top of the head; 6. completely tighten the four fixing screws. Step-A-Head Feature The following diagrams give the overall dimensions of the reader standard model, oscillating mirror model and mounting bracket. They may be used for their installation: 6.36 6..6 8 3.3.98 8.7 N..6.86. 76.99 3.8 3.8 8 3. 99 3.9.96.78 Ø. N Ø.6 N 7.8. N SLOTS.8 N SLOTS 3.37.96 8 3. 6.96 6 3. = =.96 7.83 3.93 = = 73..88 3. mm inch 8. N SLOTS.33 N SLOTS Ø8. Ø.33 36. mm inch.33 DS63 Overall Dimensions ST-37 Mounting Bracket Overall Dimensions 6 3.36.8.98 8.7..6.86.96. 8 6. 3.3.6 3. 8 3..96.78 Ø..6 3.37.. 63.. 69.7 6..8 99 3.9.3.96 7.3..83. 3.93 R R R36.3.3. 8 7.8 3. mm inch R Ø8. 36. 7.9 mm inch DS63 Oscillating Mirror Model Overall Dimensions ST- Mounting Bracket Overall Dimensions

6 Skew Positioning The DS63 scanner is mounted on the ST-37 6 mounting bracket which guarantees a built-in Skew angle (S in the figure below) of 6 with respect to the frame plane (typically the Skew angle should be between - ). This avoids the direct reflection of the laser light emitted by the scanner. Furthermore, the bracket guides allow adjusting the Tilt angle (T in the figure below, which is typically ) for the best scanner orientation: T S Conveyor Direction Skew Positioning The DS63 scanner is mounted on the ST- 9 mounting bracket. By adjusting the mounting bracket guides, reach for the Skew angle (S in the figure below) to avoid the direct reflection of the laser light emitted by the scanner: S CAUTION If using the Skew installation, the scanner reading performance is not guaranteed to match that measured for the standard installation with Skew angle between - (see reading diagrams). NOTE The ST- mounting bracket is an accessory of the DS63 standard model available in the US-6 kit (89). WARNING When installing several scanners, take care to position them correctly so that no laser beam enters the reading window perpendicularly and at the same level of the output beam of the other scanners. This condition could occur more frequently for side mounted applications. If these precautions are not followed, it may occur that the laser of the blinded scanner starts blinking due to an internal circuit which temporarily turns the laser off when detecting a power anomaly. To resolve this problem, it is sufficient to slightly change the inclination and position of one of the two scanners involved.

Adjustment The DS63 provides a manual adjustment of the optics to optimize the reading performance by choosing the best focus between two extreme positions. The focus adjustment is continuous and not by step; thus, allowing an optimum adjustment around the selected position. The relative focus positions range from to. The adjustment can be simply made through an external screw placed on the back of the optic HEAD and protected by a cap. The screw may be rotated either clockwise or counterclockwise in order to move the scanner internal lenses. In particular, a clockwise rotation causes a farther focus from the scanner, while a counterclockwise rotation causes a nearer focus to the scanner. An internal sensor tracks the exact laser beam focusing position allowing it to be shown on the reader display or through the Genius software program. WARNING Do not stare at the laser beam output window during this operation to avoid hazardous visible laser light. Refer to the following instructions when adjusting the focus: ) Remove the regulation screw protecting cap (see following Figure) positioned on the back of the optic Head; ) Press and hold both the (up arrow) and (down arrow) key for about seconds to enter the Main menu; 3) Use the (up arrow) or (down arrow) key to select Test Mode item, then press the ENT (enter) key to confirm. The reader enters Test Mode; ) Press the ENT (enter) key to toggle between the graphical (default) and numerical visualization of the focus position; Display Visualization The first line of the display shows the read code and Good Read percentage. Possible suspending commas at the end of the code mean that the code is too long to be displayed. The second line of the display indicates the value of the focus position according to the table below. The indications Too Near or Too Far are represented for values outside the focus range. A B C Graphical Visualization ---^---------- where ^ indicates the focus position N------------- where N indicates that the focus position is Too Near --------------F where F indicates that the focus position is Too Far Numerical Visualization Fxxx where xxx ranges from to Too Near Fxxx* where xxx is greater than CodeRead % ------^------------------ CodeRead 9% F3 Graphical Visualization Normal Visualization ) Rotate the focus adjustment screw to reach the desired focus position. The display is refreshed with the new values; 6) Press the (up arrow) key to exit the Test Mode; To avoid breakage, do not use excessive force when rotating the focus adjustment screw. 6

