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1 2 3 | External Photos | August 12 2014 / September 12 2014 | ||||||
1 2 3 | Internal Photos | August 12 2014 / September 12 2014 | ||||||
1 2 3 | Test Setup Photos | August 12 2014 / September 12 2014 | ||||||
1 2 3 | Test Report | August 12 2014 / September 12 2014 | ||||||
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1 2 3 | Test Setup Photos | / January 09 2012 |
1 2 3 | Integration Guide | Users Manual | 1.54 MiB | August 12 2014 / September 12 2014 |
DE2011-DL Bar Code Scan Engine Integration Guide Datalogic ADC, Inc. 959 Terry Street | Eugene | OR 97402 | USA Telephone: (1) 541-683-5700 | Fax: (1) 541-345-7140 2014 Datalogic, Inc. An Unpublished Work - All rights reserved. No part of the contents of this documentation or the procedures described therein may be reproduced or transmitted in any form or by any means without prior written permission of Datalogic ADC, Inc. or its subsidiaries or affiliates
("Datalogic" or "Datalogic ADC"). Owners of Datalogic products are hereby granted a non-exclu-
sive, revocable license to reproduce and transmit this documentation for the purchaser's own internal business purposes. Purchaser shall not remove or alter any proprietary notices, including copyright notices, contained in this documentation and shall ensure that all notices appear on any reproductions of the documentation. Should future revisions of this manual be published, you can acquire printed versions by con-
tacting your Datalogic representative. Electronic versions may either be downloadable from the Datalogic website (www.datalogic.com) or provided on appropriate media. If you visit our website and would like to make comments or suggestions about this or other Datalogic publi-
cations, please let us know via the "Contact Datalogic" page. Disclaimer Datalogic has taken reasonable measures to provide information in this manual that is com-
plete and accurate, however, Datalogic reserves the right to change any specification at any time without prior notice. Datalogic and the Datalogic logo are registered trademarks of Datalogic S.p.A. in many coun-
tries, including the U.S.A. and the E.U. All other brand and product names may be trademarks of their respective owners. This product is covered by one or more of the following patents:
Patents Utility Patents: EP0996284B1; EP0999514B1; EP1128315B1; EP1172756B1; EP1396811B1;
EP1413971B1; EP1804089B1; EP1828957B1; JP4435343B2; JP5192390B2; US6478224;
US6512218; US6808114; US6877664; US6997385; US7053954; US7234641; US7387246;
US8113430; ZL200680050007.8. Table of Contents INTRODUCTION........................................................................................................................................................................................... 1 About this Manual ...................................................................................................................................................................................................1 Manual Conventions ..............................................................................................................................................................................1 Outline ..............................................................................................................................................................................................................1 Technical Support .....................................................................................................................................................................................................2 Datalogic Website Support .............................................................................................................................................................................2 Reseller Technical Support .............................................................................................................................................................................2 Telephone Technical Support .........................................................................................................................................................................2 About the DE2011-DL .............................................................................................................................................................................................2 Unpacking the Scan Engine ............................................................................................................................................................................2 Scan Engine Care .............................................................................................................................................................................................2 External Optics .......................................................................................................................................................................................2 System Overview .............................................................................................................................................................................................3 Illumination System ........................................................................................................................................................................................3 Regulatory ..............................................................................................................................................................................................3 Aiming System ................................................................................................................................................................................................3 Aiming Pattern .......................................................................................................................................................................................4 Aiming System Parameters .................................................................................................................................................................4 Regulatory ...............................................................................................................................................................................................4 INSTALLATION............................................................................................................................................................................................ 7 Mounting the Scan Engine ......................................................................................................................................................................................7 General Considerations ..................................................................................................................................................................................7 Mechanical Size ...............................................................................................................................................................................................7 Mounting Holes ...............................................................................................................................................................................................8 Housing Design ...............................................................................................................................................................................................8 Positioning the exit window .................................................................................................................................................................8 Avoiding scratched windows ................................................................................................................................................................9 Window material ....................................................................................................................................................................................9 Exit window properties ........................................................................................................................................................................10 Optical paths and exit window clearance ..........................................................................................................................................11 Environment .........................................................................................................................................................................................12 ELECTRICAL INTEGRATION...................................................................................................................................................................... 13 Electrical Connections ...........................................................................................................................................................................................13 Grounding .......................................................................................................................................................................................................13 ESD .........................................................................................................................................................................................................13 Electrical Interface ................................................................................................................................................................................................13 Connector and Flat cable .....................................................................................................................................................................14 Powerup sequence ...............................................................................................................................................................................14 Engine latency at powerup .................................................................................................................................................................14 Supply Voltages and I/O levels ....................................................................................................................................................................15 Power supply noise ..............................................................................................................................................................................15 SOFTWARE INTERFACE........................................................................................................................................................................... 17 Communication Protocol .......................................................................................................................................................................................17 Command Format .........................................................................................................................................................................................17 Engine Response Format ....................................................................................................................................................................18 I2C Command Codes .....................................................................................................................................................................................19 Command Parameters ........................................................................................................................................................................19 Camera System Parameters ........................................................................................................................................................................23 TECHNICAL SPECIFICATIONS .................................................................................................................................................................. 25 Definition of Scanning Angles ......................................................................................................................................................................27 Power Consumption Details ........................................................................................................................................................................28 I2C COMMAND SPECIFICATIONS............................................................................................................................................................ 29 I2C Command Specifications ................................................................................................................................................................................30 AIM TIME (0x4E) ....................................................................................................................................................................................30 AIM TOGGLE (0x35) ...............................................................................................................................................................................30 Integration Guide i Contents AUTO LOW POWER (0x44) ...................................................................................................................................................................30 BOOTLOADER START (0x41) ................................................................................................................................................................30 CAMERA MODE (0x3B) .........................................................................................................................................................................30 CAMERA RESET (0x37) .........................................................................................................................................................................31 CAMERA START (0x38) .........................................................................................................................................................................31 GET CAMERA PARAM (0x40) ...............................................................................................................................................................31 GET SENSOR REGISTER (0x31) ..........................................................................................................................................................31 ILLUMINATION DELAY (0x34) ..............................................................................................................................................................32 ILLUMINATION ENABLE (0x39) ...........................................................................................................................................................32 ILLUMINATION TIME (0x48) .................................................................................................................................................................32 RESTORE FACTORY DEFAULT (0x23) ..................................................................................................................................................32 RUN CMD LIST (0x47) ...........................................................................................................................................................................32 SET AUTO POWER TIME (0x45) ...........................................................................................................................................................32 SENSOR BINNING (0x3C) ......................................................................................................................................................................32 SET CAMERA PARAM (0x41) ................................................................................................................................................................33 SET COMMAND LIST (0x46) .................................................................................................................................................................33 SET LOW POWER (0x3F) ......................................................................................................................................................................34 SET SENSOR REG (0x30) ......................................................................................................................................................................34 ENGINE VIDEO FORMAT.......................................................................................................................................................................... 35 Sensor Data Format ......................................................................................................................................................................................35 Output Data Timing .......................................................................................................................................................................................36 Sensor Registers Settings ............................................................................................................................................................................36 ACCESSORIES ........................................................................................................................................................................................... 37 Green Spot Projector ..............................................................................................................................................................................................37 Green Spot Projector - Left side mounting ................................................................................................................................................37 Green Spot Projector - Right side mounting ..............................................................................................................................................39 ii DE2011-DL Chapter 1 Introduction About this Manual This Integration Guide is provided to give instruction, opto-mechanical details, and design considerations to integrate the DE2011-DL model (des-
ignated as scan engine or OEM scan engine in this manual) specifically into equipment-integrated scanning applications. Manual Conventions The following conventions are used in this document:
The symbols listed below are used in this manual to notify the reader of key issues or procedures that must be observed when using the reader:
Notes contain information necessary for properly diagnosing, repairing and operating the reader. The CAUTION symbol advises you of actions that could damage equipment or property. CAUTION Chapter 1, Introduction (this chapter) presents information about manual conventions and an overview of the engine, its features and operation. Chapter 2, Installation provides information about unpacking, cable connec-
tion information and setting up the scan engine for optimum scan engine performance. Chapter 3, Electrical Integration offers information about electrical compo-
nents. Chapter 4, Software Interface describes software commands. Appendix A, Technical Specifications lists physical and performance charac-
teristics, as well as environmental and regulatory specifications. Appendix B, I2C Command Specifications offers additional information about I2C Commands. Outline Integration Guide 1 Introduction Technical Support Datalogic Website Support The Datalogic website (www.datalogic.com) is the complete source for tech-
nical support and information for Datalogic products. The site offers product support, warranty information, product manuals, product tech notes, soft-
ware updates, demos, and instructions for returning products for repair. Reseller Technical Support An excellent source for technical assistance and information is an autho-
rized Datalogic reseller. A reseller is acquainted with specific types of busi-
nesses, application software, and computer systems and can provide individualized assistance. Telephone Technical Support If you do not have internet or email access, you may contact Datalogic tech-
nical support at (541) 349-8283 or check the back cover of your manual for more contact information. About the DE2011-DL The Datalogic DE2011-DL is a very compact, high performance undecoded imager used to capture digital images to be transferred to an external digital platform, to provide the ability to decode any kind of bar code symbols. Unpacking the Scan Engine The scan engine is shipped in custom packaging. Carefully open the pack-
age, and inspect for the following:
scan engine interface cable (if ordered) If any parts are damaged or you need additional hardware, please contact Technical Support. Scan Engine Care The scan engine contains sensitive components which require special han-
dling. Datalogic may not warrant damage due to improper handling. Do not disassemble the scan engine. Doing so will void the warranty. Use standard ESD precautions & policies when handling the DE2011-DL scan engine. External Optics The engine has an exposed illumination system and aiming lenses on the outer surfaces. Take care of these optical components, preserving the lenses from mechanical stresses that can damage them. Avoid touching the optical surfaces to preserve the optical performance. 2 DE2011-DL System Overview About the DE2011-DL The Datalogic DE2011 scan engine features a global shutter sensor having 752x480 pixels, able to capture images at 60 frames per second. The engine contains an embedded illumination system and an aiming sys-
tem. A high performance, low power micro-controller runs the engine sys-
tem and handles communication with the external host. The host interface is available as a 21-pole zif connector. Figure 1. Engine block diagram Illumination System The Illumination System is comprised of two white LEDs and non-imaging optics designed to provide first-class reading performances, even in total darkness. Regulatory EN/IEC 62471 (exempt) Aiming System The aiming system is based on a 650nm laser diode and related optics. It projects a highly visible 4-Dot aimer with center-cross for targeted scan-
ning. Integration Guide 3 Introduction Aiming Pattern The central cross represents the center of the field of view, while the four dots show the boundaries of the field of view. Figure 2. Projected pattern at 200 mm Aiming System Parameters Wavelength Beam Divergence Maximum pulse duration 630-680 nm 35 (horizontal) x 25 (vertical) see Figure 8 on page 11 and Figure 9 on page 11 15ms Repetition rate 16.6ms Maximum output power Laser aperture 1mW See Figure 10 on page 12 Regulatory EN/IEC 60825-1:2007 (class 2) 21 CFR 1040 (CDRH) (class II) Viewing the laser output with certain optical instruments (for example, eye loupes, magnifiers, and microscopes) within a dis-
tance of 100mm may pose an eye hazard. WARNING 4 DE2011-DL Figure 3. DE2011-DL Regulatory label About the DE2011-DL STANDARD LASER SAFETY REGULATIONS This product conforms to the applicable requirements of both CDRH 21 CFR 1040 and EN 60825-1 at the date of manufacture. For installation, use and maintenance, it is not necessary to open the device. Use of controls or adjustments or performance of procedures other than those specified herein may result in exposure to hazardous visible laser light. The product 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. NORMES DE SECURITE LASER Ce produit est conforme aux normes de scurit laser en vigueur sa date de fabri-
cation: CDRH 21 CFR 1040 et EN60825-1. Il nest pas ncessaire douvrir lappareil pour linstallation, lutilisation ou lentretien. L'utilisation de procdures ou rglages diffrents de ceux donns ici peut entraner une dangereuse exposition lumire laser visible. Le produit utilise une diode laser. Aucun dommage aux yeux humains na t con-
stat la suite dune exposition au rayon laser. Eviter de regarder fixement le rayon, comme toute autre source lumineuse intense telle que le soleil. Eviter aussi de diriger le rayon vers les yeux dun observateur, mme travers des surfaces rflchissantes (miroirs, par exemple). WARNING ATTENTION Integration Guide 5 Introduction NOTES 6 DE2011-DL Chapter 2 Installation This section describes how to design the mounting for optimum scan engine performance. Mounting the Scan Engine General Considerations A typical system uses the scan engine mounted inside a host enclosure, with an opening for the illumination system light to exit and illuminate the label, and to read bar codes. The opening should be the size of the scan engine field of view at a minimum, but only exposing as much of the scan engine as necessary. It is important to consider the effect of the environment on the scan engine. In particular, mounting should minimize the possibility of foreign objects coming into contact with the electronics. Such contact could damage the device or reduce the scan engines performance. Mechanical Size Figure 4 Nominal size:
21.0mm (width) x 11.4mm (height) x 15.75mm
(depth)
. Nominal Engine Size Maximum size:
21.15mm (width) x 11.55mm (height) x 15.91mm (depth) Integration Guide 7 Installation Mounting Holes There are three mounting holes M1.6x0.35mm located on the bottom of the chassis. The recommended thread engagement for the screws is 1.7mm
(holes marked with A), with a mounting torque of 0.15Nm. Figure 5. Mounting holes and related requirements Housing Design The enclosure must be designed to prevent internal reflections from illumi-
nation and aiming systems into the receiving optics.The exit window must be properly positioned and tilted to avoid reflections that could limit engine performance, both for decoding and image capture. Positioning the exit window There are two options for positioning the exit window with respect to the engine optical axis:
Perpendicular Tilted Distances are measured from the illumination lenses to the first face of the exit window (the nearest to the engine). Window thickness should be smaller or equal to 1.5mm. The use of a double-sided AR coated exit window is strongly recommended both for perpendicular and tilted windows. 8 DE2011-DL Figure 6. Exit window positioning perpendicular window Mounting the Scan Engine Figure 7. Exit window positioning tilted window Avoiding scratched windows Scratches on the exit window can strongly affect the reading performance. It is recommended to use an exit window having a scratch-resistant coating and to position the engine window in a recessed position. Window material The exit window is an integral part of the imaging system and should be designed and selected to preserve the optical quality of the system. It is rec-
ommended to use only cell-cast plastics or optical glass. Common materials and their characteristics are shown in Table 1on the fol-
lowing page. Integration Guide 9 Installation Properties Table 1. Exit window materials PMMA
(cell cast acrylic or polymethyl methacrylic) Very good Hard coating required Good Susceptible Compatible Optical Quality Surface Hardness Impact Resistance Chemical / UV Resistance Ultrasonically Welding CR39
(Allyl Diglycol Carbonate) Very good Hard coating required Good Susceptible Compatible Exit window properties Recommended properties/performance of the exit window are reported in Table 2 below. Table 2. Exit Window Properties Characteristics Material Thickness Wavefront distortion Clear aperture Surface quality AR coating Requirement PMMA or CR39 or equivalent 1.5mm 0.2 wavelengths peak-to-valley maximum and 0,04 maximum rms over any 2.0mm diameter within the clear aperture To extend to within 1.0mm of edges all around 60/20 scratch/dig double sided transmittance > 97% minimum within spectrum range reflections max 0,4% per side in the range 620nm-640nm 400nm-750nm. 10 DE2011-DL Mounting the Scan Engine Optical paths and exit window clearance Figure 8 and Figure 9 show the optical paths for the imaging system, the aiming system and the illumination system. Figure 8. Top view - Aiming, imaging and illumination optical paths Figure 9. Side View - Aiming, imaging and illumination optical paths Integration Guide 11 Installation Figure 10. Front View - Laser aperture Environment Dust on the optical parts of the engine can badly affect the performance of the scan engine. Ensure the engine is clear of dust and water when integrat-
ing it inside the housing. 12 DE2011-DL Chapter 3 Electrical Integration Electrical Connections Grounding The chassis of the engine is at ground. Mounting screws can be used to implement additional connections to the host ground. Based on the host characteristics, the additional ground connections can affect:
the engine performance (if noise is injected into the scan engine) the radiated emission (depending on current loops) It is suggested to investigate these topics at the beginning of the integra-
tion. ESD The engine is protected from ESD up to 2.0Kv@ connector. During installation it is recommended to apply standard ESD handling pro-
cedures, such as operating in a properly grounded working area using wrist straps. Electrical Interface The DE2011-DL scan engine can be connected to an external digital plat-
form via a 21-pole ZIF connector supporting:
a parallel video port (8 bit per pixel, vertical and horizontal synchs, pixel clock) a signal to synchronize an external illumination system with the expo-
sure of the sensor (Flash_out) system) three dedicated power supplies (for sensor, digital system, illumination an I2C communication port for controlling the scan engine Table 3 below describes the power lines and the signals mapped on the 21-
pole ZIF connector. Integration Guide 13 Electrical Integration Table 3. Engine connector description Pin 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 Signal Description I/O type power power I I/O O O O O O O O O O O power power power O power O power Ground Ground I2C Clock I2C Data Vertical sync Video data bus, pixel 7 MSB Video data bus, pixel 6 Video data bus, pixel 5 Video data bus, pixel 4 Video data bus, pixel 3 Video data bus, pixel 2 Video data bus, pixel 1 Video data bus, pixel 0 LSB External illumination system trigger Sensor power supply Digital power supply Illumination system power supply Horizontal sync Ground Sensor pixel clock Ground GND GND I2C_CLK I2C_DATA V_SYNC PIX_DATA_7 PIX_DATA_6 PIX_DATA_5 PIX_DATA_4 PIX_DATA_3 PIX_DATA_2 PIX_DATA_1 PIX_DATA_0 FLASH_OUT VDD_SENSOR VDD VDD_ILLUM_SYS H_SYNC GND PIX_CLK GND Connector and Flat cable The DE2011-DL scan engine is equipped with a Kyocera 21-pole ZIF con-
nector having a pitch of 0.3mm series 6283 - ordering code 04 6283 021 002 868. For further details and requirements related to the flat cable, please refer to the manufacturers datasheet, available athttp://www.kyoceraconnec tor.com/prdct/type/fpc/index.html#2 Powerup sequence In order to guarantee the correct operation of the engine, it is mandatory to use the following powerup sequence timing constraints:
VDD_SENSOR must be stable at 3.3V not later than 6ms after the VDD is VDD_ILLUM_SYS must be stable at 3.3V at least 20ms before issuing any camera start command. Engine latency at powerup At powerup the engine begins executing the code when the power supply level reaches 2.1V. To complete the boot sequence, a 12ms time is required. After this, the engine is ready to parse commands. at 2.1V. 14 DE2011-DL Electrical Interface Supply Voltages and I/O levels Table 4. Supply Voltages and I/O Levels Item Level VDD_SENSOR 3.3V 0.3 VDD VDD_ILLUM_SYS I/O level 3.3V 0.3 3.0V to 5.0V 3.3V Description The image sensor power supply, from which the analog power supply is also generated. The value of 3.0V has to be considered as an inferior limit, but for having superior power supply noise immunity, a value above 3.15V is rec-
ommended The digital and laser aiming system power supply. The LED illumination system power supply. The typical high level for input and output signals. Power supply noise To preserve image quality (both for decoding and image capture applica-
tions), a low-noise power supply is required, particularly for VDD_SENSOR. The requirement for the power supply peak-to-peak noise is 150mV on all three power supply lines (the lower the better). Integration Guide 15 Electrical Integration NOTES 16 DE2011-DL Chapter 4 Software Interface Communication Protocol The engine provides a bidirectional control interface for the communication with the integrating platform based on the I2C communication. This is a master/slave and host-initiated command/response type of protocol, and the engine always acts as a slave. It does not support unsolicited responses, meaning that all transactions that involve sending a command and receiving a response are always initiated by the host system. The time needed for execution depends on the command sent. If the engine does not respond when requested by the host, it is possible that the com-
mand is still being processed. In this case, the master will be forced into a wait state until the slave is ready. The maximum waiting time between receiving a command and the response request is 1 second. After this time a system timeout occurs and the engine will reset. Command Format Commands sent via I2C from host (master) to engine (slave) should have the following format:
Start bit Address Command
(hex code) Command Parameters Checksum Stop bit I2C Element Start bit:
Address:
Command:
Description Start bit as I2C standard specification. Target slave address includes device address plus write option
(0x00). For the engine, slave address is 0x5C (or 0xB8 after shifting to 7bit MSB). See list of possible command codes for DE2011 in I2C Com-
mand Codes, starting on page 19 or Table 5 on page 19. Integration Guide 17 Software Interface I2C Element Command Parameters:
Checksum:
Description Data bytes required by the command, shown in Table 5 on page 19. 1 byte for data integrity check. Checksum is calculated by:
Summing all command bytes, including command code and Performing 2's complement of the resulting least significant following data. byte (LSB). Stop bit as I2C standard specification. Stop bit:
Engine Response Format When the host requests a response from the engine, the response format will be:
Start bit Response STATUS Stop bit Address Command
(hex code) Data Same as for sent Command Format, plus:
I2C Element Address:
STATUS:
Response Data:
Description Target slave address includes device address plus read option
(0x01). For the engine, slave address is 0x5C (or 0xB8 after shifting to 7bit MSB). STATUS can be one of the following:
- ACK (0x80)
- NAK (0x82)
- CHECKSUM ERROR (0x84) Data returned by the issued command (can be one or multiple bytes or none), LSB first. See Table 5 on page 19. 18 DE2011-DL I2C Command Codes Communication Protocol Command Parameters The following table shows a categorized list of the DE2011-DL possible I2C commands in hexadecimal code, including a brief description, with corre-
sponding parameters and response bytes. All bytes are intended as Least Significant Byte (LSB) first, both in send and receive transactions. This table only describes the parameters to be used with each command, not including the checksum byte or STATUS response byte. For a complete description of the I2C protocol see "Communication Protocol" on page 17. For more information on the commands, see "I2C Command Specifications"
on page 30. Default values are shown as underlined text in the following table. Table 5. Commands and response format Cmd Name Description Parameters Cmd Code Response Data
(if present) CAMERA OPERATIONS
[0x37]
CAMERA RESET Resets system to initial state.
[0x38]
CAMERA START Starts or stops image acquisition.
[0x3B]
CAMERA MODE Optimizes sensor configuration for different tasks.
[0x42]
BOOTLOADER START Stops operations and starts bootloader.
[0x47]
RUN CMD LIST
[0x46]
SET CMD LIST Executes a user-defined sequence of commands. Sets a user-defined sequence of commands to be executed using RUN CMD LIST 1 Byte:
00=Sensor-Only Reset 01=Full System Reset 1 Byte:
0x00=Stop 0x01=Start 1 Byte:
0=Barcode Decode 1=Image Capture 2=Motion Detect 3=Fast High Bin 4=LCD Read 3 Bytes:
Signature: 0xAA, 0x50, 0x5F 1 Byte:
List# to run (0 10) 1 Byte:
List# to run (0 10)
+
n Bytes (max 149):
Command script(s) Integration Guide 19 Software Interface Cmd Code
[0x23]
Cmd Name Description Parameters Response Data
(if present) RESTORE FACTORY DEFAULT CAMERA SYSTEM CONFIG clears Camera USER CUSTOM parameters, bringing them back to FACTORY DEFAULT values 1 Byte:
00 n Bytes:
Parameter current value; number of bytes depending on parameter 2 Bytes:
Parameter ID Code
[0x3F]
SET LOW POWER Activates system power
[0x40]
GET CAMERA PARAM
[0x41]
SET CAMERA PARAM saving mode Returns chosen Camera parameter (stored in EEPROM). Sets desired value to chosen Camera USER CUSTOM parameter
(stored in EEPROM).
[0x44]
AUTO LOW POWER System automatic power saving mode.
[0x45]
SET AUTO POWER TIME Sets the time to power saving mode when camera is idle (AUTO LOW POWER must be active). 1 Byte:
0x00=Normal 0x01=Low Power 2 Bytes:
Parameter ID Code 2 Bytes:
Parameter ID Code
+
n Bytes:
parameter data 1 Byte:
00=Disabled 01=Enabled 1 Byte:
0x01 - 0x0A = 10-
100 ms, 10 ms increments 0x0B - 0x14 = 100-
900 ms, 100 ms increments 0x15 - 0xFF = 1s -
235 s, 1 s increments 0x00 = 5 ms AIMING SYSTEM
[0x35]
AIM TOGGLE Switches the aiming system ON/OFF. 1 Byte:
00=Off 01=On See Table 6 on page 23 and Table 7 on page 24 for details on parameter length and ID code. 20 DE2011-DL Cmd Code
[0x4E]
Cmd Name AIM TIME Description Sets the aim pattern lighting time for each frame (determines brightness). Communication Protocol Response Data
(if present) Parameters 1 Byte:
0x00 = sets Aim on time to default
(=8500ms), or to user custom if previously modified. (per Frame) 0x01-0xFF = aim on time set to value*0.5ms. (per Frame) Note: pulse duration can be trimmed by sensor exposure time variations LED ILLUMINATION SYSTEM
[0x34]
ILLUMINATION DELAY Sets the time from sensor exposure start to LED lighting start.
[0x39]
ILLUMINATION ENABLE Switches ON/OFF the LED illumination system.
[0x48]
ILLUMINATION TIME Sets the illumination lighting time for each frame (determines brightness). IMAGE SENSOR
[0x30]
SET SENSOR REG Writes new value to the Aptina MT9V024 desired register.
[0x31]
GET SENSOR REG Gets Aptina MT9V024 desired register value. 1 Byte:
0x00-0xFF = delay time from start of exposure to start of illumination set to value*30us. 1 Byte:
00=Off 01=On 1 Byte:
0x00 = OFF 0x01-0x0C =
illumination time set to value*50us. (per Frame) 1 Byte:
Register address
+
2 Bytes:
Register new value 1 Bytes:
Register address 2 Bytes:
Register current value Integration Guide 21 Software Interface Cmd Code
[0x3C]
Cmd Name SENSOR BINNING Description Parameters Response Data
(if present) Sets the binning operated by the Sensor. 1 Byte:
0x00=Normal Row binning codes:
0x00 = No Row Bin 0x01 = Row Bin 2 0x02 = Row Bin 4 Column Binning codes:
0x00 = No Column Bin 0x04 = Column Bin 2 0x08 = Column Bin 4 Resulting Parameter for Image Binning =
(Row binning code) +
(Column Binning code) See Table 6 on page 23 and Table 7 on page 24 for details on parameter length and ID code. 22 DE2011-DL Camera System Parameters Communication Protocol The following tables list DE2011-DL system Parameters. Table 6 below shows the camera system information, while Table 7 on page 24 shows the user customizable parameters, which will be used as default value by the engine. See commands GET CAMERA PARAM, SET CAMERA PARAM and RESTORE FACTORY DEFAULT for instructions. All values must be sent and are received via I2C with LSB first. Table 6. Parameter ID codes and length The following parameters are READ ONLY Parameter Description Model Number Serial Number Date of Manufacture Date of Service Firmware Version Report Camera model number Camera serial number Camera manufacture date Camera service date Answers with APPL<application_firmware_version> if the application is running. Answers with BOOT<bootloader_firmware_version> if the bootloader is running ID Code
(HEX) 0x0000 0x0001 0x0002 0x0003 Length
(Bytes) 18 16 7 7 0x000A 12 Bootloader Firmware Version Camera bootloader version Application Firmware Version Camera firmware version Camera ID Hardware Version Device Class GUID Family ID PCB Number Camera ID number Camera hardware version Camera device class Generally Unique ID Halogen1 Family ID PCB Number 0x000B 0x07D4 0x07D5 0x07D6 0x07D7 0x000E 0x03F7 0x0BD6 8 8 1 1 18 32 8 10 Integration Guide 23 Software Interface Table 7. User Custom Parameters ID codes and length The following parameters are READABLE and WRITABLE. Parameter Description ID Code Length
(Bytes) FACTORY VALUE Illumination Duration Illumination Delay Aim Duration Aim Delay Max Exposure Reg Customizable default/startup value for the illumi-
nation pulse time (per frame) 1 Byte:
0x00-0x0C = illumination time set to value*50us. Customizable default/startup value for the delay time from start of exposure to start of illumination 2 Bytes: value in us Customizable default/startup value for the AIM pat-
tern on time (per frame) 2 Bytes: value in us Customizable default/startup value for the delay time from end of exposure to start of AIM pattern projection. 2 Bytes: value in us Customizable default/startup value for the Aptina MT9V024 Max exposure register, which determines the maximum sensor exposure time per frame. Each unit corresponds to one row time. 1 Byte:
Register Address (0xAD)
+
2 Bytes:
Register Value EXAMPLE: Getting a Scan Engine Serial Number 0x00B7 0x00B8 0x00B9 0x00B0 0x00B1 1 2 2 2 3 600us
(0x0C) 30us
(0x001E) 8500us
(0x2134) 100us
(0x0064) Address:
0xAD Value:
0x00C0 Cmd Name = GET CAMERA PAR Cmd_Code = 0x40 Parameter ID Code = 0x0001 Parameter Length = 16 bytes SEND COMMAND to the ENGINE:
<write> 0x40 0x01 0x00 0xBF The last byte 0xBF represents the checksum GET RESPONSE from the ENGINE:
<read> 0x40 0x80 0x01 0x00 0x.. 0x.. 0x.. 0x.. 0x.. 0x.. 0x.. 0x.. 0x.. 0x.. 0x.. 0x.. 0x.. 0x.. 0x.. 0x.. Tthe second byte 0x80 represents the status code that in this case is ACK The sixteen bytes 0x.. represent the serial number of the engine 24 DE2011-DL Appendix A Technical Specifications ThissectionliststhetechnicalspecificationoftheDE2011DLengine,including readingperformance. Item Physical Characteristics Description Dimensions Nominal size:
Width 0.83/21 mm Height 0.45/11.4 mm Depth 0.62/15.75 mm Maximum size:
Width 0.83/21.15 mm Height 0.45/11.55 mm Depth 0.63/15.91 mm Weight Interface 9 g / 0.32 ounces Camera port on a 21 pin ZIF Connector Electrical Characteristics See "Power Consumption Details" on page 28 for more information. Current Input Voltage Max. Operating: < 200mA Standard Operation: 160mA Idle (Typical): 21mA Low power: <0.2mA Values at 23C:
- VDD_SENSOR: 3.3 0.3V
- VDD: 3.3 0.3V
- VDD_ILLUM_SYS: from 3.0V to 5.0V See "Supply Voltages and I/O levels" on page 15 for details. Performance Characteristics Image Sensor Light Source WVGA : 752x480 pixels Illumination: White LEDs Aiming: 650nm VLD Integration Guide 25 Technical Specifications Item Description Field of View 40 Hx26 V Print Contrast Minimum 25% minimum contrast Scanning Angles See Definition of Scanning Angles on page 27 for additional information. Roll Angle Pitch Angle Skew Angle Minimum Element Width Up to 180 60 60 1D Linear: 0.0762mm / 3mils PDF: 0.127mm / 5mils Datamatrix: 0.195mm / 7.5mils Depth of Fielda Symbology Code 39 Code 39 PDF EAN13 Datamatrix Code 39 Resolution
[mils]
3 5 10 13 15 20 Typical Dmin
[mm]
80 55
(1)b 45 35
(1)b Dmax
[mm]
175 260 200 420 265 590 Guaranteed Dmin
[mm]
85 70
(1)b 50 45
(1)b Dmax
[mm]
130 220 180 380 245 500 a. All labels grade A, ambient light level 300lux, pitch angle 10, tilt angle 10, skew angle b. Limited by field of view 0, room temperature 20C. Item User Environment Operating Temperature Storage Temperature Description Operating : -30 to 50C / -22 to 131F Storage / Transport : -40 to 70C / -40 to 158F Humidity (non-condensing) 95%
Mechanical Shock Ambient Light Immunity ESD Level 2000 G 5% applied via any mounting surface at -
30 and 70 C for a period of 0.85 0.05 msec 2500 G 5% applied via any mounting surface at 23 C for a period of 0.85 0.05 msec Up to 100,000 Lux 2.0kV @ connector 26 DE2011-DL Item Regulatory Aiming System (laser) Illumination System (white LEDs) Description EN/IEC 60825-1:2007 (class 2) 21 CFR 1040 (CDRH) (class II) IEC 62471 Exempt risk group Environmental RoHS compliant Definition of Scanning Angles Skew, Pitch, Roll Angle testing is based on ISO 15423 specifications Figure 11. ISO15423 angle definition Reading distances are measured along Z-axis. Integration Guide 27 Technical Specifications Power Consumption Details While operating, the engine switches between different status conditions. Each status is characterized by a specific power consumption level. Low power Idle Running The engine is in sleep (minimum power consumption) The engine is active, waiting for commands and ready to start an acquisition The engine is acquiring and streaming images to the host. Power consumption depends on the configuration of the engine Assuming the system is at 23C and all three power supplies are at 3.3V, the typical current absorption is reported in the table below (engine parameters set at factory default). Table 8. Mean power consumption upper limits Current Consumption Conditions
<0.2mA 21mA 70mA 150mA DE2011 status Low power Idle Image Acquisition Illumination Enabled lamp duration 600us - factory default Illumination Enabled and AIM Enabled factory default timing Maximum Operating Current AIM on at factory default and lamp duration 1000us (maximum value) 160mA 200mA Temperature 23C Illumination lamp duration 600us AIM laser-on duration 8500us VDD = 3.3V VDD_SENSOR = 3.3V VDD_ILLUM = 3.3V 28 DE2011-DL Appendix B I2C Command Specifications This section provides additional information about I2C Commands. I2 C COMMAND SPECIFICATIONS AIM TIME (0x4E) page 30 AIM TOGGLE (0x35) page 30 AUTO LOW POWER (0x44) page 30 BOOTLOADER START (0x41) page 30 CAMERA MODE (0x3B) page 30 CAMERA RESET (0x37) page 31 CAMERA START (0x38) page 31 GET CAMERA PARAM (0x40) page 31 GET SENSOR REGISTER (0x31) page 31 ILLUMINATION DELAY (0x34) page 32 ILLUMINATION ENABLE (0x39) page 32 ILLUMINATION TIME (0x48) page 32 RESTORE FACTORY DEFAULT (0x23) page 32 RUN CMD LIST (0x47) page 32 SET AUTO POWER TIME (0x45) page 32 SENSOR BINNING (0x3C) page 32 SET CAMERA PARAM (0x41) page 33 SET COMMAND LIST (0x46) page 33 SET LOW POWER (0x3F) page 34 SET SENSOR REG (0x30) page 34 Integration Guide 29 I2C Command Specifications I2C Command Specifications This section contains a complete description of the DE2011-DL possible I2C supported commands in alphabetical order. For a summary list and more information, see Command Format, starting on page 17. AIM TIME (0x4E) Determines the lighting time of the aiming pattern during each frame, starting from after the sensor exposure. A longer period determines a brighter aim pattern. Accepts values from 0x1 to 0xFF; each unit corresponds to a 0.5 ms time increment. If set to 0x0, sets the time to a default value, which can be also determined by the user modifying the parameter AIM DURATION (see Table 7 on page 24) Whichever value is set, for each frame the aim on time might be automatically trimmed in order to be off during the sensor expo-
sure. AIM TOGGLE (0x35) With the value set to 0x01 the aim pattern will turn on whenever the camera is acquiring images. Setting the value to 0x00 will always turn it off. The aim pattern will not be visible in the acquired images. AUTO LOW POWER (0x44) Activates system automatic power saving mode, turning the system into low power mode after a timeout. When the camera is continuously idle for a time, previously determined using the SET AUTO POWER TIME command, the system enters a power reduction state. When an I2C command is issued the system wakes up and executes the command. BOOTLOADER START (0x41) Stops executing the engine camera application and runs the engine bootloader. Takes as input the following signature code: 0xAA, 0x50, 0x5. CAMERA MODE (0x3B) Sets up the engine system and the image sensor for better performance of a specific task: Barcode Decoding, Image Capture, Motion Detection, Fast High Bin or LCD screen Read modifying sensor internal register values, LED illumination and aiming pattern on/off timing. This command modifies only some key engine and sensor parameters, leaving others unchanged. The parameters changed by this command are:
30 DE2011-DL CAMERA MODE (continued) I2C Command Specifications ILLUMINATION TIME ILLUMINATION DELAY AIM ON TIME AIM DELAY IMAGE BINNING SENSOR CONTEXT SENSOR AEC MAX EXPOSURE DESIRED BIN SENSOR ACTIVE CONTEXT (A/B) Barcode Decoding, Image Capture and LCD Screen Read operate using sensor Context A, while Motion Detection and Fast High Bin operate using sensor Context B with a 2xColumn+2xRow binning. CAMERA RESET (0x37) Re-initialization of all systems. The camera returns to its initial state, except for all parameters previously stored in EEPROM using SET CAMERA PARAM, that will be retained and will be loaded back at the end of this system reset. If parameter is 0x00, only the image sensor will be reset. The changes will not be written to non-volatile memory and User Custom Parameters will NOT be modified by this command. CAMERA START (0x38) Starts or stops image acquisition and image transmission. After a stop command (CAMERA START with parameter 0x00), the engine begins the procedure for stopping the image sensor. During this time (at max one frame of 16.6ms) the system will not compute any I2C command. GET CAMERA PARAM (0x40) Reads camera system factory parameters or user custom parameters stored in non-volatile memory. Details can be found in Table 6 on page 23, and Table 7 on page 24. GET SENSOR REGISTER (0x31) Returns the desired register value of the Aptina MT9V024 image sensor. Further details on the sensor can be found in the MT9V024 manual. Integration Guide 31 I2C Command Specifications ILLUMINATION DELAY (0x34) Sets the illumination delay time taking as a starting point Sensor Exposure start. Accepts values from 0x00 to 0xFF with a time unit of 30us. ILLUMINATION ENABLE (0x39) With the value set to 0x01 the illumination LEDs will turn on whenever the camera is acquiring images. Setting the value to 0x00 will always turn it off. ILLUMINATION TIME (0x48) Sets the illumination light duration within each frame, with a 50us time increment. Values are from 0x00 (0us) to 0x14 (1ms). RESTORE FACTORY DEFAULT (0x23) The following User Custom Parameters values are restored to their Factory Default:
ILLUMINATION PULSE DURATION ILLUMINATION DELAY AIM PULSE DURATION AIM DELAY SENSOR AEC MAX EXPOSURE See Table 7 on page 24 for Factory Default values. RUN CMD LIST (0x47) Executes the sequence of commands previously memorized using the SET CMD LIST command. SET AUTO POWER TIME (0x45) Sets the timeout value after which power saving mode is activated. When camera is idle and AUTO LOW POWER is active the timer starts counting; whenever any command is issued the timer resets. SENSOR BINNING (0x3C) Modifies sensor register values for image binning:
merging of adjacent pixels with a consequent change of resolution and variation in output image signals timing. A bin of x means that x adjacent pixels are merged
(column or row wise), which means that resolution is
(current resolution)/x (on columns for Column Binning or rows for Row Binning). Column Binning also divides pixel clock frequency by x; row binning also multiplies by x the camera FPS. Binning is applied to the context A or B, depending on the current active CAMERA MODE (see command). 32 DE2011-DL I2C Command Specifications SENSOR BINNING (continued) The parameter to be sent can be calculated by summing the number corresponding to the desired Row Binning, with the number corresponding to the desired Column Binning, as in the following table:
Row Binning codes:
0x00 = No Row Bin 0x01 = Row Bin 2 0x02 = Row Bin 4 Column Binning codes:
0x00 = No Column Bin 0x04 = Column Bin 2 0x08 = Column Bin 4 Total Image Binning code = (Row Binning code) +
(Column Binning code). A value of 0 disables Binning. SET CAMERA PARAM (0x41) Writes the chosen parameter to the cameras non-volatile memory area User Custom Parameters. The stored values will be used as new defaults, replacing the Factory Default Values. For example, after a camera reset or startup the user custom values will be applied. The customizable parameters are:
ILLUMINATION PULSE DURATION ILLUMINATION DELAY AIM PULSE DURATION AIM DELAY SENSOR AEC MAX EXPOSURE See Table 7 on page 24 for details. To roll back the memory to factory default (losing the custom values), use RESTORE FACTORY DEFAULT command. SET COMMAND LIST (0x46) Sets a user-defined sequence of commands to be executed using RUN CMD LIST. Up to ten lists (0 to 9) can be saved; each can store up to 150 bytes (command codes + command parameters). NAK response is issued by the camera if limits are not respected. Possible commands for the list are:
AIM TOGGLE CAMERA START ILLUMINATION ENABLE SET SENSOR REG Command format:
(0x46)(List#)(Total Length) + (Command1 Length)
(Command1) +[]+(Command n Length) (Command n)
+(Checksum) Where command x is the normal byte sequence of the desired command. Integration Guide 33 I2C Command Specifications SET LOW POWER (0x3F) Activates system power saving mode. This command can only be used when the camera is stopped (no image acquisition is in progress), since it puts both the microcontroller and the image sensor into sleep mode. The system wakes up and returns to normal power mode each time a command is issued. SET SENSOR REG (0x30) Stores the new chosen value for the desired register of the Aptina MT9V024 image sensor. Further details on the sensor can be found on the MT9V024 manual. Unpredictable camera behavior may occur. CAUTION Modifying registers manually bypasses the engine system control over the sensor. This could cause the image sensor to behave in a way that conflicts with the engine system working setup and normal operation. 34 DE2011-DL Appendix C Engine Video Format This appendix describes details related to the video port of the engine, the image format and the related timing. Sensor Data Format The Datalogic DE2011-DL engine is based on the WVGA monochrome image sensor. Figure 12 and Figure 13 below show the pixel array description and the spa-
tial illustration of image readout. Figure 12. Pixel array description Figure 13. Spatial illustration of image readout characterizing the progressive scan mode Integration Guide 35 Engine Video Format Output Data Timing The data output of the sensor is synchronized with the PIXCLK output. When LINE_VALID (LV) is HIGH, one 10-bit pixel datum is output every PIX-
CLK period. Figure 14 shows an example of pixel data timing, and Figure 15 shows basic timing for a complete frame readout. Figure 14. Timing example of pixel data Figure 15. Row Timing and FRAME_VALID/LINE_VALID Signals Parameter A P1 P2 Q A+Q V Nrows(A+Q) F Name Active data time Frame start blanking Frame end blanking Horizontal blanking Row time Vertical blanking Frame valid time Total frame time Equation Sensor register defined Sensor register defined 23 (fixed) Sensor register defined A+Q Sensor register defined Sensor register defined V+(Nrows(A+Q)) Pixel Clock 752 71 23 94 846 37,228 406,080 443,308 Timing at 26,66MHz 28.20us 2.66us 0.86us 3.52us 31.72us 1.39ms 15.23ms 16.62ms Sensor Registers Settings For information on register settings, refer to the Aptina MT9V024 mono-
chrome WVGA Image Sensor Datasheet, available at http://www.aptina.com. 36 DE2011-DL Appendix D Accessories This section provides information about scan engine accessories and their installation. Green Spot Projector Optionally, a green spot projector can be installed on either the left or right side of the engine. The following drawings provide information for mount-
ing. Green Spot Projector - Left side mounting Integration Guide 37 Accessories Left side mounting (continued) 38 DE2011-DL Green Spot Projector - Right side mounting Green Spot Projector Integration Guide 39 Accessories Right side mounting (continued) 40 DE2011-DL www.datalogic.com 2014 Datalogic, Inc. All rights reserved. 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. Datalogic ADC, Inc. 959 Terry Street | Eugene |OR 97402 | USA Telephone: (1) 541-683-5700 | Fax: (1) 541-345-7140 820061590
(Rev A) May 2014
1 2 3 | user manual | Users Manual | 1.67 MiB | / January 09 2012 |
Datalogic Mobile S.r.l. Via S. Vitalino 13 40012 - Lippo di Calderara di Reno Bologna - Italy Skorpio X3 with Windows CE 6.0 - User's Manual Software Version: 1.72 Ed.: 05/2012 2012 Datalogic Mobile 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 Mobile 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. Skorpio and the Skorpio logo are trademarks of Datalogic Mobile 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. CONTENTS REFERENCES ............................................................................................ vi Conventions..................................................................................................vi Reference Documentation ............................................................................vi Services and Support....................................................................................vi GENERAL VIEW ........................................................................................ vii INTRODUCTION .......................................................................................... 1 1 Skorpio X3 Description ................................................................................. 1 1.1 Available Models........................................................................................... 2 1.2 1.3 Package Contents......................................................................................... 4 Inserting microSD card ................................................................................. 6 1.4 1.4.1 Removing the MicroSD Card ........................................................................ 8 Accessories................................................................................................... 9 1.5 BATTERIES AND MAINTENANCE ........................................................... 11 2 2.1 Charging the Battery Pack .......................................................................... 11 2.2 Replacing the Battery Pack......................................................................... 14 Cleaning the mobile computer .................................................................... 18 2.3 CONNECTIONS ......................................................................................... 19 3 3.1 USB Connection ......................................................................................... 19 3.2 Connection to USB peripherals................................................................... 21 RS232 Connection...................................................................................... 23 3.3 WLAN Connection ...................................................................................... 24 3.4 3.5 WPAN Connections .................................................................................... 26 3.6 Wireless and Radio Frequencies Warnings ................................................ 27 4 USE AND FUNCTIONING.......................................................................... 29 Startup ........................................................................................................ 29 4.1 4.1.1 Using the Stylus .......................................................................................... 30 4.1.2 Touch Gestures .......................................................................................... 31 4.2 Windows CE Touch Screen Calibration ...................................................... 32 Data Capture............................................................................................... 33 4.3 Laser Data Capture..................................................................................... 34 4.3.1 4.3.2 Imager Data Capture .................................................................................. 35 4.4 Description of the Keyboards...................................................................... 37 4.4.1 Full-alphanumeric Keyboard (50 Keys)....................................................... 37 4.4.2 Alphanumeric Keyboard (38 Keys) ............................................................. 39 4.4.3 Numeric Keyboard (28 Keys)...................................................................... 41 4.4.4 Resetting the Skorpio X3 ............................................................................ 44 4.5 Status Indicators ......................................................................................... 46 LED Status.................................................................................................. 46 4.5.1 4.5.2 Taskbar....................................................................................................... 47 4.6 Control Panel .............................................................................................. 48 iii 4.6.1 Data Capture Configuration ........................................................................ 49 Decoding configuration pages..................................................................... 49 4.6.2 DL Buttons .................................................................................................. 58 Triggers....................................................................................................... 62 4.6.3 4.6.4 Application Switcher.................................................................................... 63 4.6.5 Persistent Registry...................................................................................... 64 4.6.6 Wireless Communications........................................................................... 67 Stylus Calibration ........................................................................................ 72 4.6.7 4.6.8 Audio Settings............................................................................................. 74 4.7 Windows Connections ................................................................................ 76 4.7.1 Windows Mobile Device Center................................................................ 76 4.7.2 Bluetooth Manager Device Setup ............................................................... 78 Datalogic Firmware Utility ........................................................................... 85 4.8 4.8.1 Retrieving a Firmware Image Update ......................................................... 85 4.8.2 Installing DFU on the Host PC .................................................................... 86 4.8.3 Updating the Firmware................................................................................ 87 4.8.4 Repair Mode ............................................................................................... 88 4.9 Datalogic Configuration Utility..................................................................... 90 4.10 Datalogic Desktop Utility ............................................................................. 91 4.10.1 Administrative Options (Admin tab)............................................................. 92 4.10.2 WebAppLock Options (WebAppLoc tab) .................................................... 95 4.10.3 Status Icons Options (Status Tab) .............................................................. 97 4.10.4 Windows Controls ....................................................................................... 98 4.10.5 AppSelector Options (AppSelect tab) ....................................................... 100 4.11 AppSelector (Application Selector) ........................................................... 103 4.12 WebApplock (Locked Web Browser) ........................................................ 104 4.12.1 WebApplock Special Meta-tags ................................................................ 106 4.13 Autostart.................................................................................................... 111 4.13.1 Installing CAB files .................................................................................... 111 4.13.2 How AutoStart Uses Wceload................................................................... 112 4.13.3 Interactive CAB Install............................................................................... 113 4.13.4 Autostart.ini............................................................................................... 113 TECHNICAL FEATURES......................................................................... 119 5 5.1 Technical Data .......................................................................................... 119 Reading Diagrams .................................................................................... 122 5.2 TEST CODES........................................................................................... 124 6 DECODING PARAMETERS..................................................................... 128 Programming Codes Without parameters................................................. 129 Bar Code Parameters ............................................................................... 130 Programmable 2D Symbologies ............................................................... 150 Postal Codes............................................................................................. 157 Imaging Controls....................................................................................... 158 Other Controls........................................................................................... 159 Datalogic Mobile Label IDs ....................................................................... 162 iv SAFETY REGULATIONS......................................................................... 163 General Safety Rules................................................................................ 163 Power Supply............................................................................................ 163 Laser Safety.............................................................................................. 164 LED Class................................................................................................. 170 Radio Compliance..................................................................................... 171 FCC Compliance....................................................................................... 173 RF Exposure Information (SAR) ............................................................... 174 Industry Canada Compliance.................................................................... 175 SAR Compliance....................................................................................... 175 Patents...................................................................................................... 176 WEEE Compliance ................................................................................... 177 GLOSSARY.............................................................................................. 179 INDEX....................................................................................................... 183 v 1 REFERENCES CONVENTIONS This manual uses the following conventions:
User refers to anyone using a Skorpio X3 mobile computer. mobile computer and "Skorpio X3" refer to Skorpio X3 mobile computer. You refers to the System Administrator or Technical Support person using this manual to install, configure, operate, maintain or troubleshoot a Skorpio X3 mobile computer. Single Dock refers to the Skorpio X3 Single Slot Dock. REFERENCE DOCUMENTATION For further information regarding Skorpio X3 refer to the SDK Help on-Line. SERVICES AND SUPPORT Datalogic provides several services as well as technical support through its website. Log on to www.adc.datalogic.com and click on the links indicated for further information including:
- PRODUCTS Search through the links to arrive at your product page where you can download specific Manuals and Software & Utilities
- SERVICES
- Datalogic Services Warranty Extensions and Maintenance Agreements
- Authorised Repair Centres
- CONTACT US E-mail form and listing of Datalogic Subsidiaries vi GENERAL VIEW B C D I H G J M K L G) Laser Safety Label H) Loudspeaker I) Micro USB Charging Port (Power Only) J) Product Label K) Reset Key (under battery) L) MicroSD Card Slot (under battery) M) Trigger button (for use with the optional pistol trigger) A E F A) Color Display*
B) ON/OFF Power Key C) LEDs D) Receiver speaker E) Front Scan Key F) Keyboard Remove protective film cover before use vii 1 N O N) Data Capture/Laser Output Window O) HandyLink Connector
(host/device) viii INTRODUCTION 1 INTRODUCTION 1 1.1 SKORPIO X3 DESCRIPTION The Skorpio X3 rugged mobile computer is particularly suitable for mobile commerce solutions in the retail environment both on store shelves and in the stock room. Thanks to one of the best ergonomic designs ever seen on the market, it reduces operator fatigue with no compromise in terms of reliability and robustness, resisting harsh environments, multiple drops, strong shocks and repetitive tumbles. The Skorpio X3 pistol grip version takes advantage of the best handle and trigger in the warehouse industry. Compact size and light weight combine to offer excellent balance, and superior handling. Skorpio X3s powerful processing efficiency derives from a dual processor architecture composed of microprocessor XScale PXA310 @ 624 MHz and a Cortex-
M3, 32 bit @ 72 MHz. coprocessor Processing power combined with 256 MB RAM &