7) Use the (up arrow) and (down arrow) key to select the Exit item, then press the ENT (enter) key to confirm. The scanner exits the Main Menu and returns to its current operating mode. Adjustment Screw NOTE The reader display shows the focus position only when the laser beam is activated. It is possible to visualize the focus position and the reading percentage on the terminal tool provided by the Genius configuration program (see Genius Help On-Line for details). READING CONDITIONS ANSI Grade B minimum 8 scans/sec The following tables describe the requirements for standard applications. Minimum Code Height for ACR Reading (mm) 3 Conveyor Speed (m/s)... 3... 3. 6 8 7 9 3.3 7 9 8 9 / Interleaved Code Resolution (mm) Ratio 3:.33 3 6 8 8 3 6.38 6 8 9 3 9 7. 8 9 3 6 7 8.7 7 8 3 3 6 7 9. 33 3 3 36 38 3 6 Table Minimum Code Height for ACR Reading (mm) 3 Conveyor Speed (m/s)... 3... 3. 9 6 7 6 7 9 3.3 3 7 8 7 8 9 Code 39 Code Resolution (mm) Ratio 3:; Interdigit = Module Size.33 3 7 9 7 8 3.38 3 6 8 8 9 3. 6 7 8 3 6.7 3 6 3 3 7 8. 7 8 9 3 3 3 7 7 8 9 Table 7

Minimum Code Height for ACR Reading (mm) 3 Conveyor Speed (m/s)... 3... 3. 8 9 3 7 7 8 3.3 8 6 8 6 7 9 3 Code 8 Ean 8 Code Resolution (mm).33 9 3 6 8 6 8 9.38 3 7 9 7 8 3. 3 7 9 8 9.7 6 7 9 3 6 7. 3 7 9 3 7 8 Table 3 Minimum Code Height for ACR Reading (mm) 3 Conveyor Speed (m/s)... 3... 3. 8 9 3 7 7 8 3.3 9 6 8 6 7 9 3 Codabar Code Resolution (mm) Ratio 3:; Interdigit = Module Size.33 9 3 6 8 6 8 9.38 3 7 9 7 8 3. 3 7 9 8 9.7 7 8 9 3 6 7. 3 6 7 9 6 7 8 Table Minimum Code Height for ACR Reading (mm) 3 Conveyor Speed (m/s)... 3... 3. 7 9 6 6 8 9.3 8 9 3 7 6 7 8 3 EAN 8-3, UPC-A Code Resolution (mm).33 9 3 7 6 7 9 3.38 6 8 7 7 9 3. 3 7 9 8 9 3.7 6 7 8 9 3 6. 3 6 3 6 6 8 Table 8

READING DIAGRAMS In the following reading diagrams (,) is the center of the laser beam output window. DS63--XX Resolution:. mm/8 mils 6 8 6 8 (in) 3 3 6 (cm) 8 Position = Position = 6 CONDITIONS Code = Interleaved / or Code 39 PCS =.9 Pitch angle = Skew angle = - Tilt angle = - - -6-8 - (in) - - - - - (cm) DS63--XX Resolution:.3 mm/ mils 8 6 8 6 8 3 3 3 (in) 3 3 6 6 7 7 8 8 (cm) 3 8 6 Position = CONDITIONS Code = Interleaved / or Code 39 PCS =.9 Pitch angle = Skew angle = - - - Position = Tilt angle = - - -6 - -8 - - - (in) - -3 (cm) Position = 6 9

READING DIAGRAMS DS63--XX Resolution:.38 mm/ mils 6 8 6 8 3 3 3 36 38 (in) 3 3 6 6 7 7 8 8 9 9 (cm) 6 3 3 Position = 8 CONDITIONS Code = Interleaved / or Code 39 PCS =.9 Pitch angle = Skew angle = - Tilt angle = 6 - - - - -6 - -8 - Position = - - - -3 Position = 6 - -3-6 - (in)(cm) DS63--XX Resolution:. mm/ mils 8 6 8 3 36 8 6 (in) 3 6 7 8 9 3 (cm) 6 Position = CONDITIONS Code = Interleaved / or Code 39 PCS =.9 Pitch angle = Skew angle = - Tilt angle = 6 8 - -8 - -6 - - (in) 3 - - -3 - - -6 (cm) Position = 6 Position =

READING DIAGRAMS DS63--XX (Oscillating Mirror) Resolution:. mm/8 mils 6 8 6 8 (in) 3 3 6 (cm) 8 Position = Position = 6 CONDITIONS Code = Interleaved / or Code 39 PCS =.9 Pitch angle = Skew angle = - Tilt angle = - - -6-8 - (in) - - - - - (cm) DS63--XX (Oscillating Mirror) Resolution:.3 mm/ mils 8 6 8 6 8 3 3 3 (in) 3 3 6 6 7 7 8 8 (cm) 3 CONDITIONS Code = Interleaved / or Code 39 8 6 Position = Position = PCS =.9 Pitch angle = Skew angle = - - - Tilt angle = - - -6 - -8 - - - (in) - -3 (cm) Position = 6

READING DIAGRAMS DS63--XX (Oscillating Mirror) Resolution:.38 mm/ mils 6 8 6 8 3 3 3 36 38 (in) 3 3 6 6 7 7 8 8 9 9 (cm) 6 3 3 Position = 8 CONDITIONS Code = Interleaved / or Code 39 PCS =.9 Pitch angle = Skew angle = - Tilt angle = 6 - - - - -6 - -8 - Position = - - - -3 Position = 6 - -3-6 - (in)(cm) DS63--XX (Oscillating Mirror) Resolution:. mm/ mils 8 6 8 3 36 8 6 (in) 3 6 7 8 9 3 (cm) 6 Position = CONDITIONS Code = Interleaved / or Code 39 PCS =.9 Pitch angle = Skew angle = - Tilt angle = 6 8 - -8 3 - - Position = 6 - -3-6 - - - Position = - (in) -6 (cm)

COMPLIANCE See the DS63 Reference Manual for the Declaration of Conformity. LASER SAFETY Figure A Laser Beam Output Window Laser Safety Label Figure B Laser Beam Output Window Laser Safety Label The scanner is classified as a Class laser product according to EN 68- regulations and as a Class II laser product according to CDRH regulations. Disconnect the power supply when opening the device during maintenance or installation to avoid exposure to hazardous laser light. 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 the Genius Help On-Line). AVOID EXPOSURE LASER RADIATION IS EMITTED FROM THIS APERTURE AVOID EXPOSURE LASER LIGHT IS EMITTED FROM THIS APERTURE Laser Safety Label for Oscillating Mirror and Standard Models DATALOGIC S.p.A. Via Candini, LIPPO DI CALDERARA DI RENO (BO) ITALY MANUFACTURED VOLT Amp. JANUARY -3 DC.3-. MODEL No. SERIAL No. N68 This product conforms to the applicable requirements of CFR at the date of manufacture. Warning and Device Class Label Device Identification Label The laser diode used in this device is classified as a Class 3B laser product according to EN 68- regulations and as a Class IIIb laser product according to CDRH regulations. Any violation of the optic parts in particular can cause radiation up to the maximum level of the laser diode (3 mw at 63 ~ 68 nm). 3

POWER SUPPLY This product is intended to be installed by Qualified Personnel only. - All DS63 Models: This device is intended to be supplied by a UL Listed Power Unit marked Class or LPS power source which supplies power directly to the scanner via the /6-pin connector. CE COMPLIANCE Warning: This is a Class A product. In a domestic environment this product may cause radio interference in which case the user may be required to take adequate measures. FCC COMPLIANCE Modifications or changes to this equipment without the expressed written approval of Datalogic could void the authority to use the equipment. This device complies with PART of the FCC Rules. Operation is subject to the following two conditions: () This device may not cause harmful interference, and () this device must accept any interference received, including interference which may cause undesired operation. This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense. PATENTS This product is covered by one or more of the following patents. U.S. patents:,99,7; 6,39,3 B; 6,3,36 B; 6,688, B; 6,7,7 B; 7,9,6 B;,8,77;,,38;,66,9;,8,7; 6,6,89 B; 6,669,9 B; 7,,838 B. European patents: 789,3 B; 99,6 B9;,96,6 B;,3,798 B;,7,7 B. Japanese patents:,376,33. Additional patents pending.