and 512 MB Flash running Windows Embedded CE 6 r3 make for the best performance and flexibility in this market. Skorpio X3 offers the unique feature of integrated data capture technology combined with green spot feedback (Datalogic patent), providing a good read green dot directly on the code, where the operator usually tends to be looking. Many features work together to facilitate easier and faster reading, such as 1D laser and 2D imager bar code readers with Green Spot. An inclined scan engine to allows the display to be seen while scanning bar codes, with no need to turn the wrist awkwardly while scanning. Skorpio X3 display is a TFT / Transflective color LCD, QVGA, with LED backlight and integrated touch screen, 81 mm (3.2 in) diagonal which means it is the largest standard resolution display (and the only one for the market today) in this class of products. Skorpio X3 wireless communication capabilities (Bluetooth, IEEE 802.11a/b/g) enable fast transactions and complete interaction with information systems including the newest RF security protocols such as WPA and WPA2. Moreover, Cisco Compatible Extensions CCX V4 certification permits all the advantages offered by the Cisco WLAN infrastructure to be exploited. Datalogics software tools and strategic software alliances fit Skorpio X3 to business practice. Datalogic Desktop and Configuration utilities offer full and secure control over the device experience. Wavelink Avalanche enables rapid deployment and central management of Skorpio X3 installations. Finally, Datalogics comprehensive service programs protect the Skorpio X3 investment. 1 1 1 SKORPIO X3 communication options: 802.11 a/b/g radio, Bluetooth data capture options: laser, 2D imager keyboard options: full-alphanumeric, alphanumeric, numeric. 1.2 AVAILABLE MODELS The brand new Skorpio X3 is available in different models depending on the options it is equipped with. All options are listed below:
For further details about the Skorpio X3 models refer to the web site:
www.adc.datalogic.com. For further information regarding Windows CE refer to the website:
http://www.microsoft.com/windowsembedded. The currently available models are:
942350001 Skorpio X3 with Bluetooth v2.0, 802.11 a/b/g CCX V4, Hand Held, Std Laser w/
Green Spot, Windows CE 6.0, 256MB RAM/512MB Flash, 28-Key Numeric SKORPIOX3 00A0LS-2N0-CEU0 942350002 Skorpio X3 Batch, Hand Held, Std Laser w/ Green Spot, Windows CE 6.0, 256MB RAM/512MB Flash, 28-Key Numeric SKORPIOX3 0000LS-2N0-CEU0 942350003 Skorpio X3 with Bluetooth v2.0, 802.11 a/b/g CCX V4, Hand Held, Std Laser w/
Green Spot, Windows CE 6.0, 256MB RAM/512MB Flash, 50-Key Full-
alphanumeric SKORPIOX3 00A0LS-2F0-CEU0 942350006 Skorpio X3 with Bluetooth v2.0, 802.11 a/b/g CCX V4, Hand Held, Std 2D Imager w/ Green Spot, Windows CE 6.0, 256MB RAM/512MB Flash, 28-Key Numeric SKORPIOX3 00A0WI-2N0-CEU0 942350007 Skorpio X3 with Bluetooth v2.0, 802.11 a/b/g CCX V4, Hand Held, Std 2D Imager w/ Green Spot, Windows CE 6.0, 256MB RAM/512MB Flash, 50-Key Full-alphanumeric SKORPIOX3 00A0WI-2F0-CEU0 942350010 Skorpio X3 Batch v2.0, Hand Held, Std Laser w/ Green Spot, 6.0, 256MB RAM/512MB Flash, 38-Key Alphanumeric SKORPIOX3 0000LS-2S0-CEU0 Windows CE 2 INTRODUCTION 1 SKORPIOX3 00A0LS-2S0-CEU0 SKORPIOX3 00A0LS-3N0-CEU1 942350011 Skorpio X3 with Bluetooth v2.0, 802.11 a/b/g CCX V4, Hand Held, Std Laser w/
Green Spot, Windows CE 6.0, 256MB RAM/512MB Flash, 38-Key Alphanumeric 942400001 Skorpio X3 with Bluetooth v2.0, 802.11 a/b/g CCX V4, Pistol Grip, Std Laser w/
Green Spot, Windows CE 6.0, 256MB RAM/512MB Flash, 28-Key Numeric, Terminal Emulation 942400002 Skorpio X3 with Bluetooth v2.0, 802.11 a/b/g CCX V4, Pistol Grip, Std Laser w/
Green Spot, Windows CE 6.0, 256MB RAM/512MB Flash, 50-Key Full-
alphanumeric, Terminal Emulation 942400003 Skorpio X3 with Bluetooth v2.0, 802.11 a/b/g CCX V4, Pistol Grip, Std Laser w/
Green Spot, Windows CE 6.0, 256MB RAM/512MB Flash, 38-Key Alphanumeric, Terminal Emulation SKORPIOX3 00A0LS-3S0-CEU1 SKORPIOX3 00A0LS-3F0-CEU1 3 1 1 SKORPIO X3 1.3 PACKAGE CONTENTS The Skorpio X3 package contains:
1 Skorpio X3 mobile computer 1 Skorpio X3 Quick Start Guide 1 CD-ROM Getting Started Disk 1 rechargeable standard battery pack 1 Windows CE End User License Agreement 1 Wavelink Avalanche Insert 1 belt clip 1 belt clip pivot The Skorpio X3 GUN package contains:
Any other packages will contain the accessories necessary for the Skorpio X3 connection to the host computer and to the network: the cradle, one or more connection cables. Remove all the components from their packaging; check their integrity and congruity with the packing documents. 1 Skorpio X3 mobile computer 1 Skorpio X3 Quick Start Guide 1 CD-ROM Getting Started Disk 1 rechargeable standard battery pack 1 Windows CE End User License Agreement 1 Wavelink Avalanche Insert Keep the original packaging for use when sending products to the technical assistance center. Damage caused by improper packaging is not covered under the warranty. CAUTION 4 INTRODUCTION 1 NOTE Rechargeable battery packs are not initially charged. Therefore the first operation to perform is to charge them. See section 2.1. 5 1 1 SKORPIO X3 INSERTING MICROSD CARD 1.4 The Skorpio X3 supports microSD memory cards. To access the microSD card slot and insert the card, proceed as follows:
1. Turn off the Skorpio X3. 2. Pull the battery latch down and remove the battery pack:
3. Shift the cardholder upwards and then pull it up:
6 INTRODUCTION 1 Insert the microSD card with the written part upward:
4. 5. Lock the card into place by pushing the cardholder down and then shifting it downwards:
6. Insert the battery's alignment lugs into the recesses, then press firmly until the battery latch clicks twice. 7 1 1 SKORPIO X3 1.4.1 Removing the MicroSD Card To remove the microSD card, follow the steps above to access the microSD card cage under the battery, and remove it from microSD slot. the Follow proper ESD precautions to avoid damaging microprocessors in the Skorpio X3 or the microSD card itself. Proper ESD precautions include, but are not limited to, working on an ESD mat and ensuring that the operator is properly grounded. Do not force the card. If you feel resistance, remove the card, check the orientation, and reinsert it. Do not use the microSD card slot for any other accessories. It is highly recommended that users latch the card cage's bale even when the card is not present. CAUTION 8 INTRODUCTION 1.5 ACCESSORIES Cradles 94A150031 Dock, Single Slot, Skorpio X3 94A150032 Charger, 4 Slot Dock, Skorpio X3 94A150033 Dock, Ethernet 4 Slot, Skorpio X3 94A150034 Charger, 4 Slot Battery, Skorpio X3 94A150041 Vehicle Holder, Skorpio X3 Batteries 94ACC0046 Battery, High Capacity, Skorpio X3 94ACC0048 Battery, Standard Capacity, Skorpio X3 Power Supply 94ACC1380 Power Supply, Micro USB 94ACC1381 Power Supply, Dock, PWR Plug 2.1mm Cables 94A051020 Cable for dock-PC (RS232) communication 94A051968 Cable, Micro USB, Client 94A051969 Cable, Micro USB, Host 94A051970 Cable, USB HandyLink, Client 94A051971 Cable, USB HandyLink, Host 94A051972 Cable, RS232 HandyLink, Client Various 94ACC1230 Swivel for Functional Case (10pcs) 94ACC0044 Stylus Pen with Tether 94ACC1371 Module, Ethernet, Single Slot Dock 94ACC1372 Module, Modem, Single Slot Dock 94ACC0043 Handle Kit, Skorpio X3 94ACC0049 Handstrap, Skorpio X3 94ACC0050 Belt Holster, Skorpio X3 94ACC0051 Softcase, Skorpio X3 94ACC0052 Rubber Shell, Skorpio X3 1 9 1 SKORPIO X3 Use only a Datalogic Mobile-approved power supply and cables. Use of an alternative power supply will invalidate any approval given to this device and may be dangerous. 1 NOTE 10 BATTERIES AND MAINTENANCE 2 2 BATTERIES AND MAINTENANCE NOTE CAUTION Rechargeable backup batteries and battery packs are not initially charged. Therefore the initial operation to perform is to charge them. See below. By default, the battery pack is disconnected at the factory to avoid damage due to excessive draining. Annual replacement of rechargeable battery pack avoids possible risks or abnormalities and ensures maximum performance. 2.1 CHARGING THE BATTERY PACK The battery pack autonomy varies according to many factors, such as the frequency of barcode scanning, RF usage, battery life, storage, environmental conditions, etc. NOTE The battery icon on the Taskbar indicates when the battery pack is low. You may recharge your battery pack by connecting a standard Micro-USB wall charger directly to the Skorpio X3 Micro-USB charging port. The Micro-USB port can also be used to charge the Skorpio X3 battery pack from any self-powered USB hub or USB port on a computer, but only when the Skorpio is suspended. Alternatively, it is also possible to recharge the battery pack by inserting the Skorpio X3 into the single slot dock or the Ethernet four slot dock. Dont insert the wall charger into the micro-USB port when the Skorpio X3 is inserted into the dock. 11 CAUTION 2 1 SKORPIO X3 The charging LED glows red when the main battery is recharging. It will glow green when the battery reaches full charge. The charging LED will flash red when a charging error is detected (see par. 4.5.1). The stand alone battery pack may be recharged outside a Skorpio X3 using the spare battery charging slot on the back of a single slot dock, an Ethernet four slot dock, or a four slot battery charger. NOTE CAUTION CAUTION Its recommended to charge batteries before first use. Risk of explosion if battery is replaced by an incorrective type. Dispose of used batteries according to the instructions. Il y a risque dexplosion si la batterie est remplace par une batterie de type incorrect. Mettre au rebut les batteris usages confor mment aux instructions. Avoid storing batteries for long periods in a state of full charge or very low charge. We recommend charging the battery pack every two to three months to keep its charge at a moderate level to maximize battery life. CAUTION 12 BATTERIES AND MAINTENANCE 2 Even if the storage temperature range is wider, In order to achieve the longest battery life, store the terminal and the spare batteries between 20 to 30 C (68 to 86 F). Skorpio X3 (including spare battery) should be charged at an ambient temperature between 0 - 35 C to achieve the maximum charging rate. Never charge the main device or spare batteries in a closed space (cabinet) where excessive heat can build up. The battery level may display incorrectly for several minutes after the Skorpio X3 is disconnected from its charger if the charging cycle is not completed. The Skorpio X3 may get warm during charging, this is normal and does not mean a malfunction. NOTE NOTE NOTE 13 2 1 SKORPIO X3 2.2 REPLACING THE BATTERY PACK To correctly replace the battery pack, proceed as follows. 1. Turn off the Skorpio X3. 2. Pull the battery latch down as indicated in the figure below:
3. Remove the battery pack. 14 BATTERIES AND MAINTENANCE 2 Insert the battery's alignment lugs into the recesses, then press firmly until the battery latch clicks twice:
4. WARNING Installing, charging and/or any other action should be done by authorized personnel and following this manual. The battery pack may get hot, explode, ignite, and/or cause serious injury if exposed to abusive conditions. If the battery pack is replaced with an improper type, there is risk of explosion. Do not place the battery pack in or near a fire or heat; do not place the battery pack in direct sunlight, or use or store the battery pack inside unventilated areas in hot weather; do not place the battery pack in microwave ovens, driers, high pressure containers, on induction cooking surfaces, or any similar heat producing device. Doing so may cause the battery pack to generate heat, explode or ignite. Using the battery pack in this manner may also result in a loss of performance and a shortened life expectancy. Use only a Datalogic Mobile approved power supply. The use of an alternative power supply will void the product warranty, may cause product damage and may cause heat, explode or ignite. The area in which the units are charged should be clear of debris and combustible materials or chemicals. Do not use the battery pack of this terminal to power devices other than this mobile computer. 15 1 SKORPIO X3 Immediately discontinue use of the battery pack if, while using, charging or storing the battery pack, the battery pack emits an unusual smell, feels hot, changes color or shape, or appears abnormal in any other way. Do not short-circuit the battery pack contacts connecting the positive terminal and negative terminal. This might happen, for example, when you carry a spare battery pack in your pocket or purse;
accidental shortcircuiting can occur when a metallic object such as a coin, clip, or pen causes direct connection of the contacts of the battery pack (these look like metal strips on the battery pack). Short circuiting the terminals may damage the battery pack or the connecting object. Do not apply voltages to the battery pack contacts. Do not pierce the battery pack with nails, strike it with a hammer, step on it or otherwise subject it to strong impacts or shocks. Do not disassemble or modify (i.e. bend, crush or deform) the battery pack. The battery pack contains safety and protection devices, which, if damaged, may cause the battery pack to generate heat, explode or ignite. In case of leakage of liquid from the battery, avoid contact with skin or eyes. If contact occurs, immediately flush the affected area with water and contact a doctor. Do not solder directly onto the battery pack. Do not expose the battery pack to liquids. Avoid any knocks or excessive vibrations. If the device or the battery is dropped, especially on a hard surface, you should take it to the nearest Authorised Repair Centre for inspection before continuing to use it. Do not replace the battery pack when the device is turned on. Do not remove or damage the battery packs label. Do not use the battery pack if it is damaged in any part. Battery pack usage by children should be supervised. Collect and recycle waste batteries separately from the device in compliance with European Directive 2006/66/EC, 2002/95/EC, 2002/96/EC and subsequent modifications, US and China regulatory and others laws and environmental regulations. 2 WARNING 16 BATTERIES AND MAINTENANCE 2 NOTE NOTE In order to maximize operating autonomy, the Skorpio X3 checks its battery level at all times. If the battery is not sufficiently charged, the Skorpio X3 will not turn on when the ON/OFF Power button is pressed. In this case, either substitute a sufficiently charged battery, insert the Skorpio X3 into a powered cradle, or plug it into a wall charger. To maximize battery life, turn off radios when they are not needed. 17 2 1 SKORPIO X3 CLEANING THE MOBILE COMPUTER 2.3 Periodically clean the Skorpio X3 with a slightly dampened cloth. Do not use alcohol, corrosive products or solvents. 18 CONNECTIONS 3 3 CONNECTIONS 3.1 USB CONNECTION You can use the Datalogic HandyLink cable 94A051970 to directly connect the Skorpio X3 to a host computer to transfer data through the USB interface. A B C Key:
A Host computer B 94A051970 HandyLink USB Client Cable C Skorpio X3 NOTE The HandyLink cable complies to the USB 1.1 standard. 19 3 1 SKORPIO X3 The Single Dock can be connected to the Host by means of the Micro-B USB cord 94A051968. Once the host has been turned on, insert the Skorpio X3 mobile computer into the cradle. A C B D Key:
A Host computer B 94A051968 Micro USB Client Cable C Skorpio X3 Single Slot Dock D 94ACC1381 Power Adapter Connection through the cradle is complies to 1.1 USB standard. The actual data transfer speed can be appreciably lower than the maximum theoretical speed. Dont insert the wall charger into the Micro-USB port when the Skorpio X3 is inserted into the dock. NOTE NOTE CAUTION 20 CONNECTIONS 3 3.2 CONNECTION TO USB PERIPHERALS You connect the Skorpio X3 to a standard 101-key USB keyboard or to a standard USB flash memory device. connect the terminal to the Datalogic 94A051971 HandyLink Micro-USB host cable. For all these devices maximum current withdrawal must be below 100mA. B A Key:
C A Keyboard with USB interface C 94A051971 HandyLink Micro-USB Host Cable B Skorpio X3 Key:
A D C B A USB hard drive/ external memory source B Skorpio X3 C 94A051971 HandyLink Micro USB Host Cable D Standard A to Micro A USB Cable A standard USB cable is needed only if the USB hard driver or flash memory device does not include its own cable with a "A" plug on it 21 3 1 SKORPIO X3 Connect the Single Slot Dock to the peripheral by means of a Micro-A USB cord, or use a Micro-A to Std-A receptacle USB adapter such as Datalogic 94A051969
(together with a standard USB cable if needed). B A D C E A USB Peripheral (memory) B Skorpio X3 Single Slot Dock C 94A051969 Micro-USB Host Cable D Standard A to Micro A USB Cable E 94ACC1381 Power Adapter Skorpio X3 works with most of mentioned USB peripherals. Datalogic can not guarantee the operations of Skorpio X3 with all devices on the market. Connection is compliant to 1.1 USB standard. The actual data transfer speed can be appreciably lower than the maximum theoretical speed. NOTE NOTE NOTE A standard USB cable is needed only if the USB hard driver or flash memory device does not include its own cable with a "A" plug on it 22 CONNECTIONS 3 3.3 RS232 CONNECTION You can use the Datalogic 94A051972 cable to directly connect the Skorpio X3 to a host computer to transfer data through the RS232 interface A A C B Key:
A Host computer B 94A051972 HandyLink Micro RS232 Client Cable C Skorpio X3 The Single Slot Dock can be connected to the Host by means of a standard null modem cable such as Datalogic 94A051020 CAB-427 for 9-pin connections. Once the Host has been turned on, insert the Skorpio X3 mobile computer into the cradle. C B D Key:
A Host Computer B 94A051020 CAB-427 RS232 Null Modem Cable C Skorpio X3 Single Slot Dock D 94ACC1381 Power Adapter 23 3 1 SKORPIO X3 3.4 WLAN CONNECTION Skorpio X3 802.11 a/b/g radio models can communicate with the host using the on-
board radio and an Access Point connected to a network. For models using the 802.11 a/b/g radio, you can find information about the applet for radio configuration: http://www.summitdata.com/SCU.htm. To launch this utility you can tap the specific icon if it's visible on the taskbar or you can select the menu item: Start->Programs->Summit and tap the SCU icon. A C A B Key:
A) Skorpio X3 B) Access point C) Host Application Server 24 CONNECTIONS 3 NOTE NOTE NOTE NOTE 802.11 a/b/g radio module is on by default. In order to avoid wasting energy, you can switch it off using the SCU. Suspending the terminal powers off the 802.11 a/b/g radio and drops the radio connection. When the terminal resumes, depending on the radio power mode and security protocol selected, it may take up to 30 seconds for the 802.11 a/b/g radio driver to re-associate the radio to the network. Area coverage and to environmental conditions, access points types or interference caused by other devices (microwave ovens, radio transmitters, etc.). radio performance may vary, due In case of heavy usage the Skorpio X3 could get warm. This is normal and does not mean a malfunction. 25 3 1 SKORPIO X3 3.5 WPAN CONNECTIONS Datalogic Skorpio X3 Bluetooth models can communicate with a Bluetooth device, such as a printer, within a range of 10 m, using the on-board Bluetooth module. B A Key:
A) Skorpio X3 B) Bluetooth printer In order to extend battery life, the Bluetooth module is off by default. If you need to have Bluetooth working, the module must be powered on using the SCU (see par. 4.6.6), and perform the Discovery procedure (see par. 4.7.2). Suspending the terminal powers off the Bluetooth radio and drops the piconet (Bluetooth connection). When the terminal resumes, it takes approximately 10 seconds for the Bluetooth radio driver to re-
initialize the radio. Area coverage and Bluetooth radio performance may vary, due to environmental conditions or interference caused by other devices
(microwave ovens, radio transmitters, etc.). NOTE NOTE NOTE 26 CONNECTIONS 3 3.6 WIRELESS AND RADIO FREQUENCIES WARNINGS Use only the supplied or an approved replacement antenna. Unauthorized antennas, modifications or attachments could damage the product and may violate laws and regulations. WARNING WARNING WARNING WARNING Most modern electronic equipment is shielded from RF signals. However, certain electronic equipment may not be shielded against the RF signals generated by Skorpio X3. Datalogic recommends persons with pacemakers or other medical devices to follow the same recommendations provided by Health Industry Manufacturers Associations for mobile phones. Persons with pacemakers:
Should ALWAYS keep this device more than twenty five (25) cm from their pacemaker and/or any other medical device;
Should not carry this device in a breast pocket;
Should keep the device at the opposite side of the pacemaker and/or any other medical device;
Should turn this device OFF or move it immediately AWAY if there is any reason to suspect that interference is taking place. Should ALWAYS read pacemaker or any other medical device guides or should consult the manufacturer of the medical device to determine if it is adequately shielded from external RF energy. In case of doubt concerning the use of wireless devices with an implanted medical device, contact your doctor. Turn this device OFF in health care facilities when any regulations posted in these areas instruct you to do so. Hospitals or health care facilities may use equipment that could be sensitive to external RF energy. 27 1 SKORPIO X3 RF signals may affect improperly installed or inadequately shielded electronic systems in motor vehicles. Check with the manufacturer or its representative regarding your vehicle. You should also consult the manufacturer of any equipment that has been added to your vehicle. An air bag inflates with great force. DO NOT place objects, including either installed or portable wireless equipment, in the area over the air bag or in the air bag deployment area. If vehicles wireless equipment is improperly installed and the air bag inflates, serious injury could result. Turn off the device when in any area with a potentially explosive atmosphere. Observe restrictions and follow closely any laws, regulations, warnings and best practices on the use of radio equipment near fuel storage areas or distribution fuel areas, chemical plants or where some operation involves use of explosive materials. Do not store or carry flammable liquids, explosive gases or materials with the device or its parts or accessories. Areas with a potentially explosive atmosphere are often, but not always, clearly marked or showed. Sparks in such areas could cause an explosion or fire, resulting in injury or even death. 3 WARNING WARNING WARNING 28 USE AND FUNCTIONING 4 4 USE AND FUNCTIONING The use of the Skorpio X3 depends on the application software loaded. However there are several parameters that can be set and utilities that can be used to perform some basic functions such as data capture, communications, file management, etc 4.1 STARTUP The Skorpio X3 turns on when the battery pack or the external supply is inserted and the ON/OFF Power button is pressed. After the battery pack is installed, use the [ON/OFF] key to turn the mobile computer on and off. As soon as the mobile computer is on, the Windows CE 6.0 desktop will appear on the screen. Wait a few seconds before starting any activity so that the mobile computer completes its startup procedure. Desktop Control Panel Use the stylus (par. 4.1.1) as suggested to select icons and options. The mobile computer goes into power-off (low power with display and keyboard backlight off), when it is not used for more than a programmable timeout, which is defined in the POWER applet of the Control Panel. In this mode it can be awakened
(resuming operation) by the [ON/OFF] key. 29 4 NOTE 1 SKORPIO X3 The mobile computer can also be awakened or suspended programmatically. 4.1.1 Using the Stylus The stylus selects items and enters information. The stylus functions like a mouse. Double Tap:
Drag:
Tap-and-hold:
Double tap the screen with the stylus to open items and select options. Hold the stylus on the screen and drag across the screen to select text and images. Drag in a list to select multiple items. Tap and hold the stylus on an item to see a list of actions available for that item. On the pop-up menu that appears, tap the action you want to perform. To recalibrate the touch screen use the Stylus applet (see par. 4.6.7). CAUTION Use only original Datalogic styluses supplied with the product itself. In harsh applications, use of screen protectors should be taken into consideration, in order to extend the touch screen operating life. To prevent damage to the screen, do not use sharp devices or any device other than the Datalogic Mobile-provided stylus. Do not apply too much pressure when touching the screen. For applications where an intensive use of the touch screen is foreseen, please consider that touch screen components are subject to progressive wear. 30 USE AND FUNCTIONING 4 Touch Gestures 4.1.2 Touch gestures describe gestures in which you use a finger or stylus to make a short, directional movement over a control or object on the screen. Most gestures are a single stroke. Windows CE supports five kinds of gestures. Tap:
A tap represents the left click of a mouse. Double Tap:
A double tap represents the left double click of a mouse. The user can press and hold on the screen to represent the right click of a mouse. The user can move a finger across the screen to initiate per-pixel scrolling, and if this movement is fast enough, scrolling will continue after the finger is lifted. The user can press and hold on the screen and then drag the finger in any direction to represent a mouse move event. Hold:
Flick:
Pan:
31 4 1 SKORPIO X3 4.2 WINDOWS CE TOUCH SCREEN CALIBRATION In Windows CE, at the very first Skorpio X3 startup, following a clean boot to restore the Registry to default values, the mobile computer startup (see par. 4.1) is preceded by the touch screen calibration screen. The user must calibrate the touch screen (see par. 4.6.7) Touch Screen Calibration Screen 32 USE AND FUNCTIONING 4 4.3 DATA CAPTURE To capture data tap Start > Settings > Control Panel > double tap Decoding:
To configure and enable data capture parameters refer to par. 4.6.1. 33 4 1 SKORPIO X3 Laser Data Capture 4.3.1 To scan barcodes, point the Skorpio X3 laser model onto the code from a distance within the reading range while pressing the SCAN key or the pistol trigger. The lighted band emitted by the laser must completely cross the barcode as shown in the figure below. If the scan has taken place correctly:
the Good Read LED glows green as long as the user holds the trigger;
the Good Read Beep emits an acoustic signal;
the Green Spot* projects a green spot onto the bar code image. It is enabled by default, but can be silenced 34 USE AND FUNCTIONING 4 Imager Data Capture 4.3.2 The Skorpio X3 Imager captures a picture of the entire bar code. The omni-
directional scanning does not require that the operator orient the bar code to align with the scan pattern. To read a 1D or 2D code, simply point the Skorpio X3 Imager model onto the code and press the SCAN Key or the pistol trigger. The Skorpio X3 Imager uses an intelligent aiming system pattern, similar to those on cameras, indicating the field of view, which should be positioned over the code:
Aiming System If the aiming system pattern is centered over the entire symbology as shown in the following figure, either wait for the timeout or release the Scan key or the trigger to capture the image. A red beam illuminates the code, which is captured and decoded. You will get a good read. 35 4 Linear barcode 2D Matrix symbol 1 SKORPIO X3 BX3 Relative Size and Location of Aiming System Pattern The field of view changes its size as you move the reader closer or farther away from the code. The field of view indicated by the aiming system pattern will be smaller when the Skorpio X3 Imager is closer to the code and larger when it is farther from the code. Symbologies with smaller bars or elements (mil size) should be read closer to the unit. Symbologies with larger bars or elements (mil size) should be read farther from the unit. (See par. 5.1 for further details). If the scan has taken place correctly:
the Good Read LED glows green until the user releases the trigger;
if enabled, the GoodReadSound emits an acoustic signal. 36 USE AND FUNCTIONING 4 4.4 DESCRIPTION OF THE KEYBOARDS The Skorpio X3 comes with three different keyboards: a full-alphanumeric keyboard, having 50 keys, an alphanumeric keyboard, having 38 keys and a numeric keyboard, having 28 keys. 4.4.1 Full-alphanumeric Keyboard (50 Keys) 37 4 Main Keys Function KEY 1 SKORPIO X3 let you move FUNCTION The SCAN key starts data capture. If enabled, it also wakes up the mobile computer from low-power (see par. 4.6.2). For pistol grip models only, the trigger performs the same function as the SCAN key. Arrow keys forwards, backwards, upwards or downwards within text fields, scroll through a Menu list or browse among folder files. Yellow modifier (toggle key): when pressed before a standard key, it enables the character or function printed in yellow above the key. Blue modifier (one shot key): when pressed before a standard key, it enables the character or function printed in blue above the key The ON/OFF Power button powers the Skorpio X3 ON or OFF. It is placed on the upper left side of the terminal. After a Blue modifier key press, the blue arrows allow moving forwards or backwards within the Internet Explorer browser pages. Special Function Icons ICON FUNCTION After a Blue modifier key press, the Start menu key opens the Start menu. After a Blue modifier key press, the Backlight key turns the backlight on and off. 38 USE AND FUNCTIONING 4 4.4.2 Alphanumeric Keyboard (38 Keys) 39 1 SKORPIO X3 FUNCTION The SCAN key starts data capture. If enabled, it also wakes up the mobile computer from low-
power (see par. 4.6.2). For pistol grip models only, the trigger performs the same function as the SCAN key. Arrow keys let you move forwards, backwards, upwards or downwards within text fields, scroll through a Menu list or browse among folder files. Yellow modifier (toggle key): when pressed before a standard key, it enables the character or function printed in yellow above the key. Blue modifier (one shot key): when pressed before a standard key, it enables the character or function printed in blue above the key The ON/OFF Power button powers the Skorpio X3 ON or OFF. It is placed on the upper left side of the terminal. After a Blue modifier key press, the blue arrows allow moving forwards or backwards within the Internet Explorer browser pages. 4 Main Keys Function KEY Special Function Icons ICON FUNCTION After a Blue modifier key press, the Start menu key opens the Start menu. After a Blue modifier key press, the File Manager key opens the file manager. After a Blue modifier key press, the Backlight key turns the backlight on and off. 40 USE AND FUNCTIONING 4 4.4.3 Numeric Keyboard (28 Keys) 41 4 Main Keys Function KEY 1 SKORPIO X3 FUNCTION The SCAN key starts data capture. If enabled, it also wakes up the mobile computer from low-
power (see par. 4.6.2). For pistol grip models only, the trigger performs the same function as the SCAN key. Arrow keys let you move forwards, backwards, upwards or downwards within text fields, scroll through a Menu list or browse among folder files. Yellow modifier (toggle key): when pressed before a standard key, it enables the character or function printed in yellow above the key. Blue modifier (one shot key): when pressed before a standard key, it enables the character or function printed in blue above the key The ON/OFF Power button powers the Skorpio X3 ON or OFF. It is placed on the upper left side of the terminal. After a Blue modifier key press, the blue arrows allow moving forwards or backwards within the Internet Explorer browser pages.
+
+
CTRL ALT Special Function Icons ICON FUNCTION After a Blue modifier key press, the Backlight key turns the backlight on and off. 42 USE AND FUNCTIONING 4 Multitap Function In the numeric keypad the number keys (key 0 excluded) and the ESC key share the following behavior scheme:
A. Function of the key when directly pressed. B. Modified by the Yellow key, repeated presses cycle through the letters shown on the keyboard overlay for each key. The letter is entered if you wait for a short timeout. A B 43 4 1 SKORPIO X3 Resetting the Skorpio X3 4.4.4 There are several reset methods for the Skorpio X3. A warm boot terminates an unresponsive application and clears the working RAM, but preserves the file system. The Registry is restored from persistent memory if available or returned to factory default. A cold boot forces all applications to close reinitializing completely the system. It clears the working RAM, but the file system is preserved. The Registry is restored from persistent memory. A clean boot restores the Skorpio X3 to a clean configuration: both the Registry and the file system returns to a clean status that conforms to factory default. Warm Boot To perform a warm boot, press and hold the following keys simultaneously:
+
+
Cold Boot To perform a cold boot, do the following steps:
1. 2. 3. 4. 5. Turn off the Skorpio X3 by pressing the ON/OFF Power button. Pull the battery latch down and remove the battery pack. Simultaneously press the SCAN key and the Reset button in the battery compartment. Insert the battery pack. Turn on the Skorpio X3 by pressing the ON/OFF Power button. 44 USE AND FUNCTIONING 4 Clean Boot To perform a clean boot, do the following steps:
1. Perform a Cold Boot (see Cold Boot) 2. Press and hold down the Esc + 0 keys simultaneously, prompty after resetting:
+
A dialog box will appear asking for confirmation. Press the Enter Key. Registry Warm Boot Restored from flash Preserved Cold Boot Restored from flash Preserved Clean Boot Clean configuration (no user config) Clean Installation (no user files) File System 45 4 1 SKORPIO X3 4.5 STATUS INDICATORS 4.5.1 The Skorpio X3 provides three different LEDs signaling the mobile computer status. LED Status LED STATUS Good Read
(right side) Charging Status
(left side) Red Green Green Red Scanning LED is ON from the time the user hits the scan button (Trigger) until the bar code is decoded (laser models) Time-out (imager models). Scanning LED is ON, showing a good decode. It is solid once the charging process has been completed (full charge). It is solid while charging. Blinking Red It blinks in case of charge fault. Blinking Amber It blinks when the device raises a notification to the user. Keyboard Status
(center) Off Keyboard in primary. Solid Yellow Solid Blue Yellow alternate key mode. Blue alternate key mode Pink CapsLock enabled. The Good Read LED has also a "Suspend LED" feature. The decode LED will glow red when the device begins to suspend, and will turn off when the suspend completes successfully 46 USE AND FUNCTIONING 4 Taskbar 4.5.2 The Taskbar provides quick view and links to the Wi-Fi, Bluetooth, and Clock settings. It also makes available the keyboard SIP and window selection. Windows CE Taskbar ICONS DESCRIPTION ActiveSync connection icon is displayed when connected to ActiveSync or Windows Mobile Device Center either by USB, RS232, or Bluetooth. Double-tap it to open a status dialog that will let you disconnect session without physically disconnecting the device from the PC. It is to disconnect a Bluetooth ActiveSync connection. the ActiveSync the only way Battery icon displays the system battery status. It indicates that the battery is charging. Bluetooth Manager icon displays whether Bluetooth is enabled, paired, or turned off. Double-tap this icon to open the Bluetooth Manager control panel applet. Network connectoid icon displays whether you are connected or not to Ethernet, Wi-Fi, or Bluetooth Personal Area Network. 47 4 1 SKORPIO X3 4.6 CONTROL PANEL From the Start menu, tap Settings then Control Panel. Below is an expanded view of the Control Panel showing all of the applets. Windows CE Control Panel 48 USE AND FUNCTIONING 4 4.6.1 Data Capture Configuration From the Windows CE control panel main window, double tap the Decoding icon:
There are two sections in the Decoding control panel, each containing additional pages. There are seven General Configuration pages and multiple Barcode symbology pages. DECODING CONFIGURATION PAGES Select the desired configuration from the options shown in the figure below, and the other Decoding Properties figures on the following pages. Select General,1D Bar Code or 2D Bar Code, then use the menu or tap the left and right arrow keys to navigate the different pages of the Decoding utility. The menu options will change to reflect the items most recently selected. 49 4 1 SKORPIO X3 Audio From the Decoding Properties page, tap Configure > General > Audio. Use it to set volume, tone, duration, and number of various types of beeps. Good Read From the Decoding Properties page, tap Configure > General > Good Read. Use it to enable Good Read indications, the use of Green Spot and a to set the decoding timeout for decoding labels. 50 USE AND FUNCTIONING 4 Formatting From the Decoding Properties page, tap Configure > General > Formatting. Use it to configure prefix, suffix and data separator character strings. General Options From the Decoding Properties page, tap Configure > General > General Options. Select from Label Programming Enable, Symbology IDs and Group Separator Replacement. 51 4 1 SKORPIO X3 Decoding Options From the Decoding Properties page, tap Configure > General > Decoding Options. Use it to configure the User ID for symbologies, Redundancy and Aggressive Decoding (if supported by the decoding module). Select a symbology to view or change the available properties settings. 52 USE AND FUNCTIONING 4 Spot Beam From the Decoding Properties page, tap Configure > General > Spot Beam. It allows enabling and configuration of Spot Beam and triggering modes. It is only available on devices equipped with laser and advanced long range laser decoding modules that support the Spot Beam Feature. 53 4 1 SKORPIO X3 Imager Options From the Decoding Properties page, tap Configure > General > Imager Options. It configures illumination, target beam and Pick List mode, and triggering modes. It is only available on devices equipped with 2D decoding engines. 54 USE AND FUNCTIONING 4 Devices From the Decoding Properties page, tap Configure > General > Devices. Use it to enable or disable the keyboard wedge for Barcode scanner. 55 4 1 SKORPIO X3 1D Barcode Symbology Pages Use the drop-down menus from Configure > 1D Barcode, or tap the left and right arrow keys to navigate the different pages of the barcode symbology pages. Select Configure > 1D Bar Code from the menu to view other configuration options. Each barcode symbology opens to its own page, as shown in the figure below. Refer to the sample symbology control panels for examples of the types of fields and options you can modify. 56 USE AND FUNCTIONING 4 from the Decoding Properties Settings menu Decoding Settings Select configurations and/or other available default settings. Choose from:
Factory Defaults Minimum Settings Maximum Settings Save (New Settings) Revert to Saved Settings to restore previous The settings are saved when you tap Yes. To permanently save these settings you need to save the Registry using the Persistent Registry applet in the Control Panel. When open, Decoding Properties acts as a simple barcode test tool that provides the Data decoded and the Data Type of the barcode scanned. 57 4 1 SKORPIO X3 4.6.2 DL Buttons You can use DL Buttons Tab to associate specific keys, such as <F1>-<F10>, with specific applications. From the control panel main window, double tap the DL Buttons icon. On the DL Buttons tab, customize the program hardware buttons to launch your most used applications. Under Select a button, select the button you want to assign a function to, and then select a program from Assign a function. 58 USE AND FUNCTIONING 4 COMMAND Select a Button New Delete Assign a function Application Browse Arguments DESCRIPTION This pull-down list displays the available function keys to define. Select the desired one from the list. Select/tap to specify a new Button, not on the Select a Buttonlist. Tap to delete the selected Button. You can only delete the Buttons you have added. You cannot delete the following buttons: Alt + 6, Left Button, Pistol Trigger, Right Button, Scan This pull-down list displays the available functions. Displays path to the selected application. Select/tap to browse for application files. You can associate an executable program with the specified Button Type the command-line arguments that are needed for the specified application. This option is only available when Launch Application is selected in the Assign a function pull-down list. 59 4 1 SKORPIO X3 Adding a new Button When you select New on the DL Buttons tab, this opens the Add Key dialog box. To define a new Button, complete the following steps:
1. Enter the key combination in the Add Key textbox. COMMAND DESCRIPTION Enter the desired key combination in this text box to define a Button. Select/tap OK to add the specified Button. Select/tap X to cancel the specified Button. Make sure you do not attempt to add a Button that is already defined. Enter Key OK X NOTE 2. Select/tap OK to save the new Button. If you select/tap X, the key will not be saved. 60 USE AND FUNCTIONING 4 CAUTION It is possible for the keyboard wedge to activate assigned Buttons using alphanumeric characters. Barcodes containing characters associated with assigned Buttons will the action or application assigned to that Button. trigger 61 4 1 SKORPIO X3 Triggers 4.6.3 Triggers are special customizable buttons that are mapped by default by DL Mobile. Also, they can be set as wakeup buttons:
APPLICATION Bar Code Bar Code TRIGGER Scan Pistol Trigger 62 USE AND FUNCTIONING 4 4.6.4 Application Switcher The application switcher provides the same functionality as the standard Windows Alt+Tab function. This allows the user to switch between the various open applications. The application switcher is activated via an assigned shortcut key specified in the DL Buttons tab (see par. 4.6.2.) When the assigned button is pressed, the dialog shown below will be displayed:
Press the assigned button to cycle through the running applications when the dialog is open. Press <Enter> to switch to the selected application or <Esc> to close the application switcher. 63 4 1 SKORPIO X3 Persistent Registry 4.6.5 The Registry stores information that are necessary to configure the system for applications and hardware devices. The Registry also contains information that the operating system continually references to during operation. To persist the Registry settings between boots, do the following steps:
1. Select Start > Settings > Control Panel. 2. Double-tap the Persistent Registry icon. 3. Tap the Persist button. 4. Tap OK to exit. 64 USE AND FUNCTIONING 4 To change Persistent Registry timing, do the following steps:
1. Select Start > Settings > Control Panel. 2. Double-tap the Persistent Registry icon. 3. Select a time interval from the menu. 4. Tap OK to save and exit. 65 4 1 SKORPIO X3 To deselect Persistent Registry timing, do the following steps:
1. Select Start > Settings > Control Panel. 2. Double-tap the Persistent Registry icon. 3. Deselect the Persist Registry settings box. 4. Tap OK to save and exit. 66 USE AND FUNCTIONING 4 4.6.6 Wireless Communications Wireless networking has a customized control, Summit Client Utility (SCU), specific to the radio. There are two methods to access the SCU. Start > Programs > Summit > SCU:
Or From the Control Panel main window, double tap Wi-Fi to open the Summit Client Utility:
67 4 The SCU will open to the Main tab:
1 SKORPIO X3 1. To create a new profile, tap the "Profile" tab:
Summit Client Utility Information about the wireless network can be entered directly in the profile tab or by pressing Scan when the desired network ESSID is in range. 68 USE AND FUNCTIONING 4 2. At the "Scan" screen, select the desired SSID:
3. Click the "Configure" button 4. Follow the on-screen instructions to setup security parameters for your network. For more detailed settings specific to your installation please contact your wireless network administrator. 69 4 5. When finished, click Commit to save your settings. 1 SKORPIO X3 Return to the Main tab, if you have not previously selected Commit you will be prompted to save your changes. At the Main tab select the profile you just created. If you used the scan button the desired profile will have the same name as the ESSID. Use the Status tab to check connectivity to the network. 70 USE AND FUNCTIONING 4 More detailed information about the applet for radio configuration can be found at http://www.summitdata.com/SCU.htm. 71 4 1 SKORPIO X3 Stylus Calibration 4.6.7 You might need to recalibrate the touch screen (i.e. when you attempt to select one item with the stylus, another item is erroneously selected). To recalibrate the touch screen, complete the following steps:
1. From the Control Panel main window, double tap Stylus to open the Stylus Properties applet window:
2. Tap Calibration to open the Calibration screen. Tap Recalibrate:
72 USE AND FUNCTIONING 4 3. Carefully press and briefly hold stylus on the center of the target. Repeat as the target moves around the screen. 4. By completing the calibration procedure you implicitly accept the new calibration settings. 5. New calibration settings are persistently saved in the Registry. Startup Stylus Calibration When starting the terminal, a Welcome Wizard (with Stylus Calibration) comes up if valid calibration settings are not available. This happens following circumstances:
1. At the first startup of the terminal. 2. After any cold boot if the user skipped stylus calibration earlier. 3. After a Clean Boot. the in 73 4 1 SKORPIO X3 4.6.8 Audio Settings There are two applets that control volume: Audio and Volume & Sounds. Audio From the control panel main window, select the Audio applet by double tapping the Audio icon:
The audio control panel can be used to independently set the playback or recording volume for different types of audio inputs and outputs, such as a headset, powered mobile dock, or the internal speakers and microphone. Audio Windows 74 USE AND FUNCTIONING 4 Volume & Sounds From the control panel main window, select the Volume & Sounds applet by double tapping the Volume & Sounds icon:
The Volume & Sounds applet configures audio features of all speakers and headphones and appears as follows:
Volume & Sounds Window 75 4 1 SKORPIO X3 4.7 WINDOWS CONNECTIONS There is more than one way to connect the Skorpio X3 to a host PC running Windows. Each requires specific connections in order to function properly. 4.7.1 Windows Mobile Device Center The desktop application Windows Mobile Device Center gives you the ability to synchronize information between a desktop computer and your Skorpio X3. Synchronization compares the data on the Skorpio X3 with that on the desktop computer and updates both with the most recent information. Windows Mobile Device Center is only compatible with Windows Vista and Windows 7; if you run Windows XP or earlier, you have to download Microsoft ActiveSync. You can establish a connection to your Skorpio X3 through the following interfaces:
To establish a partnership between the Skorpio X3 and a host PC, start Windows Mobile Device Center and follow the steps below:
1. Connect the Skorpio X3 to the host PC. Windows Mobile Device Center USB either directly or through the Single Dock RS232 either directly or through the Single Dock Bluetooth (see par. 4.7.2) configures itself and then opens. 2. On the license agreement screen, click Accept. 3. On the Windows Mobile Device Centers Home screen, click Set up your 4. Select the information types that you want to synchronize, then click Next. 5. Enter a device name and click Set Up. When you finish the setup wizard, Windows Mobile Device Center synchronizes the mobile computer automatically. device. 76 USE AND FUNCTIONING 4 NOTE NOTE NOTE Visit the following Microsoft Web site for the latest in updates and technical information:
http://www.microsoft.com/windowsphone/en-
us/howto/wp6/sync/prepare-to-sync-windows-phone-6-5-with-my-
computer.aspx The Skorpio X3 running Windows CE does not come equipped with Microsoft Office Outlook or any other application that allows users to view contact, calendar, e-mail, or task data. Users can view files copied to the Skorpio X3 by WMDC's file synchronization feature. When a microSD card is inserted, Skorpio X3 allows a mass storage data connection to a host PC. This functionality can be enabled through the Control Panel. When doing so, the microSD card is not available to the Skorpio X3. An ActiveSync connection is not possible when this feature is enabled. 77 4 4.7.2 Bluetooth Manager Device Setup 1 SKORPIO X3 The Bluetooth Manager icon will only be visible if Bluetooth hardware has been installed on the unit. NOTE Using the Skorpio X3 to connect to another device To create a Bluetooth pairing between your device and another device that has Bluetooth capabilities, ensure that the two devices are turned on, discoverable, and within close range. 1. From the Bluetooth Manager control panel tap Connections. 2. Search for available Bluetooth devices by tapping the button for the type of device you want (Printer, Serial or All) or tap Discovery > Discover to skip this step. The Skorpio X3 will search for Bluetooth devices within range. If you attempt to set up a connection when the Bluetooth radio is disabled, you will receive a message reminding you that the radio is turned off, and asking if you want to turn it on. Tap Yes if you need to enable the Bluetooth radio. NOTE 78 USE AND FUNCTIONING 4 3. Once searching is complete, Bluetooth device Profiles will be displayed in the Discovery tab. You can set up a connection to a device in the list by selecting the device and then tapping the 'Connect' button:
To create a pairing:
1. Select a service:
2. Configure any encryption, authentication, or virtual port options required by the service selected. 79 1 SKORPIO X3 4 Icon Service Dialup Networking Printer Object Push (OPP) Object Exchange (OBEX) ActiveSync Human Interface Device (HID) - Keyboard Serial Personal Area Network (PAN) Modem Headset Handsfree Virtual Port allows you to specify the incoming port, which is used to communicate serially with an incoming device just as if it were a physical COM port. This option is available only if you have selected a Printer or Serial service. 80 USE AND FUNCTIONING 4 You can also select Encrypt or Authenticate from the Bluetooth control panel to apply or modify those settings. 1. To require Authentication, check the checkbox, then tap OK. If required, the Authentication Request dialog will then open, requesting that you enter a PIN. Use the Input Panel or the keyboard to type the PIN. 2. 3. Tap OK to complete. The dialog will also appear when an Authentication request is received from another device. 81 4 1 SKORPIO X3 Once you have set up a pairing, you can view the settings by double-tapping its name from the Connections tab. Tap the arrow to change the Virtual Port, or Delete to remove the device pairing. Tap Sync to initiate a Sync (available only if the service is an ActiveSync connection). 82 USE AND FUNCTIONING 4 Using your device to connect to the Skorpio X3 Before turning on Bluetooth, ensure that the two devices are within close range and that both Bluetooth-enabled devices are discoverable. 1. From the control panel main window, double tap the Bluetooth Manager icon to open the Bluetooth Manager control panel. 2. Tap Settings. The Settings tab allows you to enable or disable the Bluetooth radio and specify settings for Incoming Connections. 83 4 1 SKORPIO X3 3. Select or clear the Enable Bluetooth Radio check box. If youre going to be attaching a serial device (i.e. a scanner) to the Skorpio X3, use the Port control to select a virtual COM port to use for the connection. Tap Find Me if you want to make the Skorpio X3 discoverable to other Bluetooth devices for 60 seconds, allowing them to set up a connection. 5. By default, Bluetooth is turned off. If you turn it on, and then turn off your device, Bluetooth also turns off. When you turn on your device again, Bluetooth turns on automatically. NOTE 84 USE AND FUNCTIONING 4 on are updates available 4.8 DATALOGIC FIRMWARE UTILITY Datalogic devices are equipped with a field upgradeable firmware mechanism. Firmware the Datalogic Mobile website
(http://www.adc.datalogic.com/). After you have downloaded the desired update, there are several ways you can update the firmware on your device. Use Wavelink Avalanche if you have multiple Datalogic mobile devices to update. Refer to the Product CD included with your device for more information. If Wavelink Avalanche is not available or you have only a few Datalogic Mobile devices to update, use the Datalogic Firmware Utility (DFU), described below, to install or update the firmware using an ActiveSync connection. DFU can also be used to restore the firmware onto a device that has become corrupted (see par. 4.8.4). The following sections provide procedures for the retrieval and installation of the most current firmware image onto a Datalogic device. 4.8.1 Retrieving a Firmware Image Update The following instructions use Internet Explorer to retrieve the most current firmware image. 1. Launch Internet Explorer on your PC and navigate to the Datalogic Mobile website. Navigate to the Downloads section of the website. Select the file you want to download, then click Save to begin copying the files to your local machine (or local network location). 2. 3. 85 4 1 SKORPIO X3 Installing DFU on the Host PC 4.8.2 Datalogic Firmware Utility (DFU) provides administrators with a field upgrade mechanism. You must have Microsoft ActiveSync (for Windows XP devices) or Windows Mobile Device Center (for Windows 7 and Vista devices) already loaded and running on the host PC to use DFU. Refer to par. 4.7.1 for more information about Windows Mobile Device Center. Prior to installing, you must remove any previous versions of DFU installed on the host PC. NOTE To install the Datalogic Firmware Utility, complete the following steps on the PC:
1. Insert the CD ROM shipped with your device into the PC and click on the link to install Datalogic Firmware Utility. OR Go to the Datalogic Mobile website and download the most current version of the Datalogic Firmware Utility. Unzip the file, then double-click to run DFU_Setup.exe. Click OK to continue once you have removed previous versions of DFU. The Welcome to DFU Setup Program screen opens. Please exit all Windows applications before running this installer. Click Next to continue the Setup. Follow the onscreen instructions to complete the installation. 2. 3. 86 USE AND FUNCTIONING 4 4.8.3 Updating the Firmware After copying the firmware image to the host PC (see par. 4.10.1) and installing DFU
(see par. 4.8.2), you can upgrade the firmware on your Datalogic device. The following steps require that you have already established an ActiveSync or Windows Mobile Device Center connection between the host computer and the Datalogic device. NOTE Go to Start > Programs > DFU > Datalogic Firmware Utility. Verify that ActiveSync is selected by clicking Communications > ActiveSync. Click browse (...) and navigate to the location where you saved the firmware file for your terminal. 1. 2. 3. Select the current *.img file and click Open. Click Update. DFU will compare the selected firmware image with the firmware already loaded on the device; if the images are different, DFU will proceed to update the firmware image on your device. After the firmware of your device has been updated, DFU will automatically perform a warm reset of the device. 87 4. 5. 6. 7. 4 1 SKORPIO X3 4.8.4 Repair Mode If the firmware image on your device becomes corrupted, the device will beep twice and show a blank screen when powered on. To reinstall the firmware, complete the following steps:
1. 2. On the PC, click Start > Programs > DFU > Datalogic Firmware Utility. From the Communications menu, select WMDC ActiveSync. 3. 4. 5. 6. 7. Click browse (...) and navigate to the file location. Select the current *.img file and click Open. Verify that the device is turned on. Insert the device into a powered dock connected to the host computer. Click Update. DFU will restore the firmware on your device. 88 USE AND FUNCTIONING 4 8. NOTE Please be patient and do not remove the device from the Dock during this procedure. The firmware image of the device can take as long as:
12 minutes to download using a USB connection. 22 minutes to download using a serial connection with 115K baud rate. 130 minutes to download using a serial connection with 19.2K baud rate. After the firmware has been restored, your device will automatically reset. 89 4 1 SKORPIO X3 4.9 DATALOGIC CONFIGURATION UTILITY Datalogic Configuration Utility (DCU) is a Datalogic Windows-based utility tool allowing the uploading, modifying and downloading of a Datalogic brand Windows CE device. Configuration settings include Scanner, Control Panel, and Datalogic Desktop Utility (DDU). The DCU installer is available on the product CD which came with your device or from the Datalogic Mobile web page:
(http://www.adc.datalogic.com/). DCU functions in both direct (with an ActiveSync connection) and indirect (with Wavelink Avalanche) modes. In direct mode, connect a device through ActiveSync and then click on the Get from Device icon to receive the devices current configuration. Once loaded, the Terminal Configuration tree (on the left side of the window) is used to navigate the devices configuration. The right side of the window is a work area where the values of different parameters may be set for each branch of the configuration tree. Click on the parameter group branch to open it and visualize the parameters you wish to modify. After altering the devices configuration, the new configuration can be sent to the terminal by clicking on the Send to Device icon. Refer to the Wavelink Avalanche documentation on your Datalogic CD for a description of indirect mode for DCU, which will allow you to update the configuration of multiple devices simultaneously over Wi-Fi. 90 USE AND FUNCTIONING 4 4.10 DATALOGIC DESKTOP UTILITY Datalogic Desktop Utility (DDU) allows Datalogic Windows administrators to configure Windows CE and Mobile devices to control individual user access. This includes:
Prevent users from changing your device OS settings. Use Application Selector to replace desktop with a selection of authorized applications. Internet Explorer access restriction, configuration and customized error recovery mechanisms. Create quick access hot keys and configure trigger actions. To open the DDU for the first time, tap Start > Settings > Control Panel > or Start >
Programs > Device tools > and then double tap the Datalogic Desktop Utility icon. You can also get into DDU by pressing Alt + 6. You can use DL Buttons to associate specific keys, such as <F1>-<F10>, with specific applications (see par. 4.6.2). The Alt + 6 is the button initially assigned to Datalogic Desktop Utility. If you wish to assign this key to a different function, you must first select an unassigned Button and assign it to the function Datalogic Desktop Utility. You can then go back and reassign the Button to something else. 91 4 1 SKORPIO X3 4.10.1 Administrative Options (Admin tab) When you open the DDU control panel, the Admin tab appears. COMMAND DESCRIPTION Enter Password Enable Datalogic Desktop Select/tap this checkbox to activate the DDU functions such as Windows Access Restrictions and Application Selector. Enter a password in the text box. This allows the user to specify a password when this utility is launched. By default the password is 1234. A password can consist of all standard keyboard characters. Carefully re-enter the password in the second text box. Select/tap Set Password to enable the password. To change or remove the password, enter a new value, re-enter the new value, and select/tap Set Password. Select/tap Set Defaults to reset the default values of all the functions on all the tabs. After you select this option, you will receive a prompt to verify this selection. Re-Enter Password Set Password Set Defaults 92 USE AND FUNCTIONING 4 Setting a Password To set a password:
1. Enter a password in the field. This allows the user to specify a password when this utility is launched. By default the password is 1234. Be sure to record the Password for future reference. NOTE 2. Re-enter the password in the second field. 3. Select/tap Set Password to enable the password. 4. Select/tap OK to close the Set Password Confirmation dialog. You must select/tap Set Password prior to exiting DDU in order to store and activate your new password. It is not necessary to select Enable Datalogic Desktop. NOTE If you select/tap Set Defaults it will remove all custom settings and restore all the factory default settings, except a previously set password. CAUTION Changing a Password To change to a new password:
1. Enter a new value in the Enter Password field. 2. Re-enter the new value in the Re-enter Password field. 3. Select/tap Set Password. 93 4 1 SKORPIO X3 Removing a Password To remove a password:
1. Enter blanks in both Password fields. 2. Select/tap Set Password. Password Request Dialog Box Once the password is set, the next time you open the Datalogic Desktop Utility, the DDU Password dialog box opens. This dialog box will only open if a password was defined. 1. Type in your password using either the keypad on the unit, or using the stylus on the soft input panel (SIP). If you enter an incorrect password, the system will prompt you to input the cor-
rect one. 2. Select/tap OK to verify the password. Or tap X to cancel. 94 USE AND FUNCTIONING 4 4.10.2 WebAppLock Options (WebAppLoc tab) Tap the WebAppLoc tab to access the WebAppLock Configuration options. Error Page Redirection Use the Error Redirection option to provide customized recovery from common errors. When an error occurs, the browser can redirect access to a specified error page with instructions on how to recover from the problem. WebAppLock Configuration Tab Error Redirection options WebAppLock Window Features Error Type The Error Type pull-down list displays available Error Types:
(400) Invalid Syntax, (403) Request Forbidden, (404) Object Not Found, (406) No Response Format, (410) Page Doesn't Exist, (500) Internal Server Error, (501) Server Can't Do That, Generic Error, Network Disconnected Error Page Edit this textbox to associate a website or html file with the specified error. 95 4 Other options 1 SKORPIO X3 Full Screen Set the web browser in full screen mode. Status Icon Enable or disable the status icons view (see par. 4.10.3). Trap Keys When checked, all key presses will be trapped by WebAppLock to prevent the user from accessing other parts of the system. DL Buttons keys will not work in WebAppLock when this box is checked. When unchecked, all system key presses, including DL Buttons keys, will work. 96 USE AND FUNCTIONING 4 4.10.3 Status Icons Options (Status Tab) Tap the Status tab to access the Status Icons option. You can configure the view of some status icons that are used in WebAppLock and in Application Selector to display the status of: wi-fi radio, battery and GSM. Status Icons Options Set Status Icon Defaults Restores the status icons factory settings. Icon Size Icon Location Sets the status icons size. Selects the preferred location for each status icon. 97 4 1 SKORPIO X3 4.10.4 Windows Controls Select/tap the Win (Windows Controls) tab to access the Windows Controls option. Use Windows controls to allow or restrict access to Windows system functions. You can disable normal Windows functions such as the taskbar, leaving nothing but a blank workspace. This allows applications to be run on the full screen and prevents users from accidental or unauthorized use of the taskbar, Internet Explorer, and any other resident applications. 98 USE AND FUNCTIONING WINDOWS CONTROLS Show Taskbar Taskbar Enabled Start Menu Enabled AutoSIP Enabled Scroll Bars Enabled CE Windows Enabled Windows Wifi Error Dialog Desktop 4 Select/tap Show Taskbar to specify whether the Taskbar is displayed or not Select/tap Taskbar Enabled to specify whether the taskbar is accessible. This option is only available when the Show Taskbar is checked. Select/tap Start Menu Enabled to specify whether the Start Menu is displayed or not. This option works only when Task Bar Enabled is checked. Enables the AutoSIP Windows feature. This control only take effects in WebAppLock. When checked, displays horizontal and vertical scroll bars to help view large web pages which do not fit the screen. When unckecked, those scrolls will not be present. Windows CE Desktop Enabled to specify whether the desktop icons are accessible or not This control only takes effects in WebAppLock and Internet Explorer. When checked, the device will display a warning dialog when the WiFi connected device moves out of range of an access point and the user attempts to navigate to a web page. This dialog box allows the user to reconfigure the wifi on the device. When unchecked, that dialog box will not appear and the Network Disconnected error page redirection is used to prevent users from reconfiguring the wifi on the device. Tap the WebAppLock Configuration Tab to configure the Network Disconnected error page redirection (see par 4.10.2). NOTE Settings require device rebooted 99 4 1 SKORPIO X3 4.10.5 AppSelector Options (AppSelect tab) Tap the Application Selector (AppSelect Tab) to edit, add, or delete applications for the application selector. Application Selector Options Enable Application Selector Select/tap Enable Application Selector to enable/disable the application selector. When this is enabled, the desktop and allows only authorized use of applications. This is a list of applications that the user may access. the Application Selector replaces Authorized Applications Application Selector Commands New Select/tap New to create a new application entry. Select/tap Edit to edit the selected entry. Select/tap Del to delete the selected entry. Select/tap Up/Down to move an entry up or down in the ListView Edit Del Up/Down 100 USE AND FUNCTIONING 4 Add Applications The Add Application dialog opens when you tap either New or Edit. From the Add Application dialog the administrator can configure and/or add/change an a new application entry in the list. Applications with the Run Application at Startup option enabled will start automatically when the Application Selector starts up. COMMAND Application Title Executable Browse Arguments Icon File Browse DESCRIPTION Type the name of the application in this textbox in the way you wish it to appear for the user. Displays the path for the executable file which you want to run. to browse for the desired executable file. Select/tap The results of this search are placed in the Executable textbox. Type any command line arguments to be used when an application is executed. Displays the path/link to the desired icon file. to browse for the desired icon file. The Select/tap results of this search are placed in the Icon File textbox. 101 4 COMMAND DESCRIPTION 1 SKORPIO X3 Run Application at Startup Delay OK X Select/tap this box to force this application to auto start when the Application Selector starts up. Applications will be started in the order listed in the authorized application list. Enter a delay duration in seconds in the combo box. This option delays auto start of application(s) to allow drivers to load prior to starting applications. Select/tap OK to add/save changes. Select/tap X to cancel the creation of this entry. 102 USE AND FUNCTIONING 4 4.11 APPSELECTOR (APPLICATION SELECTOR) The Application Selector is an application that allows a device to run in kiosk mode. The administrator can choose for the user to have access to the desktop or not. The Application Selector can replace the desktop and limit the user to the specified list of applications. By default, the Application Selector comes with the WebAppLock preset. Figure 9 - Application Selector The administrator can customize this list as shown in chapter 4.10.5. To run an application, tap on its name. To exit from Application Selector, press ALT + 6, uncheck the Enable Application Selector check box on the AppSelect Tab and press OK to exit DDU. 103 4 1 SKORPIO X3 4.12 WEBAPPLOCK (LOCKED WEB BROWSER) WebAppLock is a web browser that creates a restricted internet usage environment. It prevents the user from exiting the web application/ website set by the administrator. Zoom In and Zoom Out will only affect screen text and not bitmaps. NOTE If the taskbar has been disabled, the Settings menu is not displayed. However, the user can still navigate within the web application by using the following keyboard shortcuts:
Home Refresh Cancel Exit Ctrl + 7 Ctrl + 8 Ctrl + 9 Ctrl + 0 104 USE AND FUNCTIONING 4
/E optional parameter which allows for Exit without entering a password For firmware versions 1.60 and greater, the following command line arguments are supported:
-
- @URL optional parameter which specifies a URL to use as a home page.
-
-
/C optional parameter which disables the ctrl keys (including the one to exit).
/W optional parameter which allows for a performance boost. When present, only WIFI error redirection will function.
-
-
-
-
-
/T0 optional parameter which sets the initial text size to 0 on a scale of 0 to 4.
(Default when not set is 1). The value can later be adjusted when not in full screen mode using the Font Size + and Font Size menu options.
/T1 optional parameter which sets the initial text size to 1 on a scale of 0 to 4.
(Currently does nothing) The value can later be adjusted when not in full screen mode using the Font Size + and Font Size menu options.
/T2 optional parameter which sets the initial text size to 2 on a scale of 0 to 4.
(Default when not set is 1). The value can later be adjusted when not in full screen mode using the Font Size + and Font Size menu options.
/T3 optional parameter which sets the initial text size to 3 on a scale of 0 to 4.
(Default when not set is 1). The value can later be adjusted when not in full screen mode using the Font Size + and Font Size menu options.
/T4 optional parameter which sets the initial text size to 4 on a scale of 0 to 4.
(Default when not set is 1). The value can later be adjusted when not in full screen mode using the Font Size + and Font Size menu options. 105 4 1 SKORPIO X3 4.12.1 WebApplock Special Meta-tags General Meta-Tag Comments A meta-tag is a special HTML tag that is used to store information about a Web page but is not displayed in a Web browser. For example, meta tags provide information such as what program was used to create the page, a description of the page, and keywords that are relevant to the page. As per the HTML specification, all meta-tags must be contained within a <head>
</head> tag set. Also, the head tag set must be complete within the first 15K of the web page. The Datalogic WebAppLock defines some special meta-tags that allows the web application to interact with the device:
In particular, the special meta-tags allow to:
-
-
-
enable/disable the scan engine triggers enable/disable specific codes groups in the scan engine easily handle the keys pressing The trigger, decoding and DL_Keys meta tags stay in scope beyond the page they are defined in until a later page changes them. Trigger Meta-tag DL_Triggers Enable or Disable all triggers If the page contains this tag, the triggers are enable or disable depending on the content= value. Example:
<meta http-equiv="DL_Triggers" content="Disable">
106 USE AND FUNCTIONING 4 CGI Error Meta-tag DL_CGIError Overrides DDU error page redirection and replaces it with a reference to a CGI script which is passed the error number as an argument. Content A CGI URL with variable name argument in place. The name of both the CGI function and the error number variable is completely configurable by the user. Do not put an = at end of the URL. HTTP header error numbers are returned if they are greater than or equal to 300. For example, 404 is returned if object is not found on the server. In addition the following WebAppLock specific error numbers are returned:
Error Number Error Condition 1000 2000 3000 4000 5000 6000 WiFi is disconnected Failed to open internet connection with WiFi Failed to connect to server Failed to open page on server Failed to send query to page on server Failed to receive query from page on server Failed to find file on device 7000 Warning: Error redirection from the WebAppLock tab in DDU will be ignored if a page has this meta-tag defined. Example:
<meta http-equiv=DL_CGIError content=http://www.SOMEWHERE.org/cgi-
bin/errorpage.plx?errornum">
In the event of a 404 error (object not found on the server), WebAppLock will navigate to the following URL:
http://www.SOMEWHERE.org/cgi-bin/errorpage.plx?errornum=404 107 4 1 SKORPIO X3 GetSerialNumber Meta-tag DL_GetSerialNumber Obtains the device serial number and sends it as an argument to a customers javascript function. Content name of function to pass serial number to. Example:
<meta http-equiv="DL_GetSerialNumber" content="Javascript:CustomerFunction">
When this page is loaded the specified javascript function with the device serial number as the only argument (such as CustomerFunction(D10P00031). OnPowerResume Meta-tag DL_OnPowerResume Invokes the specified javascript function upon power resumption on the device. Content The URL to the JavaScript function to be called upon resume. Example:
<meta http-equiv="DL_OnPowerResume" content="Javascript:PowerUp()">
<meta http-equiv="DL_Reboot" content=" OnPageLoad ">
Reboot Warm boot device Meta-tag DL_Reboot Warm boot device. Content OnPageLoad Warm boot immediately upon page load. In future might have more content options. Example:
Exit Meta-tag DL_Exit Exit WebAppLock. Content OnPageLoad Exit immediately upon page load. In future might have more content options. Example:
<meta http-equiv="DL_ Exit " content=" OnPageLoad ">
108 USE AND FUNCTIONING 4 Decoding meta-tags:
Each decoding meta-tag has a possible content of Enable or Disable. The settings are valid for the entire page (enable/disable each symbology). DL_Code_39 DL_Code_128 DL_Code_I25 DL_Code_S25 DL_Code_M25 DL_Code_CODABAR DL_Code_93 DL_Code_UPCA DL_Code_UPCE DL_Code_EAN13 DL_Code_EAN8 DL_Code_MSI DL_Code_MSR DL_Code_GS1_14 DL_Code_GS1_LIMIT DL_Code_GS1_EXP DL_Code_16K DL_Code_49 DL_Code_PDF417 DL_Code_DATAMATRIX DL_Code_MAXICODE DL_Code_TRIOPTIC DL_Code_PHARMA39 DL_Code_RFID DL_Code_MICROPDF417 DL_Code_COMPOSITE DL_Code_QRCODE DL_Code_AZTEC DL_Code_POSTAL Some examples:
<meta http-equiv="DL_Code_39" content="Disable">
<meta http-equiv="DL_Code_I25" content="Enable">
109 4 1 SKORPIO X3
<meta http-equiv="DL_Key_13" content="Javascript:CheckEnter();">
Key press Metatags The key press meta-tags can be used to call JavaScript functions. They have the name structure: DL_Key_xxx where xxx is the VKey code. Example:
If one of this tag is present, the pressure of this key is handled at level of page, independently from the currently focused item. Refer to the Microsoft website to find the list of all the possible Vkey codes:
http://msdn.microsoft.com/en-us/library/bb431750.aspx http://msdn.microsoft.com/en-us/library/aa243025(VS.60).aspx The DL_Keys meta tag can exist past the page they are defined in, hence the existence of the DL_Clear meta-tag, that allows to clear all the settings and statuses. NOTE Scanning Metatags DL_Scan Captures scan results and sends barcode/tag value to a javascript function on the web page. If the content= value is a javascript function the device will be taken out of keyboard wedge mode and start listening for scan events. A scanned barcode/tag result will be used as an argument to that javascript function which is then invoked. If the content= value is Wedge then the device will stop listening for scanned event and enter keyboard wedge mode. If the content= value is Disable then the device will stop listening for scanned events but not enter keyboard wedge mode. Example:
<meta http-equiv=DL_Scan content=Javascript:ValidateInput()>
110 USE AND FUNCTIONING 4 4.13 AUTOSTART The AutoStart program provides three functions:
- Allows you to create a list of applications (with optional command line arguments) to run automatically prior to loading CAB files.
- Automatically reinstalls specified CAB files when the Skorpio X3 10 is cold booted.
- Allows you to create a list of applications (with optional command line arguments) to run automatically after loading CAB files. AutoStart launches each time the Skorpio X3 is rebooted executing each line with the specified command line arguments. It will take into account any AutoStart options at the beginning of the line. Upon a Cold Boot, AutoStart installs all the CAB files located in the \FlashDisk\CAB folder. If the CAB folder does not exist, no CAB files will be installed. AutoStart will then run the Autostart.ini from the \FlashDisk directory, executing each line with the specified command line arguments. It will take into account any AutoStart options at the beginning of the line. 4.13.1 Copy any CAB files you want to install into the \FlashDisk\CAB folder. These CAB files will then be automatically in-stalled in alphabetical order the next time you start the device. Installing CAB files 111 4 4.13.2 How AutoStart Uses Wceload 1 SKORPIO X3 If you intend to create highly interactive installers, you should either install the CABs manually or review the section on Interactive CAB Install in this chapter.. NOTE In certain environments, CAB files will be deleted after execution. To prevent the CAB file from being deleted, write protect the file before copying the file onto the device. CAUTION CAB files are installed by AutoStart using the Wceload.exe application. The following table shows available command line option:
-
- Optio n
- Description
/noui Specifies that you will not be prompted for any input during the installation. If the CAB file is signed, any responses will automatically be answered Yes. If the CAB is unsigned, then any responses will be answered No.
/silent Suppresses dialog boxes during the installation. Please refer to the Microsoft documentation on your device for further details on Wceload.exe. Sample:
\Windows\Wceload.exe /delete 1 /noui /silent
\FlashDisk\CAB\<cab file>
112 USE AND FUNCTIONING 4 Interactive CAB Install 4.13.3 If the CAB installer requires user interaction that must be performed during the AutoStart CAB installation process, you can specify a special file name to disable the silent mode installation. If this mode is specified, the CAB file will be installed with Wceload without any command line arguments specified. An example of what AutoStart would execute is:
\Windows\Wceload.exe <cab file>
To force this mode of installation via AutoStart, rename the CAB file to include a _ character before the .cab extension of the file. Example:
File.cab should be renamed File_.cab to force AutoStart to not install the CAB in silent mode. This specially-named CAB file should be placed in the AutoStart folder with other CAB files intended for installation on the next reboot. 4.13.4 Autostart.ini A file named PreAuto.ini can also be created in addition to or instead of Autostart.ini. PreAuto.ini is executed before CAB files in the \FlashDisk\Cab folder are installed. Autostart.ini is executed after CAB files in the \FlashDisk\Cab folder are installed. The format for the PreAuto.ini is identical to that of Autostart.ini.. NOTE Autostart.ini is a text file that AutoStart will run upon startup of the Skorpio X3, and after any CAB files are installed. This file should be placed in the \FlashDisk folder. AutoStart will run the Autostart.ini file on each reboot of the device. Line Formatting Each line of the Autostart.ini can consist of Autostart options, an executable, and any command line arguments.
< Autostart option(s)> <full path to executable>
<command line arguments>
Sample:
- \windows\pword.exe \file.doc 113 4 1 SKORPIO X3 The following table breaks down the sample Autostart.ini line:
Autostart option(s) Full path to executable Command line arguments
\file.doc
\windows\pword.exe
-
Spaces must be placed between each component of the line in the Autostart.ini. If the executable path is in a folder that contains spaces in the name, quotes are required to distinguish what the actual executable name is. The following is an example of this:
\Program Files\ScannerApp.exe /run
(valid)
\Program Files\ScannerApp.exe /run The second line is an invalid line because there is no way to distinguish the executable from the argument.
(invalid) 114 USE AND FUNCTIONING 4 AutoStart Options The table below shows options you can use when writing a line in the Autostart.ini file. Description Character Comments Comment: This line will not be executed.
# OR (space) This may only be used as the first character of the line. If the comment option is specified in the options elsewhere, is ignored. it Do not wait on line completion:
This will cause to execute and immediately move onto the next line. line the
-
Request Query:
user confirmation when running the executable.
?
Execute only on Cold Reset
!
until the This will halt parsing Autostart.ini the confirmation is answered. This is intended for debugging the Autostart.ini file. Execute only after a warm boot %
Cold Reset Only: This will cause the line to execute only after a Cold Reset. An empty line will be treated as a comment line. NOTE 115 4 1 SKORPIO X3 Combining Options Autostart options can be combined together as shown in the following sample:
?- \Windows\Pword.exe This line would:
Request confirmation before executing the line. The next line would not be processed before the confirmation is answered. Run the next line without waiting on the current line to complete execution. Query Option The query option is intended for use when debugging the autostart.ini. When a line with this option is executed, the following dialog will appear with the specified executable and command line arguments. The populated fields shown in the AutoStart Execute Query are described the next table:
Field Description Line Number This is the line number in the script being executed. The executable as parsed by AutoStart. The argument as parsed by AutoStart. Exe Args 116 USE AND FUNCTIONING 4 NOTE The fields may be broken up into multiple lines (as shown in the example) due to limited space in the dialog. AutoStart Query Options Parentheses are used to surround the given field and make it very clear what the value of the field is. The following table describes the results of each choice:
Button Action Yes No Cancel The current line will execute. The current line will not execute. AutoStart will continue parsing the Autostart.ini. The current discontinue parsing the Autostart.ini. line will not execute and AutoStart will 117 4 1 SKORPIO X3 Autostart.ini Samples The next table is a collection of sample Autostart.ini lines:
Line Description
\windows\wceload.exe \My
?
Documents\Sample.cab
\Program Files\App.exe will the confirm execution This of
\Windows\wceload.exe with specified argument
\My Documents\Sample.cab
(invalid) This will execute argument Files\App.exe.
\Program with the
\Program Files\App.exe /run
(invalid) This will execute argument Files\App.exe /run.
\Program with the
\Program Files\App.exe /run
?- \Windows\Pword.exe
!\Program Files\App.exe /run will the confirm execute program
\Program This will Files\App.exe with the argument /run. This of
\Windows\Pword.exe. If the execution is confirmed, AutoStart will immediately process the next line. This will
\Program Files\App.exe with the argument /run ONLY after a Cold Reset. execution program execute the the 118 TECHNICAL FEATURES 5 TECHNICAL FEATURES 5.1 TECHNICAL DATA PHYSICAL CHARACTERISTICS 5 DIMENSIONS (LxWxH) WEIGHT AUDIO LEDS DISPLAY KEYBOARD Handheld: 193 x 76 x 42 mm, 61 x 35 at keyboard / 7.6 x 3 x 1.6 in, 2.4 x 1.4 in Pistol Grip: 193 x 76 x 156 mm / 7.6 x 3 x 6.2 in Handheld: 392 g / 13.8 oz., including standard battery Pistol Grip: 482 g / 17 oz., including standard battery Headset (not provided; it requires a HandyLink adapter) Main (rear) speaker Receiver (front) Speaker Three LEDs Decoding Status/ Keyboard Status/
Charging Status Reflective TFT daylight readable colour display, 320 x 240 pixels (3.2 diagonal), 65K colours, backlit, touch screen numeric 28keys, alpha-numeric 38keys; Dimmable backlight full-alphanumeric 50keys, OPERATING TEMPERATURE*
STORAGE TEMPERATURE
-10 +50C (14 to 122F)
-20 +70C (-4 to 158F) HUMIDITY**
95% non condensing for temperatures < 40 C DROP RESISTANCE***
Withstands drops from 1.5 m (5 ft) onto concrete ENVIROMENTAL SEALING IP64 standard for water and dust resistance ESD PROTECTION 4 KV contact discharge, 8 KV air discharge
* Skorpio X3 (including spare battery) should be charged at an ambient temperature between 0 - 35 C to achieve the maximum charging rate. Never charge the main device or spare batteries in a closed space (cabinet) where excessive heat can build up. Close to the limits of the working temperature, some display and/or battery performance degradation may occur.
** Multiple rapid humidity and/or temperature variations may cause condensing.
*** Multiple drops can permanently damage the device. 119 5 SYSTEM 1 SKORPIO X3 OPERATING SYSTEM Microsoft Windows CE 6.0 MICROPROCESSOR XScale PXA310 @ 624 MHz SYSTEM RAM MEMORY 512 MB SYSTEM FLASH MEMORY 256 MB POWER SUPPLY*
COMMUNICATIONS INTERFACES Removable battery pack with rechargeable Li-ion batteries; 3.7 V 3000/5200 mAh (11.10/19.24 Watt hours); micro USB power adapter for direct charge and power supply HandyLink connector: Integrated RS232 up to 115.2 Kbps, USB 1.1 Client, USB 1.1 Host LOCAL AREA NETWORK (LAN) PERSONAL AREA NETWORK
(PAN) Summit IEEE 802.11a/b/g Frequency range: Country dependent, typically 2.4 and 5.2 GHz CCX v4 Security Bluetooth Wireless Technology IEEE 802.15 Class 2 with EDR
* Use only DL approved battery packspower adapters. 120 5 TECHNICAL FEATURES READING OPTIONS LASER CHARACTERISTICS SCANNING RATE 104 12 scan/sec OPTICAL RESOLUTION 0.10 mm / 4 mils DEPTH OF FIELD See reading diagrams (5.2) SKEW ANGLE PITCH ANGLE 50 65 LASER READER VLD, wavelength 630~670 nm BAR CODES LASER CLASSIFICATION IMAGER CHARACTERISTICS SCANNING RATE OPTICAL RESOLUTION AIMING LASER BAR CODES LASER CLASSIFICATION LED CLASSIFICATION GS1 DataBar family, EAN/UPC, Code 39, 2/5 Codes, MSI, Codabar, Code 128, GS1-128, Code 93, Code 11, Pharmacode 39, Trioptic VLD - Class 2 IEC/EN 60825-1. Compliant with 21 CFR 1040-10 except for deviations pursuant to laser notice n. 50, dated June 24, 2007 60 frames/sec maximum Linear codes 4 mils; 2D codes 5 mils VLD, wavelength 640~660 nm UPC/EAN, 2 of 5 family, Code 39, Codabar, Code 128, GS1-128, Code 93, MSI, PDF417, MicroPDF417, Data Matrix, QR Code, GS1 DataBar family, Aztec Code, MaxiCode, Pharmacode 39, Trioptic, Composite, US POSTNET, US PLANET, USPS Intelligent Mail, Royal Mail RM4SCC, UPU FICS, Australian Post, KIX Code, Japanese Post VLD - Class 2 IEC/EN 60825-1. Compliant with 21 CFR 1040-10 except for deviations pursuant to laser notice n. 50, dated June 24, 2007 Exempt risk group IEC/EN 62471 ILLUMINATION SYSTEM LEDs 600~630 nm 121 5 1 SKORPIO X3 5.2 READING DIAGRAMS Skorpio X3 SE950-DL Guaranteed Reading Diagram measured from the device nose (10 skew angle) 0,33 mm
(13 mils) 0,25 mm
(10 mils) 0,50 mm
(20 mils) 1,4 mm
(55 mils) 0,38 mm
(15 mils) 1,00 mm
(40 mils) 0,19 mm
(7,5 mils) 0,13 mm
(5 mils) 0 100 200 300 400 500 600 700 800 900 mm 400 300 200 100 0 100 200 300 400 mm 122 TECHNICAL FEATURES 5 Skorpio X3 SE4500-DL Guaranteed Reading Diagram Measured from the device nose (10 skew angle) 5.0 mil PDF417 5.0 mil Code 39 15 mil PDF417 200 150 100 50 0 50 100 150 200 mm 10 mil PDF417 6.67 mil PDF417 7.5 mil Code 39 13 mil UPC-A 20 mil Code 39 0 50 100 150 200 250 300 350 400 450 500 mm 123 6 6 TEST CODES 0.25 mm (10 mils) Code 39 2/5 Interleaved Code 128 EAN 13 EAN 8 124 High Density Codes
!17162H!
17162
"8Ndu 0123456784 testw test 80%
x(0B2DE5*KKKKLM(
80%
(6450*TRMN(
1 SKORPIO X3 Medium Density Codes
!17162H!
17162 0123456784
"8Ndu testw x(0B2DE5*KKKKLM(
100%
test 100%
(6450*TRMN(
TEST CODES 0.38 mm (15 mils) Code 39 Interleaved 2/5 Code 128 EAN 13 EAN 8 6 125 6 0.50 mm (20 mils) Low Density Codes 1 SKORPIO X3 Code 39 !17162H!
17162 test 120%
0123456784
"8Ndu testw x(0B2DE5*KKKKLM(
(6450*TRMN(
120%
Interleaved 2/5 Code 128 EAN 13 EAN 8 126 TEST CODES Datamatrix ECC200 Inverse Datamatrix ECC200 2D Codes Example Example 6 127 6 DECODING PARAMETERS This section contains information about programmable settings for the Skorpio X3. Use the Skorpio X3 Management Utility (FMU), the Scanner Control Panel applet, the Imaging Control Panel applets to program the Skorpio X3. It provides the following information:
Code Parameter is the human name for the programming option. I.D. # is the decoder name for the programming option. For example, to set a Code 39 minimum label length, use I.D. 0120. Programming I.D. numbers given in this appendix can be used with all programming methods. Note that the Programming I.D. numbers are provided in hexadecimal notation. Type tells what kind of setting to use for each code parameter. On/Off is a toggle. 1 turns the parameter on, and 0 turns it off. Acceptable Input gives the settings or range of settings for each code parameter. Defaults indicates how the parameter is set when the predefined default FF39, FF3A, or FF3B is selected. Minimum (FF39) turns every on/off parameter off and sets all minimum and Maximum Label Lengths to the lowest values. Maximum (FF3A) turns every on/off parameter on, sets all Minimum Label Lengths to the lowest values, and sets all Maximum Label Lengths to the highest values. Use this default for troubleshooting; it provides the best settings for reading an unknown code symbology and can identify the symbology of scanned bar codes. Factory (FF3B) is the factory setting installed on the Skorpio X3. This default set will work for most applications. To reset the Skorpio X3 the original defaults, scan the Factory bar code Scanner Type shows, with a checkmark, which modules support the specified parameter. 128 PROGRAMMING CODES WITHOUT PARAMETERS The following table describes the functions of special bar codes that take no parameters:
Code Parameter Defaults Minimum Defaults Maximum Defaults Factory Defaults Registry Exit and Restore Exit and Save Exit and Commit I.D. #
FF39 FF3A Function Turns every On/Off parameter off and sets all minimum and Maximum Label Lengths to the lowest values. Turns every On/Off parameter on and sets all minimum and Maximum Label Lengths to the highest values. This default set is normally used only for troubleshooting. It gives the best chance of reading an unknown bar code symbology and also identifies the symbology of each bar code scanned. FF3B This is the default parameter settings that was installed at the factory. This default set will work for most applications. FF3C FF3D FF3E FF3F This restores all parameter settings to the values that exist in the Registry. This is useful for restoring parameters to a known working set of values which have been saved using code parameter FF3F. Stops a label programming sequence and restores all parameter settings to the values that exist in the Registry. Stops a label programming sequence. The last valid parameter settings are left intact. Stops a label programming sequence and writes all parameter settings into the Registry. This can be used to save a customized set of parameter settings for restoring later via parameter FF3C. 129 6 BAR CODE PARAMETERS The following table lists the standard customer programmable settings for the Skorpio X3:
Codabar Defaults Scanner Type Code Parameter Description I.D.#
Accept. Input i n M x a M y r o t c a F r e s a L r e g a m I D 2 Enter 1 for On and 0 for Off 0300 On or Off Off On On 0301 On or Off Off On Off 0302 On or Off Off Off Off 0303 On or Off Off Off Off 0305 On or Off Off On Off 0306 On or Off Off Off Off 0307 On or Off Off On On 0320 01 - 50 01 01 04 Enables/disables the Codabar symbology. Enables more aggressive decoding algorithms to be used in order to scan hard to read labels. Requires the use of checksum characters to verify a bar code. Instructs the terminal to include the checksum in the label transmission. Instructs the decoder to transmit the decoded start and stop characters of Codabar labels. The start and stop characters will both be translated as A, B, C, or D. Restricts the Codabar decoder to only read labels that conforms to CLSI specifications. Label length must be 14, and the data is split into fields of 1, 4, 5, and 4 characters separated by spaces. Allows wide gaps to appear between characters in a label. Set the minimum label length to be less than or equal to maximum label length. Enable Enable Aggressive Decoding Enable Checksum Send Checksum Send Start/
Stop Convert to CLSI Allow Wide Intercharacter Gaps Minimum Label Length 130 Defaults Scanner Type Code Parameter Description I.D.#
Accept. Input i n M x a M y r o t c a F r e s a L r e g a m I D 2 Maximum Label Length Read Verification User ID This feature specifies the maximum allowable length of a Codabar label. The length includes check and data characters. Maximum Label Length should be greater than or equal to Minimum Label Length. Sets the number of times a label must be read before it is transmitted. Specifies the symbology identifier (if any) that is sent when parameter Send Code ID (Index 0025) is set to 3. ASCII code zero (null) is used to indicate that an identifier is not to be sent for the symbology. 0321 01 - 50 01 50 20 0322 01 - 04 01 02 01 0323 Any single ASCII character
(00 = Off) I I I 131 Code 39 Code Parameter Description I.D.#
Accept. Input 6 Defaults Scanner Type i n M x a M y r o t c a F r e s a L r e g a m I D 2 Enable Enable Aggressive Decoding Enable Checksum Send Checksum Full ASCII Mode Minimum Label Length Maximum Label Length Read Verification User ID Enables/disables the Code 39 symbology. Enables more aggressive decoding algorithms to be used in order to scan hard to read labels. Requires the use of checksum characters to verify a bar code. Instructs the terminal to include the checksum in the label transmission. Supports the entire ASCII character set by replacing various encoded ASCII characters with their corresponding. Set the minimum label length to be less than or equal to maximum label length. This feature specifies the maximum allowable length of a Code 39 label. The length includes check and data characters. Maximum Label Length should be greater than or equal to Minimum Label Length. Sets the number of times a label must be read before it is transmitted. Specifies the symbology identifier (if any) that is sent when parameter Send Code ID (Index 0025) is set to 3. ASCII code zero (null) is used to indicate that an identifier is not to be sent for the symbology. Enter 1 for On and 0 for Off 0100 On or Off Off On On 0101 On or Off Off On Off 0102 On or Off Off Off Off 0103 On or Off Off Off Off 0105 On or Off Off On On 0120 01 - 50 01 01 01 0121 01 - 50 01 50 20 0122 01 - 04 01 02 01 0123 Any single ASCII character
(00 = Off) C C C 132 Pharmacode 39 (Code 32) Code Parameter Description I.D.#
Accept. Input Defaults Scanner Type i n M x a M y r o t c a F r e s a L r e g a m I D 2 Enables/ disables the Pharmacode 39 (Code 32) symbology. Instructs the terminal to include the checksum in the label transmission. Instructs terminals to prefix a Pharmacode 39 label with an A prior to transmission. Specifies the symbology identifier (if any) that is sent by the decoder when parameter Send Code ID
(Index 0025) is set to 3. ASCII code zero (null) is used to indicate that an identifier is not to be sent for the symbology. Enable Send Checksum Send Start/
Stop User ID Enter 1 for On and 0 for Off 0110 On or Off Off On Off 0112 On or Off Off Off Off 0113 On or Off Off On Off 0127 Any single ASCII character
(00 = Off) Y Y Y 133 Trioptic Code Parameter Description I.D.#
Accept. Input 6 Defaults Scanner Type i n M x a M y r o t c a F r e s a L r e g a m I D 2 Enables/disables the Trioptic symbology. Enables more aggressive decoding algorithms to be used in order to scan hard to read labels. Sets the number of times a label must be read before it is transmitted. Specifies the symbology identifier (if any) that is sent when parameter Send Code ID (Index 0025) is set to 3. ASCII code zero (null) is used to indicate that an identifier is not to be sent for the symbology. Enable Enable Aggressive Decoding Read Verification User ID Enter 1 for On and 0 for Off 0108 On or Off Off On Off 0109 On or Off Off On Off 0124 01 - 04 01 02 01 0125 Any single ASCII character
(00 = Off) X X X 134 Code 93 Code Parameter Description I.D.#
Accept. Input Defaults Scanner Type i n M x a M y r o t c a F r e s a L r e g a m I D 2 Enables/disables the Code 93 symbology. Enables more aggressive decoding algorithms to be used in order to scan hard to read labels. Set the minimum label length to be less than or equal to maximum label length. This feature specifies the maximum allowable length of a Code 93 label. The length includes check and data characters. Maximum Label Length should be greater than or equal to Minimum Label Length. Sets the number of times a label must be read before it is transmitted. Specifies the symbology identifier (if any) that is sent when parameter Send Code ID (Index 0025) is set to 3. ASCII code zero
(null) is used to indicate that an identifier is not to be sent for the symbology. Enter 1 for On and 0 for Off 0400 On or Off Off On Off 0401 On or Off Off On Off 0420 01 - 50 01 01 02 0421 01 - 50 01 50 20 0422 01 - 04 01 02 01 0423 Any single ASCII character
(00 = Off) L L L 135 Enable Enable Aggressive Decoding Minimum Label Length Maximum Label Length Read Verification User ID Code 128 Code Parameter Description I.D.#
Accept. Input 6 Defaults Scanner Type i n M x a M y r o t c a F r e s a L r e g a m I D 2 0409 0408 Enables/disables the Code 128 symbology. Enables more aggressive decoding algorithms to be used in order to scan hard to read labels. Enable GS1-128 variant of Code 128 (independent of Code 128). Enable Extended ASCII character conversion. This enables the ability of Code 128 labels to use the FNC4 character to encode Extended ASCII characters, as defined by the latest Code 128 symbology specification. Set the minimum label length to be less than or equal to maximum label length. This feature specifies the maximum allowable length of a Code 128 label. The length includes check and data characters. Maximum Label Length should be greater than or equal to Minimum Label Length. Sets the number of times a label must be read before it is transmitted. 0426 0425 0424 Enter 1 for On and 0 for Off On or Off Off On On On or Off Off On Off 040C On or Off Off On Off 040F On or Off Off On On 01 - 80 01 01 02 01 - 80 01 80 40 01 - 04 01 02 01 Specifies the symbology identifier (if any) that is sent when parameter Send Code ID (Index 0025) is set to 3. ASCII code zero (null) is used to indicate that an identifier is not to be sent for the symbology. 0427 Any single ASCII character
(00 = Off) K K K Enable Enable Aggressive Decoding GS1-128 Enable Code 128 Extended ASCII Enable Minimum Label Length Maximum Label Length Read Verification User ID 136 European Article Numbering-13 (EAN-13) Code Parameter Description I.D.#
Accept. Input Defaults Scanner Type i n M x a M y r o t c a F r e s a L r e g a m I D 2 Enables/disables the EAN-
13 symbology. Enables more aggressive decoding algorithms to be used in order to scan hard to read labels. Includes a check digit in the label which is transmitted. This instructs the decoder to include the system digit in the label transmission. For UPC-E, the system digit is zero. This instructs the decoder to identify ISBN labels and append the check digit (per ISBN guidelines) to the end of the label. This instructs the decoder to identify ISSN labels and append the check digit (per ISSN guidelines) to the end of the label. Requires the use of a 4-
digit price/ weight check digit to verify a bar code. Requires the use of a 5-
digit price/ weight check digit to verify a bar code. Sets the number of times a label must be read before it is transmitted. Specifies the symbology identifier (if any) that is sent by the decoder when parameter Send Code ID
(Index 0025) is set to 3. ASCII code zero (null) is used to indicate that an identifier is not to be sent for the symbology. Enter 1 for On and 0 for Off 0510 On or Off Off On On 0511 On or Off Off On Off 0512 On or Off Off On Off 0513 On or Off Off On On 0514 On or Off Off Off Off 0515 On or Off Off Off Off 0516 On or Off Off Off Off 0517 On or Off Off Off Off 0524 01 - 04 01 02 01 0525 Any single ASCII character
(00 = Off) M M M 137 Enable Enable Aggressive Decoding Send Check Digit Send System Digit Convert EAN-
13 to ISBN Convert EAN-
13 to ISSN Enable EAN 4-
Digit Price/
Weight Check Digit Enable EAN 5-
Digit Price/
Weight Check Digit Read Verification User ID European Article Numbering-8 (EAN-8) Code Parameter Description I.D.#
Accept. Input 6 Defaults Scanner Type i n M x a M y r o t c a F r e s a L r e g a m I D 2 Enables/disables the EAN-
8 symbology. Enables more aggressive decoding algorithms to be used in order to scan hard to read labels. Instructs the terminal to include the check digit in the label transmission. Instructs the decoder to expand EAN-8 labels to their EAN-13 equivalents. Any EAN-13 parameters will then apply to the result. Sets the number of times a label must be read before it is transmitted. Specifies the symbology identifier (if any) that is sent by the decoder when parameter Send Code ID
(Index 0025) is set to 3. ASCII code zero (null) is used to indicate that an identifier is not to be sent for the symbology. Enable Enable Aggressive Decoding Send Check Digit Convert EAN-8 to EAN-13 Read Verification User ID Enter 1 for On and 0 for Off 0518 On or Off Off On On 0519 On or Off Off On Off 051A On or Off Off On Off 051B On or Off Off On Off 0526 01 - 04 01 02 01 0527 Any single ASCII character
(00 = Off) G G G 138 Universal Product Code-A (UPC-A) Code Parameter Description I.D.# Accept. Input Defaults Scanner Type i n M x a M y r o t c a F r e s a L r e g a m I D 2 Enables/disables the UPC-A symbology. Enables more aggressive decoding algorithms to be used in order to scan hard to read labels. Includes check digit in the label which is transmitted. Includes the system digit in the label transmission. For UPC-A, the system digit is always zero. Instructs the decoder to expand UPC-A labels to their EAN-13 equivalents. Any EAN-13 parameters will then apply to the result. Sets the number of times a label must be read before it is transmitted. Specifies the symbology identifier (if any) that is sent when parameter Send Code ID (Index 0025) is set to 3. ASCII code zero (null) is used to indicate that an identifier is not to be sent for the symbology. Enter 1 for On and 0 for Off 0500 On or Off Off On On 0501 On or Off Off On Off 0502 On or Off Off On Off 0503 On or Off Off On On 0504 On or Off Off On Off 0520 01 - 04 01 02 01 0521 Any single ASCII character
(00 = Off) A A A 139 Enable Enable Aggressive Decoding Send Check Digit Send System Digit Convert UPC-A to EAN-13 Read Verification User ID Universal Product Code-E (UPC-E) Code Parameter Description I.D.#
Accept. Input 6 Defaults Scanner Type i n M x a M y r o t c a F r e s a L r e g a m I D 2 Enables/ disables UPC-E labels with a system digit of zero. Enables more aggressive decoding algorithms to be used in order to scan hard to read labels. Includes the check digit in the label which is transmitted. This instructs the decoder to include the system digit in the label transmission. For UPC-E, the system digit is zero. Instructs the decoder to expand UPC-E labels to their UPC-A equivalents. Any UPC-A parameters will then apply to the result. Sets the number of times a label must be read before it is transmitted. Specifies the symbology identifier (if any) that is sent when parameter Send Code ID (Index 0025) is set to 3. ASCII code zero
(null) is used to indicate that an identifier is not to be sent for the symbology. Enable System Digit 0 Enable Aggressive Decoding Send Check Digit Send System Digit Convert UPC-E to UPC-A Read Verification User ID Enter 1 for On and 0 for Off 0508 On or Off Off On On 0509 On or Off Off On Off 050A On or Off Off On Off 050B On or Off Off On Off 050C On or Off Off On Off 0522 01 - 04 01 02 01 0523 Any single ASCII character
(00 = Off) E E E 140 UPC / EAN Extensions Code Parameter Description I.D.#
Accept. Input Defaults Scanner Type i n M x a M y r o t c a F r e s a L r e g a m I D 2 Enable 2-
Digit Extensions Enable 5-
Digit Extensions Require Extensions Read Verification Requires a 2 digit extension
(supplemental label) to be verified for a successful decode of a label. Requires a 5 digit extension
(supplemental label) to be verified for a successful decode of a label. Instructs the decoder to require any enabled UPC/EAN extensions
(supplemental labels) to be with a label in order for a scan to be successful. Sets the number of times an extension (supplemental label) must be read before it is included in the transmission of the base UPC/EAN label. Enter 1 for On and 0 for Off 051C On or Off Off On On 051D On or Off Off On Off 051F On or Off Off On Off 0528 01 - 04 01 02 01 141 Interleaved 2 of 5 Code Parameter Description I.D.#
Accept. Input 6 Defaults Scanner Type i n M x a M y r o t c a F r e s a L r e g a m I D 2 Enable Enable Aggressive Decoding Enable Checksum Send Checksum Enable Case Code Minimum Label Length Maximum Label Length Read Verification Enables/ disables the Interleaved 2 of 5 symbology. Enables more aggressive decoding algorithms to be used in order to scan hard to read labels. Requires the use of checksum characters to verify a bar code. Instructs the terminal to include the checksum in the label transmission. Restricts Interleaved 2 of 5 label lengths to only 6 and 14 data characters. Enabling this parameter overrides the minimum and maximum length values. Set the minimum label length to be less than or equal to maximum label length. This feature specifies the maximum allowable length of an Interleaved 2 of 5 label. The length includes check and data characters. Maximum Label Length should be greater than or equal to Minimum Label Length. Sets the number of times a label must be read before it is transmitted. Enter 1 for On and 0 for Off 0210 On or Off Off On On 0211 On or Off Off On Off 0212 On or Off Off Off Off 0213 On or Off Off Off Off 0214 On or Off Off Off Off 0228 02 - 50 02 02 06 0229 02 - 50 02 50 10 022A 01 - 04 01 02 01 142 Code Parameter Description I.D.#
Accept. Input User ID Specifies the symbology identifier (if any) that is sent by the decoder when parameter Send Code ID
(Index 0025) is set to 3. ASCII code zero (null) is used to indicate that an identifier is not to be sent for the symbology. 022B Any single ASCII character
(00 = Off) Defaults Scanner Type i n M x a M y r o t c a F r e s a L r e g a m I D 2 B B B 143 Standard 2 of 5 Code Parameter Description I.D.#
Accept. Input 6 Defaults Scanner Type i n M x a M y r o t c a F r e s a L r e g a m I D 2 Enable Enable Aggressive Decoding Enable Checksum Send Checksum Use 2-bar Start/Stop Minimum Label Length Maximum Label Length Read Verification User ID Enables/disables the Standard 2 of 5 symbology. Enables more aggressive decoding algorithms to be used in order to scan hard to read labels. Requires the use of checksum characters to verify a bar code. Instructs the terminal to include the checksum in the label transmission. Allows the terminal to recognize labels that are printed using only two bars for start/stop characters. Set the minimum label length to be less than or equal to maximum label length. This feature specifies the maximum allowable length of a Standard 2 of 5 label. The length includes check and data characters. Maximum Label Length should be greater than or equal to Minimum Label Length. Sets the number of times a label must be read before it is transmitted. Specifies the symbology identifier (if any) that is sent when parameter Send Code ID (Index 0025) is set to 3. ASCII code zero (null) is used to indicate that an identifier is not to be sent for the symbology. Enter 1 for On and 0 for Off 0200 On or Off Off On Off 0201 On or Off Off On Off 0202 On or Off Off Off Off 0203 On or Off Off Off Off 0204 On or Off Off Off Off 0220 01 - 50 01 01 06 0221 01 - 50 01 50 10 0222 01 - 04 01 02 01 0223 Any single ASCII character
(00 = Off) F F F 144 Matrix 2 of 5 Code Parameter Description I.D.#
Accept. Input Defaults Scanner Type i n M x a M y r o t c a F r e s a L r e g a m I D 2 Enable Enable Aggressive Decoding Enable Checksum Send Checksum Minimum Label Length Maximum Label Length Read Verification User ID Enables/ disables the Matrix 2 of 5 symbology. Enables more aggressive decoding algorithms to be used in order to scan hard to read labels. Requires the use of checksum characters to verify a bar code. Instructs the terminal to include the checksum in the label transmission. Set the minimum label length to be less than or equal to maximum label length. This feature specifies the maximum allowable length of a Matrix 2 of 5 label. The length includes check and data characters. Maximum Label Length should be greater than or equal to Minimum Label Length. Sets the number of times a label must be read before it is transmitted. Specifies the symbology identifier (if any) that is sent by the decoder when parameter Send Code ID
(Index 0025) is set to 3. ASCII code zero (null) is used to indicate that an identifier is not to be sent for the symbology. Enter 1 for On and 0 for Off 0208 On or Off Off On Off 0209 On or Off Off On Off 020A On or Off Off Off Off 020B On or Off Off Off Off 0224 01 - 50 01 01 06 0225 01 - 50 01 50 10 0226 01 - 04 01 02 01 0227 Any single ASCII character
(00 = Off) D D D 145 MSI Code Parameter Description I.D.#
Accept. Input 6 Defaults Scanner Type i n M x a M y r o t c a F r e s a L r e g a m I D 2 Enable Enable Aggressive Decoding Require 2 Check Digits Send Check Digits 2nd Check Digit Mod 11 Minimum Label Length Maximum Label Length Read Verification User ID Enables/ disables the MSI symbology. Enables more aggressive decoding algorithms to be used in order to scan hard to read labels. An MSI label must contain 2 check digits. This instructs the decoder to include any enabled check digit(s) in the label which is transmitted. Instructs the decoder to interpret any second MSI check digit as modulo 11 instead of modulo 10 Set the minimum label length to be less than or equal to maximum label length. This feature specifies the maximum allowable length of an MSI label. The length includes check and data characters. Maximum Label Length should be greater than or equal to Minimum Label Length. Sets the number of times a label must be read before it is transmitted. Specifies the symbology identifier (if any) that is sent by the decoder when parameter Send Code ID
(Index 0025) is set to 3. ASCII code zero (null) is used to indicate that an identifier is not to be sent for the symbology. Enter 1 for On and 0 for Off 0608 On or Off Off On Off 0609 On or Off Off On Off 060A On or Off Off Off Off 060B On or Off Off On Off 060C On or Off Off Off Off 0624 01 - 15 01 01 04 0625 01 - 15 01 15 10 0626 01 - 04 01 02 01 0627 Any single ASCII character
(00 = Off) H H H 146 GS1 DataBar-14 Code Parameter Description I.D.#
Accept. Input Defaults Scanner Type i n M x a M y r o t c a F r e s a L r e g a m I D 2 Enter 1 for On and 0 for Off On Off 0800 On or Off Enables/ disables the GS1 DataBar -14 symbology. Instructs the decoder to transmit the label data as one or more GS1-128 labels. If GS1 DataBar-14, GS1 DataBar Expanded, GS1 DataBar Limited, or GS1 DataBar Composite symbologies are enabled for GS1-128, then that setting is also enabled for all other GS1 DataBar symbologies. For the 2D Imager, GS1 DataBar Expandeds User ID is used for GS1 DataBar-14. On or Off 0804 Off Off On On Enable Convert to GS1-128 NOTE 147 GS1 DataBar Limited Code Parameter Description I.D.#
Accept. Input 6 Defaults Scanner Type i n M x a M y r o t c a F r e s a L r e g a m I D 2 Enter 1 for On and 0 for Off On On Off 0808 On or Off Enables/disables the GS1 DataBar Limited symbology. Instructs the decoder to transmit the label data as one or more GS1-128 labels. The transmission will use the UCC-128 AIM identifier. If GS1 DataBar-14, GS1 DataBar Expanded, GS1 DataBar Limited, or GS1 DataBar Composite symbologies are enabled for GS1-128, then that setting is also enabled for all other GS1 DataBar symbologies. For the 2D Imager, GS1 DataBar Expandeds User ID is used for GS1 DataBar-14. On or Off 080C Off Off On Enable Convert to GS1-128 NOTE 148 GS1 DataBar Expanded Code Parameter Description I.D.#
Accept. Input Defaults Scanne r Type i n M x a M y r o t c a F r e s a L r e g a m I D 2 Enables/disables the GS1 DataBar Expanded symbology. Instructs the decoder to transmit the label data as one or more GS1-128 labels. Sets the minimum bar code label length to be less than or equal to maximum label length. This feature specifies the maximum allowable length of a label. The length includes check and data characters, if applicable. Maximum Label Length should be greater than or equal to Minimum Label Length. Specifies the symbology identifier (if any) that is sent when parameter Send Code ID (Index 0025) is set to 3. ASCII code zero (null) is used to indicate that an identifier is not to be sent for the symbology. Enable Convert to GS1-128 Minimum Maximum User Code ID Enter 1 for On and 0 for Off 0810 On or Off Off On On 0814 On or Off Off On Off 0824 1 - 74 01 01 01 0825 1 - 74 01 74 74 0827 Any single ASCII character
(00 = Off) R R R 149 PROGRAMMABLE 2D SYMBOLOGIES Aztec Code Code Parameter Description I.D.#
Accept. Input 6 Defaults Scanner Type i n M x a M y r o t c a F r e g a m I D 2 Enter 1 for On and 0 for Off Aztec Code Enable Aztec Code Minimum Aztec Code Maximum Aztec Code User ID Enables/disables the Aztec symbology. Set the minimum bar code label length to be less than or equal to maximum label length. This feature specifies the maximum allowable length of a label. The length includes check and data characters, if applicable. Maximum Label Length should be greater than or equal to Minimum Label Length. Specifies the symbology identifier (if any) that is sent when parameter Send Code ID (Index 0025) is set to 3. ASCII code zero
(null) is used to indicate that an identifier is not to be sent for the symbology. 0B18 On or Off Off On On 0B2C 1-3750 1 1 1 0B2D 1-3750 1 3750 3750 0B2F Any single ASCII character
(00 = Off) d d d 150 Data Matrix Code Parameter Description I.D.#
Accept. Input Defaults Scanner Type i n M x a M y r o t c a F r e g a m I D 2 Enables/ disables the Data Matrix symbology. Set the minimum bar code label length to be less than or equal to maximum label length. This feature specifies the maximum allowable length of a label. The length includes check and data characters, if applicable. Maximum Label Length should be greater than or equal to Minimum Label Length. Specifies the symbology identifier (if any) that is sent when parameter Send Code ID (Index 0025) is set to 3. ASCII code zero
(null) is used to indicate that an identifier is not to be sent for the symbology. Data Matrix Enable Data Matrix Minimum Data Matrix Maximum Data Matrix User ID Enter 1 for On and 0 for Off 0B00 On or Off Off On On 0B20 1-1500 1 1 1 0B21 1-1500 1 1500 1500 0B23 Any single ASCII character
(00 = Off) V V V 151 Composite Code Parameter Description I.D.#
Accept. Input 6 Defaults Scanner Type i n M x a M y r o t c a F r e g a m I D 2 Composite Enable Composite to GS1-128 Composite Minimum Composite Maximum Composite User ID Enables/disables the Composite symbology. Instructs the decoder to transmit the label data as one or more GS1-128 labels. Set the minimum bar code label length to be less than or equal to maximum label length. This feature specifies the maximum allowable length of a label. The length includes check and data characters, if applicable. Maximum Label Length should be greater than or equal to Minimum Label Length. Specifies the symbology identifier (if any) that is sent when parameter Send Code ID (Index 0025) is set to 3. ASCII code zero
(null) is used to indicate that an identifier is not to be sent for the symbology. Enter 1 for On and 0 for Off 0A10 On or Off Off On Off 0A14 On or Off Off Off Off 0A28 1-2435 1 1 1 0A29 1-2435 1 2435 2435 0A2B Any single ASCII character
(00 = Off) b b b NOTE:
For the 2D Imager, GS1 DataBar Expandeds User ID is used for Composite when User ID is selected as the symbology ID. 152 MaxiCode Code Parameter Description I.D.#
Accept. Input Defaults Scanner Type i n M x a M y r o t c a F r e g a m I D 2 Enables/ disables the MaxiCode symbology. Set the minimum bar code label length to be less than or equal to maximum label length. This feature specifies the maximum allowable length of a label. The length includes check and data characters, if applicable. Maximum Label Length should be greater than or equal to Minimum Label Length. Specifies the symbology identifier (if any) that is sent when parameter Send Code ID (Index 0025) is set to 3. ASCII code zero
(null) is used to indicate that an identifier is not to be sent for the symbology. MaxiCode Enable Minimum Label Length MaxiCode Maximum MaxiCode User ID Enter 1 for On and 0 for Off 0B08 On or Off Off On On 0B24 1-138 1 1 1 0B25 1-138 1 138 138 0B27 Any single ASCII character
(00 = Off) W W W 153 PDF417 Code Parameter Description I.D.#
Accept. Input 6 Defaults Scanner Type i n M x a M y r o t c a F r e g a m I D 2 Enables/disables the PDF417 symbology. Set the minimum bar code label length to be less than or equal to maximum label length. This feature specifies the maximum allowable length of a label. The length includes check and data characters, if applicable. Maximum Label Length should be greater than or equal to Minimum Label Length. Specifies the symbology identifier (if any) that is sent when parameter Send Code ID (Index 0025) is set to 3. ASCII code zero
(null) is used to indicate that an identifier is not to be sent for the symbology. PDF417 Enable PDF417 Minimum PDF417 Maximum PDF417 User Code ID Enter 1 for On and 0 for Off 0A00 On or Off Off On On 0A20 1 - 2710 1 1 1 0A21 1 - 2710 1 2710 2710 0A23 Any single ASCII character
(00 = Off) S S S 154 MicroPDF417 Code Parameter Description I.D.#
Accept. Input Defaults Scanner Type i n M x a M y r o t c a F r e g a m I D 2 Enables/disables the MicroPDF417 symbology. Set the minimum bar code label length to be less than or equal to maximum label length. This feature specifies the maximum allowable length of a label. The length includes check and data characters, if applicable. Maximum Label Length should be greater than or equal to Minimum Label Length. Specifies the symbology identifier (if any) that is sent when parameter Send Code ID (Index 0025) is set to 3. ASCII code zero
(null) is used to indicate that an identifier is not to be sent for the symbology. MicroPDF417 Enable MicroPDF417 Minimum MicroPDF417 Maximum MicroPDF417 User Code ID Enter 1 for On and 0 for Off 0A08 On or Off Off On Off 0A24 1 - 366 1 1 1 0A25 1 - 366 1 366 366 0A27 Any single ASCII character
(00 = Off) a a a 155 QR Code Code Parameter Description I.D.#
Accept. Input 6 Defaults Scanner Type i n M x a M y r o t c a F r e g a m I D 2 QR Code Enable QR Code Minimum QR Code Maximum QR Code User ID Enables/disables QR Code symbology. Set the minimum bar code label length to be less than or equal to maximum label length. This feature specifies the maximum allowable length of a label. The length includes check and data characters, if applicable. Maximum Label Length should be greater than or equal to Minimum Label Length. Specifies the symbology identifier (if any) that is sent when parameter Send Code ID (Index 0025) is set to 3. ASCII code zero
(null) is used to indicate that an identifier is not to be sent for the symbology. Enter 1 for On and 0 for Off 0B10 On or Off Off On Off 0B28 1 - 3500 1 1 1 0B29 1 - 3500 1 3500 3500 0B2B Any single ASCII character
(00 = Off) c c c Micro QR Code Enable Enables/disables Micro QR Code symbology. 0B14 On or Off Off On Off 156 POSTAL CODES Code Parameter Description I.D.#
Accept. Input Defaults Scanner Type i n M x a M y r o t c a F r e g a m I D 2 US POSTNET Enable US PLANET Enable US Postal Send Chk USPS Intelligent Mail Enable UPU FICS Enable Royal Mail Enable Royal Mail Send Chk Australian Postal Enable KIX Enable Postal Code Redundancy Enables/ disables POSTNET symbology. Enables/ disables PLANET symbology. Transmit US Postal Code check digit. Enables/ disables USPS Intelligent Mail symbology. Enables/ disables UPU FICS symbology. Enables/ disables Royal Mail symbology. Transmit Royal Mail symbology check digits. Enables/ disables Australian Postal symbology. Enables/ disables KIX symbology. Required number of matching reads (more than differing reads). Enter 1 for On and 0 for Off 0910 On or Off 0911 On or Off 0912 On or Off Off Off Off 0913 On or Off Off 0914 On or Off 0915 On or Off 0916 On or Off Off Off Off 0917 On or Off Off 0918 01 - 04 0928 01 - 04 01 01 On On On On On On On On 02 02 On On On On Off On Off Off 01 01 Postal Code User ID User defined symbology ID for Postal Codes. 0929 Any single ASCII character
(00 = Off) f f f 157 IMAGING CONTROLS Code Parameter Description I.D.#
Accept. Input 6 Defaults Scanner Type i n M x a M y r o t c a F r e g a m I D 2 Enter 1 for On and 0 for Off 0008 On or Off On On On 0009 On or Off On On On 000A On or Off On On On Instructs the PDT to illuminate the scanning area (independent of any targeting beam) when using an imager. Toggles between two different operating modes for the targeting beam:
Concurrent (Off): The targeting beam is turned on at the same time as an enabled illumination beam.
"Release Scan" (On) turns off the targeting pattern after trigger release.. Enable the use of a target beam and enables Pick List Mode, which decodes only the bar code label immediately under the targeting cross. Imager Illuminate Enable Imager Aim Mode Enable Aiming Beam 158 OTHER CONTROLS Code Parameter Description I.D.#
Accept. Input Defaults Scanner Type i n M x a M y r o t c a F r e s a L r e g a m I D 2 Enable Label Programming Enables/disables the ability to perform label programming. Enter 1 for On and 0 for Off FF00 On or Off On On On 0025 Select symbology identifier to transmit immediately preceding scanned data:
0=None 1=DLM identifier before label: <ID> " " <data>
2=AIM identifier before label: "]" <ID>
<modifier> <data>
3=User defined identifier before label: <ID>
<data>
4=DLM identifier after label: <data> " " <ID>
5=AIM identifier after label: <data> "]" <ID>
<modifier>
6=User defined identifier after label: <data> <ID>
00 01 00 0026 A string of Unicode characters. NUL NUL NUL 0027 A string of Unicode characters. CR+LF CR+LF CR+LF 0028 Any single ASCII character (00 = Off). CR CR CR Specifies the symbology identifier (if any) that is sent by the decoder when parameter Send Code ID (Index 0025) is set to 3. ASCII code zero
(null) used to indicate an identifier not to be sent for the symbology. Character string sent immediately prior to symbology identifier
(0=None). Character string sent immediately after final character in data
(0=None). Character string sent after each string in a sample where multiple strings exist. Send Symbology Identifiers Label Prefix Label Suffix*
Label Separator Only a single character can be programmed with a programming label; strings can only be programmed in the Decoding control panel applet. 159 6 Scanner Type Defaults Code Parameter Description I.D.#
Accept. Input i n M x a M y r o t c a F r e s a L r e g a m I D 2 Automatic Good Read Enable Green Spot Enable Good Read LED Enable Good Read Vibrate Enable Remove Non-
Printables Group Separator Substitution Enable automatic Good Read on a successful read. Enable Green Spot with Good Read. Enable LED with Good Read. Enable Vibration with Good Read. Removes all characters in the range 0x00 - 0x31 or 0x7F - 0x9F from the label data. The min/max length checks made for each symbology are made before any characters are removed. Characters in the code ID, prefix, suffix, or separator will not be removed. Each occurrence of the GS character (ASCII code 0x1D) in the label data will be substituted for the character defined by this parameter. The value 0 (NUL) is considered a valid replacement character and cannot be used to remove GS characters. 0010 On or Off On On On 0011 On or Off 0013 On or Off 0012 On or Off On Off Off On On On On On On 0018 On or Off Off Off Off 002C The maximum number of data characters is 127. All defined Unicode characters are valid. GS GS GS Only a single character can be programmed with a programming label; strings can only be programmed in the Decoding control panel applet. 160 Code Parameter Description I.D.#
Accept. Input Defaults Scanner Type i n M x a M y r o t c a F r e s a L r e g a m I D 2 Decode Timeout Defines the maximum time the scanner will remain on without reading a barcode. This value does not include time spent with a spot beam
(1D scanner) or target pattern (2D scanner) 002D 2 to 40 (step=1) 2 = 500 ms 40 = 10000 ms 20 20 20 Beeper Volume Defines the volume of decoding sounds. FF20 0 to 7 = Soft to Loud 8 = lowers the volume by 1 9 = raises the volume by 1 7 7 7 Long Range Spot Enable Long Range Release Time Target Release Time Enable the use of a spot beam, if detected. Maximum time laser is on after trigger release using Release Scan spot beam mode. Maximum time (in seconds) imager is on after trigger release using Release Scan target beam mode. 0001 On or Off Off Off Off 0024 1-5 2 2 2 002A 1-5 2 2 2 161 6 DATALOGIC MOBILE LABEL IDS Datalogic Mobile Label IDs UPC-A = A UPC-E = E EAN-8 = G EAN 13 = M Matrix 2 of 5 = D Data Matrix = v Code 93 = L MSI = H Trioptic = X Composite = s MaxiCode = w PDF417 = s Code 39 = C Pharmacode 39 = Y MicroPDF417 = a Codabar = I GS1 DataBar-14 = P QR Code = c Code 128 = K GS1 DataBar Limited = Q Postal Codes = f Interleaved 2 of 5 = B GS1 DataBar Expanded = R Standard 2 of 5 = F Aztec Code = d 162 SAFETY REGULATIONS Read this manual carefully before performing any type of connection to the Skorpio X3 mobile computer. The user is responsible for any damage caused by incorrect use of the equipment or by inobservance of the indication supplied in this manual. NOTE GENERAL SAFETY RULES Use only the components supplied by the manufacturer for the specific Skorpio X3 being used. Do not attempt to disassemble the Skorpio X3 mobile computer, as it does not contain parts that can be repaired by the user. Any tampering will invalidate the warranty. When replacing the battery pack or at the end of the operative life of the Skorpio X3 mobile computer, disposal must be performed in compliance with the laws in force. Before using the devices and the battery packs, read chap. 2. Do not submerge the Skorpio X3 in liquid products. For further information, refer to this manual and to the Datalogic Mobile web site:
http://www.adc.datalogic.com/. POWER SUPPLY This device is intended to be supplied by a self-contained rechargeable lithium-ion battery pack (SELV, LPS) and/or by UL Listed/CSA Certified Power Unit marked Class 2 or LPS power source which supplies power directly to the unit via the power connector of the cable. 163 6 LASER SAFETY The laser light is visible to the human eye and is emitted from the window indicated in the figure. This information applies to both the Skorpio X3 models with laser and Imager Aiming System. Laser output window 164 I D F E La luce laser visibile all'occhio umano e viene emessa dalla finestra indicata nella figura. Die Laserstrahlung ist fr das menschliche Auge sichtbar und wird am Strahlaustrittsfenster ausgesendet (siehe Bild). Le rayon laser est visible l'oeil nu et il est mis par la fentre dsigne sur l'illustration dans la figure. La luz lser es visible al ojo humano y es emitida por la ventana indicada en la figura. LUCE LASER NON FISSARE IL FASCIO APPARECCHIO LASER DI CLASSE 2 MASSIMA POTENZA DI USCITA: 1 mW LUNGHEZZA D'ONDA EMESSA: 630~680 nm CONFORME A EN 60825-1
(2007) LASERSTRAHLUNG NICHT IN DER STRAHL BLINKEN PRODUKT DER LASERKLASSE 2 MAXIMALE AUSGANGLEISTUNG: 1 mW WELLENLNGE:
630~680 nm ENTSPR. EN 60825-1
(2007) RAYON LASER EVITER DE REGARDER LE RAYON APPAREIL LASER DE CLASSE 2 MAXIMUM PUISSANCE DE SORTIE: 1 mW LONGUER D'ONDE EMISE:
630~680 nm CONFORME A EN 60825-1
(2007) RAYO LSER NO MIRAR FIJO EL RAYO APARATO LSER DE CLASE 2 MXIMA POTENCIA DE SALIDA: 1 mW LONGITUD DE ONDA EMITIDA: 630~680 nm CONFORME A EN 60825-1
(2007) 165 6 ENGLISH The following information is provided to comply with the rules imposed by international authorities and refers to the correct use of your mobile computer. STANDARD LASER SAFETY REGULATIONS This product conforms to the applicable requirements of both CDRH 21 CFR 1040 Subchapter J and EN 60825-1:2007 at the date of manufacture. For installation, use and maintenance, it is not necessary to open the device. Do not attempt to open or otherwise service any components in the optics cavity. Opening or servicing any part of the optics cavity by unauthorized personnel may violate laser safety regulations. The optics system is a factory only repair item. Use of controls or adjustments or performance of procedures other than those specified herein may result in exposure to hazardous visible laser light. CAUTION CAUTION The product 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 shining laser light into any person's eye, even through reflective surfaces such as mirrors, etc. CAUTION Use of optical systems with the scanner will increase eye hazard. Optical instruments include binoculars, microscopes, eye glasses and magnifying glasses. ITALIANO Le seguenti informazioni vengono fornite dietro direttive delle autorit internazionali e si riferiscono alluso corretto del terminale. NORMATIVE STANDARD PER LA SICUREZZA LASER Questo prodotto risulta conforme alle normative vigenti sulla sicurezza laser alla data di produzione: CDRH 21 CFR 1040 sezione J e EN 60825-1:2007. Non si rende mai necessario aprire lapparecchio per motivi di installazione, utilizzo o manutenzione. 166 ATTENZIONE Non tentare di accedere allo scomparto contenete i componenti ottici o di farne la manutenzione. Lapertura dello scomparto, o la manutenzione di qualsiasi parte ottica da parte di personale non autorizzato, potrebbe violare le norme della sicurezza. Il sistema ottico pu essere riparato solamente alla fabbrica. L'utilizzo di procedure o regolazioni differenti da quelle descritte nella documentazione pu provocare un'esposizione pericolosa a luce laser visibile. ATTENZIONE Il prodotto utilizza un diodo laser a bassa potenza. Sebbene non siano noti danni riportati dallocchio umano in seguito ad una esposizione di breve durata, evitare di fissare il raggio laser cos come si eviterebbe qualsiasi altra sorgente di luminosit intensa, ad esempio il sole. Evitare inoltre di dirigere il raggio laser negli occhi di un osservatore, anche attraverso superfici riflettenti come gli specchi. ATTENZIONE Luso di strumenti ottici assieme allo scanner pu aumentare il pericolo di danno agli occhi. Tali strumenti ottici includono cannocchiali, microscopi, occhiali e lenti di ingrandimento. DEUTSCH Die folgenden Informationen stimmen mit den Sicherheitshinweisen berein, die von internationalen Behrden auferlegt wurden, und sie beziehen sich auf den korrekten Gebrauch vom Terminal. NORM FR DIE LASERSICHERHEIT Dies Produkt entspricht am Tag der Herstellung den gltigen EN 60825-1:2007 und CDRH 21 CFR 1040 Subchapter J Normen fr die Lasersicherheit. Es ist nicht notwendig, das Gert wegen Betrieb oder Installations-, und Wartungs-
Arbeiten zu ffnen. 167 6 ACHTUNG ACHTUNG Unter keinen Umstnden darf versucht werden, die Komponenten im Optikhohlraum zu ffnen oder auf irgendwelche andere Weise zu warten. Das ffnen bzw. Warten der Komponenten im Optikhohlraum durch unbefugtes Personal verstt gegen die Laser-Sicherheitsbestimmungen. Das Optiksystem darf nur werkseitig repariert werden. Jegliche nderungen am Gert sowie Vorgehensweisen, die nicht in dieser Betriebsanleitung beschrieben werden, knnen ein gefhrliches Laserlicht verursachen. Der Produkt benutzt eine Laserdiode. Obwohl zur Zeit keine Augenschden von kurzen Einstrahlungen bekannt sind, sollten Sie es vermeiden fr lngere Zeit in den Laserstrahl zu schauen, genauso wenig wie in starke Lichtquellen (z.B. die Sonne). Vermeiden Sie es, den Laserstrahl weder gegen die Augen eines Beobachters, noch gegen reflektierende Oberflchen zu richten. ACHTUNG Die Verwendung von Optiksystemen mit diesem Scanner erhht die Gefahr einer Augenbeschdigung. Zu optischen Instrumenten gehren unter anderem Fernglser, Mikroskope, Brillen und Vergrerungsglser. FRANAIS Les informations suivantes sont fournies selon les rgles fixes par les autorits internationales et se rfrent une correcte utilisation du terminal. NORMES DE SECURITE LASER Ce produit est conforme aux normes de scurit laser en vigueur sa date de fabrication: CDRH 21 CFR 1040 sous-chapitre J et EN 60825-1:2007. Il nest pas ncessaire douvrir lappareil pour linstallation, lutilisation ou lentretien. Ne pas essayer douvrir ou de rparer les composants de la cavit optique. Louverture de la cavit optique ou la rparation de ses composants par une personne non qualifie peut entraner le nonrespect des rgles de scurit relatives au laser. Le systme optique ne peut tre rpar quen usine. ATTENTION 168 L'utilisation de procdures ou rglages diffrents de ceux donns ici peut entraner une dangereuse exposition lumire laser visible. ATTENTION Le produit utilise une diode laser. Aucun dommage aux yeux humains na t constat la suite dune exposition au rayon laser. Eviter de regarder fixement le rayon, comme toute autre source lumineuse intense telle que le soleil. Eviter aussi de diriger le rayon vers les yeux dun observateur, mme travers des surfaces rflchissantes (miroirs, par exemple). ATTENTION Lutilisation dinstruments optiques avec le scanneur augmente le danger pour les yeux. Les instruments optiques comprennent les jumelles, les microscopes, les lunettes et les verres grossissants. ESPAOL Las informaciones siguientes son presentadas en conformidad con las disposiciones de las autoridades internacionales y se refieren al uso correcto del terminal. NORMATIVAS ESTNDAR PARA LA SEGURIDAD LSER Este aparato resulta conforme a las normativas vigentes de seguridad lser a la fecha de produccin: CDRH 21 CFR 1040 Seccin J y EN 60825-1:2007. No es necesario abrir el aparato para la instalacin, la utilizacin o la manutencin. ATENCIN No intente abrir o de ninguna manera dar servicio a ninguno de los componentes del receptculo ptico. Abrir o dar servicio a las piezas del receptculo ptico por parte del personal no autorizado podra ser una violacin a los reglamentos de seguridad. El sistema ptico se puede reparar en la fbrica solamente. ATENCIN La utilizacin de procedimientos o regulaciones diferentes de aquellas describidas en la documentacin puede causar una exposicin peligrosa a la luz lser visible. 169 6 El aparato utiliza un diodo lser a baja potencia. No son notorios daos a los ojos humanos a consecuencia de una exposicin de corta duracin. Eviten de mirar fijo el rayo lser as como evitaran cualquiera otra fuente de luminosidad intensa, por ejemplo el sol. Adems, eviten de dirigir el rayo lser hacia los ojos de un observador, tambin a travs de superficies reflectantes como los espejos. El uso de sistemas pticos con el escner aumentar el riesgo de daos oculares. Los instrumentos pticos incluyen binoculares, microscopios, lentes y lupas. ATENCIN LED CLASS LED illuminator integrated in the Skorpio X3 models with SE-4500 imager engine are compliant with exempt risk group requirements according to EN62471:2008 and IEC62471:2006. 170 RADIO COMPLIANCE In radio systems configured with mobile computers and access points, the frequencies to be used must be allowed by the spectrum authorities of the specific country in which the installation takes place. Be absolutely sure that the system frequencies are correctly set to be compliant with the spectrum requirements of the country. The Radio modules used in this product automatically adapt to the frequencies set by the system and do not require any parameter settings. 171 6 Information for the User ENGLISH Contact the competent authority responsible for the management of radio frequency devices of your country to verify any possible restrictions or licenses required. Refer to the web site http://ec.europa.eu./ for further information. ITALIANO Contatta l'autorit competente per la gestione degli apparati a radio frequenza del tuo paese, per verificare eventuali restrizioni o licenze. Ulteriori informazioni sono disponibili sul sito:
http://ec.europa.eu./. FRANAIS Contactez l'autorit comptente en la gestion des appareils radio frquence de votre pays pour vrifier d'ventuelles tout renseignement vous pouvez vous adresser au site web:
http://ec.europa.eu./
licences. Pour restrictions ou DEUTSCH Wenden Sie sich an die fr Radiofrequenzgerte zustndige Behrde Ihres Landes, um zu prfen ob es Einschrnkungen gibt, oder eine Lizenz erforderlich ist. Weitere Informationen finden Sie auf der Web Seite:
http://ec.europa.eu./. ESPAOL Contacta la autoridad competente para la gestin de los dispositivos de radio frecuencia de tu pas, para verificar cualesquiera restricciones o licencias posibles requerida. Adems se puede encontrar mas informacin en el sitio web:
http://ec.europa.eu./. 172 FCC COMPLIANCE FCC Regulations interference received, this device must accept any This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) including interference that may cause undesired operation. This device has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiated radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:
- Reorient or relocate the receiving antenna.
-
- Connect the equipment into an outlet on a circuit different from that to Increase the separation between the equipment and receiver. which the receiver is connected.
- Consult the dealer or an experienced radio/TV technician for help. Changes or modifications not expressly approved by the party responsible for compliance could void the users authority to operate the equipment. The antenna(s) used for this transmitter must not be co-located or operating in conjunction with any other antenna or transmitter. 173 6 RF EXPOSURE INFORMATION (SAR) This model device meets the governments requirements for exposure to radio waves. This device is designed and manufactured not to exceed the emission limits for exposure to radio frequency (RF) energy set by the Federal Communications Commission of the U.S. Government. The exposure standard for wireless devices employs a unit of measurement known as the Specific Absorption Rate, or SAR. The SAR limit set by the FCC is 1.6W/kg. *Tests for SAR are conducted using standard operating positions accepted by the FCC with the device transmitting at its highest certified power level in all tested frequency bands. Although the SAR is determined at the highest certified power level, the actual SAR level of the device while operating can be well below the maximum value. This is because the device is designed to operate at multiple power levels so as to use only the poser required to reach the network. In general, the closer you are to a wireless base station antenna, the lower the power output. While there may be differences between the SAR levels of various devices and at various positions, they all meet the government requirement. The FCC has granted an Equipment Authorization for this model device with all reported SAR levels evaluated as in compliance with the FCC RF exposure guidelines. SAR information on this model device is on file with the FCC and can be found under the Display Grant section of http://www.fcc.gov/oet/fccid after searching on the below FCC IDs:
FCC ID: U4G0060. This device is compliant with SAR for general population /uncontrolled exposure limits in ANSI/IEEE C95.1-1999 and had been tested in accordance with the measurement methods and procedures specified in OET Bulletin 65 Supplement C. 174
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INDUSTRY CANADA COMPLIANCE This device complies with Industry Canada license-exempt RSS standard(s). Operation is subject to the following two conditions: (1) this device may not cause interference, and (2) this device must accept any interference, including interference that may cause undesired operation of the device. This Class B digital apparatus complies with Canadian ICES-003. Cet appareil numrique de la classe B est conforme la norme NMB-003 du Canada. This device and its antenna(s) must not be co-located or operating in conjunction with any other antenna or transmitter. The County Code Selection feature is disabled for products marketed in the US/Canada. This EUT is compliant with SAR for general population/uncontrolled exposure limits in IC RSS-102 and had been tested in accordance with the measurement methods and procedures specified in IEEE 1528. This equipment should be installed and operated with minimum distance 1,5cm between the radiator & your body. Le prsent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de licence. L'exploitation est autorise aux deux conditions suivantes : (1) l'appareil ne doit pas produire de brouillage, et (2) l'utilisateur de l'appareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est susceptible d'en compromettre le fonctionnement. SAR COMPLIANCE This product has been tested and found to comply with the following standards:
-
For the used worst case positions, the portable device Skorpio X3 from Datalogic (FCC ID: U4G0060; contains FCC ID: U4G004W) is in compliance with the IC RSS 102 Issue 4 [RSS 102] and Federal Communications Commission (FCC) Guidelines [OET 65] for uncontrolled exposure. SAR assessment in body worn was conducted with a distance of 15 mm between the housing of the handheld and the flat phantom. EN 62311:2008: assessment of electronic and electrical equipment related to human exposure restrictions for electromagnetic fields (0 Hz 300 GHz). 175 6 PATENTS This product is covered by one or more of the following patents:
Design Pat.: EP 1,942,723. U.S. Pat.: 5,311,000; 5,440,110; 5,481,098; 5,493,108; 5,686,716; 5,992,740;
6,412,698 B2; 6,415,978 B1; 6,454,168 B1; 6,478,224 B1; 6,513,714 B1; 6,561,427 B2; 6,585,157 B2; 6,808,114 B1; 6,997,385 B2;7,108,170 B2; 7,387,246 B2. European Pat.: 681,257 B1; 789,315 B1; 1,128,315 B1; 1,396,811 B1; 1,413,971 B1 Additional patents pending. 176 WEEE COMPLIANCE Informazione degli utenti ai sensi della Direttiva Europea 2002/96/EC Lapparecchiatura che riporta il simbolo del bidone barrato deve essere smaltita, alla fine della sua vita utile, separatamente dai rifiuti urbani. Smaltire lapparecchiatura in conformit alla presente Direttiva consente di:
evitare possibili conseguenze negative per lambiente e per la salute umana che potrebbero invece essere causati dallerrato smaltimento dello stesso;
recuperare materiali di cui composto al fine di ottenere un importante risparmio di energia e di risorse. Per maggiori dettagli sulle modalit di smaltimento, contattare il Fornitore dal quale stata acquistata lapparecchiatura o consultare la sezione dedicata sul sito http://www.adc.datalogic.com/. Information for the user in accordance with the European Commission Directive 2002/96/EC At the end of its useful life, the product marked with the crossed out wheeled wastebin must be disposed of separately from urban waste. Disposing of the product according to this Directive:
avoids potentially negative consequences to the environment and human health which otherwise could be caused by incorrect disposal enables the recovery of materials to obtain a significant savings of energy and resources. For more detailed information about disposal, contact the supplier that provided you with the product in question or consult the dedicated section at the website http://www.adc.datalogic.com/. 177 6 Information aux utilisateurs concernant la Directive Europenne 2002/96/EC Au terme de sa vie utile, le produit qui porte le symbole d'un caisson ordures barr ne doit pas tre limin avec les dchets urbains. liminer ce produit selon cette Directive permet de:
viter les retombes ngatives pour l'environnement et la sant drivant d'une limination incorrecte rcuprer les matriaux dans le but d'une conomie importante en termes d'nergie et de ressources Pour obtenir des informations complmentaires concernant l'limination, veuillez contacter le fournisseur auprs duquel vous avez achet le produit ou consulter la section consacre au site Web http://www.adc.datalogic.com/. Informacin para el usuario de accuerdo con la Directiva Europea 2002/96/CE Al final de su vida til, el producto marcado con un simbolo de contenedor de bassura mvil tachado no debe eliminarse junto a los desechos urbanos. Eliminar este producto de accuerdo con la Directiva permite de:
evitar posibles consecuencias negativas para el medio ambiente y la salud derivadas de una eliminacin inadecuada recuperar los materiales obteniendo as un ahorro importante de energa y recursos Para obtener una informacin ms detallada sobre la eliminacin, por favor, pngase en contacto con el proveedor donde lo compr o consultar la seccin dedicada en el Web site http://www.adc.datalogic.com/. Benutzerinformation bezglich Richtlinie 2002/96/EC der europischen Kommission Am Ende des Gertelebenszyklus darf das Produkt nicht ber den stdtischen Hausmll entsorgt werden. Eine entsprechende Mlltrennung ist erforderlich. Beseitigung des Produkts entsprechend der Richtlinie:
verhindert negative Auswirkungen fr die Umwelt und die Gesundheit der Menschen ermglicht die Wiederverwendung der Materialien und spart somit Energie und Resourcen Weitere Informationen zu dieser Richtlinie erhalten sie von ihrem Lieferanten ber den sie das Produkt erworben haben, oder besuchen sie unsere Hompage unter http://www.adc.datalogic.com/. 178 interoperable GLOSSARY Access Point A device that provides transparent access between Ethernet wired networks and IEEE 802.11 radio-equipped mobile units. Hand-held mobile computers, PDAs or other devices equipped with radio cards, communicate with wired networks using Access Points (AP). The mobile unit (mobile computer) may roam among the APs in the same subnet while maintaining a continuous, seamless connection to the wired network. Applet Diminutive form of app (application), it refers to simple, single-function programs that often ship with a larger product. Programs such as Windows' Calculator, File Manager, Control Panel and Notepad are examples of applets. Bar Code A pattern of variable-width bars and spaces which represents numeric or alphanumeric data in binary form. The general format of a barcode symbol consists of a leading margin, start character, data or message character, check character (if any), stop character, and trailing margin. Within this framework, each recognizable symbology uses its own unique format. Baud Rate A measure for data transmission speed. Bit Binary digit. One bit is the basic unit of binary information. Generally, eight consecutive bits compose one byte of data. The pattern of 0 and 1 values within the byte determines its meaning. Bluetooth A standard radio technology using a proprietary protocol. The onboard Bluetooth module in the device is compatible with the 1.1 protocol. Byte On an addressable boundary, eight adjacent binary digits (0 and 1) combined in a pattern to represent a specific character or numeric value. Bits are numbered from the right, 0 through 7, with bit 0 the low-order bit. One byte in memory can be used to store one ASCII character. Decode To recognize a bar code symbology (e.g., Codabar, Code 128, Code 39, UPC/EAN, etc.) and analyze the content of the bar code scanned. 179 Depth of Field (DOF) The portion of a scene that appears acceptably sharp in the image. Although a lens can precisely focus at only one distance, the decrease in sharpness is gradual on each side of the focused distance, so that within the DOF, the unsharpness is imperceptible under normal viewing conditions. EDGE Enhanced Data rates for GSM Evolution (EDGE) is a backward-compatible digital mobile phone technology that allows improved data transmission rates, as an extension on top of standard GSM. EDGE is considered a 3G radio technology and is part of ITU's 3G definition. EEPROM Electrically Erasable Programmable Read-Only memory. An on-board non-volatile memory chip. Ethernet The standard local area network (LAN) access method. A reference to "LAN," "LAN connection" or "network card" automatically implies Ethernet. Defined by the IEEE as the 802.3 standard, Ethernet is used to connect computers in a company or home network as well as to connect a single computer to a cable modem or DSL modem for Internet access. Firmware Firmware is a software program or set of instructions programmed on a hardware device. It provides the necessary instructions for how the device communicates with the other computer hardware. Firmware is typically stored in the flash ROM of a hardware device. While ROM is "read-only memory," flash ROM can be erased and rewritten because it is actually a type of flash memory. Flash Disk Non-volatile memory for storing application and configuration files. Host A computer that serves other mobile computers in a network, providing services such as network control, database access, special programs, supervisory programs, or programming languages. IEEE 802.11 A set of standards carrying out wireless local area network (WLAN) computer communication in the 2.4, 3.6 and 5 GHz frequency bands. They are created and maintained by the IEEE LAN/MAN Standards Committee. 180 Light Emitting Diode (LED) A low power electronic light source commonly used as an indicator light. It uses less power than an incandescent light bulb but more than a Liquid Crystal Display (LCD). Liquid Crystal Display (LCD) A display that uses liquid crystal sealed between two glass plates. The crystals are excited by precise electrical charges, causing them to reflect light outside according to their bias. They use little electricity and react relatively quickly. They require external light to reflect their information to the user. Null modem cable RS-232 serial cable where the transmit and receive lines are crosslinked. In some cables there are also handshake lines crosslinked. In many situations a straight through serial cable is used, together with a null modem adapter. The adapter contains the necessary crosslinks between the signals. One shot key Pressing a one shot key actives the state. The state remains active until any other key is pressed. If you hold down a one shot state key and you press another key the state will remain active until you release the one-shot key. Pairing A Bluetooth pairing occurs when two Bluetooth devices agree to communicate with each other and establish a connection. Piconet A piconet is a Bluetooth PAN that links up to eight devices. Each piconet is controlled by one master device, and up to seven slave devices at any one time. Any device may be a member of more than one piconet, changing its membership as a user moves from one area to another. RAM Random Access Memory. Data in RAM can be accessed in random order, and quickly written and read. RF Radio Frequency. RTC Real Time Clock. 181 TDMA Time division multiple access (TDMA) is digital transmission technology that allows a number of users to access a single radio-frequency (RF) channel without interference by allocating unique time slots to each user within each channel. The TDMA digital transmission scheme multiplexes three signals over a single channel. The current TDMA standard for cellular divides a single channel into six time slots, with each signal using two slots, providing a 3 to 1 gain in capacity over advanced mobile-
phone service (AMPS). Each caller is assigned a specific time slot for transmission. Toggle key Pressing a toggle key activates the state. The state remains active until the toggle key is pressed again. USB Universal Serial Bus. Type of serial bus that allows peripheral devices (disks, modems, printers, digitizers, data gloves, etc.) to be easily connected to a computer. A plug-and-play interface, it allows a device to be added without an adapter card and without rebooting the computer (the latter is known as hot-plugging). The USB standard, developed by several major computer and telecommunications companies, supports data-transfer speeds up to 12 megabits per second, multiple data streams, and up to 127 peripherals. WLAN A Wireless Local Area Network links devices via a wireless distribution method
(typically spread-spectrum or OFDM radio), and usually provides a connection through an access point to the wider internet. This gives users the mobility to move around within a local coverage area and still be connected to the network. WPAN A Wireless Personal Area Network is a personal area network - a network for interconnecting devices centered around an individual person's workspace - in which the connections are wireless. Typically, a wireless personal area network uses some technology that permits communication within about 10 meters - in other words, a very short range. WWAN Stands for "Wide Area Network." It is similar to a Local Area Network (LAN), but it is not limited to a single location and it uses Mobile telecommunication cellular network technologies such as UMTS, GPRS, CDMA2000, GSM, CDPD, Mobitex, HSDPA or 3G to transfer data. WWAN connectivity allows a user with a laptop and a WWAN card to surf the web, check email, or connect to a Virtual Private Network (VPN) from anywhere within the regional boundaries of cellular service. 182 INDEX A Accessories; 9 Audio Settings; 74 Autostart; 111 Available Models; 2 B Batteries and Maintenance; 11 Bluetooth Manager Device Setup; 78 C Charging the Batteries; 11 Cleaning the mobile computer; 18 Connections; 19 Connection to USB peripherals; 21 RS232 Connection; 23 USB Connection; 19 WLAN Connection; 24 WPAN Connections; 26 Control Panel; 48 D Data Capture; 33 Imager Data Capture; 35 Laser Data Capture; 34 Data Capture Configuration; 49 Datalogic Configuration Utility; 90 Datalogic Desktop Utility; 91 Datalogic Firmware Utility; 85 Decoding Parameters; 128 Description of the Keyboards; 37 DL Buttons; 58 F FCC Compliance; 173 G General View; vii 183 Glossary; 179 I Industry Canada Compliance; 175 L Laser Safety; 164 LED Class; 170 LED Status; 46 M microSD Card Insertion; 6 P Package Contents; 4 Patents; 176 Persistent Registry; 64 Power Supply; 163 R Radio Compliance; 171 Reading Diagrams; 122 References; vi Replacing the Batteries; 14 Resetting the Skorpio X3; 44 RF Exposure Information (SAR); 174 S Safety Regulations; 163 SAR Compliance; 175 Services and Support; vi Skorpio X3 Description; 1 Startup; 29 Status Indicators; 46 Stylus Calibration; 72 T Taskbar; 47 W WEEE Compliance; 177 Windows CE Touch Screen Calibration; 32 Windows Connections; 76 Windows Mobile Device Center; 76 Wireless and Radio Frequencies Warnings; 27 Wireless Communications; 67 Technical Data; 119 Technical Features; 119 Test Codes; 124 Touch Gestures; 31 U Using the Stylus; 30 184 Datalogic Mobile S.r.l. Via S. Vitalino 13 40012 - Lippo di Calderara Bologna - Italy 12 dichiara che declares that the dclare que le bescheinigt ,da das Gert declare que el SKORPIO X3 sono conformi alle Direttive del Consiglio Europeo sottoelencate:
are in conformity with the requirements of the European Council Directives listed below sont conformes aux spcifications des Directives de lUnion Europenne ci-dessous:
der nachstehend angefhrten Direktiven des Europischen Rats:
cumple con los requisitos de las Directivas del Consejo Europeo, segn la lista siguiente:
modelli con funzionalit radio 802.11a/b/g+BT models with 802.11a/b/g+BT radio feature modles avec 802.11a/b/g+BT radio intgrs modelle mit 802.11a/b/g+BT radio-funktionalitt modelos con funcionalidad radio 802.11a/b/g+BT 1999/5/EEC R&TTE Questa dichiarazione basata sulla conformit dei prodotti alle norme seguenti:
This declaration is based upon compliance of the products to the following standards:
Cette dclaration repose sur la conformit des produits aux normes suivantes:
Diese Erklrung basiert darauf, da das Produkt den folgenden Normen entspricht:
Esta declaracin se basa en el cumplimiento de los productos con la siguientes normas:
EN 55022: 2006 (CLASS B ITE) , SEPTEMBER 2006 AMENDMENT A1:2007 EN 55024: 1998 AMENDMENT A1:2001 AMENDMENT A2:2003 ETSI EN 301 489-1 V1.8.1, APRIL 2008:
ELECTROMAGNETIC INFORMATION TECHNOLOGY EQUIPMENT RADIO DISTURBANCE CHARACTERISTICS LIMITS AND METHODS OF MEASUREMENTS INFORMATION TECHNOLOGY EQUIPMENT IMMUNITY CHARACTERISTICS LIMITS AND METHODS OF MEASUREMENT ETSI EN 301 489-17 V2.1.1 MAY 2009:
ETSI EN 300 328 V1.7.1, OCTOBER 2006:
COMPATIBILITY RADIO SPECTRUM MATTERS ELECTROMAGNETIC COMPATIBILITY (EMC) STANDARD FOR RADIO EQUIPMENT AND TECHNICAL REQUIREMENTS SERVICES;
COMMON PART1:
(ERM);
AND ELECTROMAGNETIC COMPATIBILITY RADIO SPECTRUM MATTERS ELECTROMAGNETIC COMPATIBILITY RADIO
(EMC) EQUIPMENT; PART 17: SPECIFIC CONDITIONS FOR 2,4 GHZ WIDEBAND TRANSMISSION SYSTEMS, 5 GHZ HIGH PERFORMANCE RLAN EQUIPMENT AND 5,8 GHZ BROADBAND DATA TRANSMITTING SYSTEMS
(ERM);
STANDARD AND FOR ELECTROMAGNETIC COMPATIBILITY RADIO SPECTRUM MATTERS (ERM); WIDEBAND TRANSMISSION SYSTEMS; DATA TRANSMISSION EQUIPMENT OPERATING IN THE 2,4GHZ ISM BAND AND USING WIDE BAND MODULATION TECHNIQUES; HARMONIZED EN COVERING ESSENTIAL REQUIREMENTS UNDER ARTICLE 3.2 OF THE R&TTE DIRECTIVE AND BROADBAND RADIO ACCESS NETWORKS (BRAN);5 GHZ HIGH PERFORMANCE RLAN;HARMONIZED EN COVERING THE ESSENTIAL REQUIREMENTS OF ARTICLE 3.2 OF THE R&TTE DIRECTIVE INFORMATION TECHNOLOGY EQUIPMENT - SAFETY -
PART 1 : GENERAL REQUIREMENTS ASSESSMENT OF ELECTRONIC AND ELECTRICAL EQUIPMENT EXPOSURE RESTRICTIONS FOR ELECTROMAGNETIC FIELDS (0 HZ -
300 GHZ) RELATED HUMAN TO Ruggero Cacioppo Quality & Reliability MGR- Europe ETSI EN 301 893 V1.5.1, DECEMBER 2008 EN 60950-1:2006 AMENDMENT A1:2010 EN 62311:2008 Lippo di Calderara, May 25th 2012
frequency | equipment class | purpose | ||
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1 | 2014-12-09 | JBP - Part 15 Class B Computing Device Peripheral | Class II Permissive Change | |
2 | 2012-06-22 | 2402 ~ 2480 | DSS - Part 15 Spread Spectrum Transmitter | Original Equipment |
3 | JBP - Part 15 Class B Computing Device Peripheral |
app s | Applicant Information | |||||
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1 2 3 | Effective |
2014-12-09
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1 2 3 |
2012-06-22
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1 2 3 | Applicant's complete, legal business name |
Datalogic S.r.l.
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1 2 3 | FCC Registration Number (FRN) |
0016179699
|
||||
1 2 3 | Physical Address |
Via S. Vitalino 13
|
||||
1 2 3 |
Calderara di Reno, N/A
|
|||||
1 2 3 |
Italy
|
|||||
app s | TCB Information | |||||
1 2 3 | TCB Application Email Address |
c******@telefication.com
|
||||
1 2 3 |
m******@phoenix-testlab.de
|
|||||
1 2 3 | TCB Scope |
A1: Low Power Transmitters below 1 GHz (except Spread Spectrum), Unintentional Radiators, EAS (Part 11) & Consumer ISM devices
|
||||
1 2 3 |
A4: UNII devices & low power transmitters using spread spectrum techniques
|
|||||
app s | FCC ID | |||||
1 2 3 | Grantee Code |
U4G
|
||||
1 2 3 | Equipment Product Code |
0060
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 2 3 | Name |
R****** C******
|
||||
1 2 3 | Title |
Product Quality Leader
|
||||
1 2 3 | Telephone Number |
+39 0********
|
||||
1 2 3 | Fax Number |
+39 0********
|
||||
1 2 3 |
r******@datalogic.com
|
|||||
app s | Technical Contact | |||||
1 2 3 | Firm Name |
International Standards Laboratory
|
||||
1 2 3 | Name |
V****** S****
|
||||
1 2 3 | Physical Address |
No. 120, Lane 180, San Ho Tsuen,Hsin Ho Rd.
|
||||
1 2 3 |
Taiwan
|
|||||
1 2 3 | Telephone Number |
886-2********
|
||||
1 2 3 | Fax Number |
886-2********
|
||||
1 2 3 |
v******@isl.com.tw
|
|||||
app s | Non Technical Contact | |||||
1 2 3 | Firm Name |
International Standards Laboratory
|
||||
1 2 3 | Name |
V******** S******
|
||||
1 2 3 | Physical Address |
No. 120, Lane 180, San Ho Tsuen,Hsin Ho Rd.
|
||||
1 2 3 |
Taiwan
|
|||||
1 2 3 | Telephone Number |
886-2********
|
||||
1 2 3 | Fax Number |
886-2********
|
||||
1 2 3 |
v******@isl.com.tw
|
|||||
app s | Confidentiality (long or short term) | |||||
1 2 3 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 2 3 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
1 2 3 | Yes | |||||
1 2 3 | If so, specify the short-term confidentiality release date (MM/DD/YYYY format) | 09/01/2012 | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 2 3 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 2 3 | Equipment Class | JBP - Part 15 Class B Computing Device Peripheral | ||||
1 2 3 | DSS - Part 15 Spread Spectrum Transmitter | |||||
1 2 3 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | Skorpio X3 | ||||
1 2 3 | SKORPIOX3 Mobile Computer | |||||
1 2 3 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 2 3 | Modular Equipment Type | Does not apply | ||||
1 2 3 | Purpose / Application is for | Class II Permissive Change | ||||
1 2 3 | Original Equipment | |||||
1 2 3 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | Yes | ||||
1 2 3 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 2 3 | Grant Comments | Output Power listed is peak conducted. | ||||
1 2 3 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 2 3 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 2 3 | Firm Name |
International Standards Laboratory LT lab.
|
||||
1 2 3 |
7layers AG
|
|||||
1 2 3 | Name |
B****** C****
|
||||
1 2 3 |
R****** M****
|
|||||
1 2 3 | Telephone Number |
886-3******** Extension:
|
||||
1 2 3 |
49-21********
|
|||||
1 2 3 | Fax Number |
886-3********
|
||||
1 2 3 |
49-21********
|
|||||
1 2 3 |
b******@isl.com.tw
|
|||||
1 2 3 |
r******@7layers.de
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15B | |||||||||||||||||||||||||||||||||||||||
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
2 | 1 | 15C | CC | 2402.00000000 | 2480.00000000 | 0.0007000 | |||||||||||||||||||||||||||||||||||
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
3 | 1 | 15B | CC |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC