Single Chip Systems U519 9 Antenna InstaScan Scanner, Model U519 User Manual D Marketing Collateral U519 Ma

Single Chip Systems Corporation 9 Antenna InstaScan Scanner, Model U519 D Marketing Collateral U519 Ma

manual

INSTASCAN© SCANNER

MODEL U519

Operations Manual

SCS Corporation

10905 Technology Place, San Diego, CA 92127

Phone: 858-485-9196 • Fax: 858-485-0561

www.scs-corp.com • info@scs-corp.com

U519 Manual cover.p65 10/27/2000, 4:36 PM1

The products and programs described in this Operations Manual are

licensed products of SCS. This Operations Manual contains proprietary

information protected by copyright and this Operations Manual and all

accompanying hardware, software, and documentation are copyrighted.

SCS does not warrant that the hardware will work properly in all

environments and applications, and makes no warranty and representation,

either implied or expressed, with respect to the quality, performance, or

fitness for a particular purpose.

Information in this Operations Manual is subject to change without notice

and does not represent a commitment on the part of SCS. SCS assumes

no responsibility for incidental damage that may result do to any

inaccuracies that may be contained in this Operations Manual.

SCS makes no commitment to update or keep current the information in

this Operations Manual, and reserves the right to make changes to this

Operations Manual and/or product without notice.

No part of this manual may be reproduced or transmitted in any form or

by any means, electronic or mechanical, including photocopying, recording,

or information storage and retrieval systems, for any purpose other than

the purchaser’s personal use, without the express written permission of

SCS.

IBM is a registered trademark of International Business Machines Corporation.

MS-DOS and Windows are registered trademarks of Microsoft Corporation.

All other trademarks or registered trademarks listed belong to their respective owners.

InstaScan and Dura-label are trademarks of SCS Corporation.

Version 100612-1 Rev. A

U519 Manual cover.p65 10/27/2000, 4:36 PM2

iii

Contents

Chapter 1— Introduction .............................................. 1

Advantages .................................................................. 2

U519 InstaScan Scanner ............................................... 4

What Else You Need ..................................................... 5

Summary of Chapters .................................................... 6

Chapter 2 — Installation .............................................. 7

LEDs and Connectors .................................................... 7

Front Panel .................................................................. 8

Rear Panel ................................................................. 10

InstaScan Scanner Installation Steps .............................. 11

Connecting External Antennas ...................................... 12

Placing the Antennas ................................................... 12

Connecting to a PC Serial Port or RS-232 ...................... 13

Connecting to an AC Outlet ......................................... 14

Configuring the Scanner .............................................. 15

Aligning the Scanner ................................................... 18

Installing Dura-labels .................................................. 19

Reading Information from your Dura-labels .................... 20

Writing information to your Dura-label........................... 21

Loading Your Application ............................................. 22

Chapter 3 — RF Communications ................................. 23

Signal Interference ...................................................... 24

Signal Attenuation/Reflections ...................................... 25

Optimizing Performance .............................................. 26

U519 Manual cover.p65 10/27/2000, 4:36 PM3

Chapter 4 — Troubleshooting ...................................... 27

Solving Problems ........................................................ 27

Contacting Customer Service ....................................... 30

Returning Your System ................................................. 31

Chapter 5 — Specifications ......................................... 32

SCS Patents................................................................ 32

InstaScan Scanner Specifications .................................. 33

Chapter 6 — DB-25 Connector Function ......................... 35

Receive Antenna Select Lines ........................................ 36

Transmit Antenna Select Lines ....................................... 37

Peripheral Inputs ......................................................... 37

Peripheral Outputs ...................................................... 38

Limited Warranty ......................................................... 41

FCC Part 90 Compliance ............................................ 41

Radio Frequency exposure limits ................................... 42

Disclaimer ................................................................. 42

U519 Manual cover.p65 10/27/2000, 4:36 PM4

Chapter 1

Introduction

The U519 InstaScan scanner and the Dura-label Radio Frequency

(RF) tag developed by SCS are state-of-the-art data gathering

and inspection systems that combine sophisticated Interactive

Identification technology in a compact form factor. This unique synergy

allows our system to integrate seamlessly into — and significantly increase

productivity for — a wide range of applications and environments.

This system consists of the following components:

A scanner that is capable of writing information to and reading

information from Dura-labels using a read/write head (antenna).

The scanner conforms to FCC Part 15 specifications and can operate

with one to nine externally connected antennas.

Dura-label RF tags that contain information programmed by the

scanner. These tags are designed to store information under extremely

harsh environments without requiring a battery, and the read/write

Dura-labels can store a permanent record of multiple events and

transactions.

Communications between the scanner and the tags are conducted using

a revolutionary two-way technology that provides superior advantages

over conventional communication methods. The specific data being

communicated, and the amount of interaction you have with the scanner

and tag, are determined by your application.

U519 Manual.p65 10/27/2000, 4:35 PM1

Advantages

Data-gathering systems such as bar code readers use one-way

communication: a sensor reads information from a device, without any

interaction between the two devices.

Moreover, bar code systems are subject to line-of-sight limitations. As a

result, airborne contaminants such as dust, dirt, oil, and mist, as well as

label damage and objects residing outside the line of sight, result in

inefficient and erroneous results.

The SCS Interactive Identification System overcomes these

restrictions by using state-of-the-art technology. This technology

allows the scanner and tag to conduct ongoing two-way

communications that are not restricted by line-of-sight

constraints.

Figure 1. Interactive Identification Technology

U519 Manual.p65 10/27/2000, 4:35 PM2

This unique capability allows:

• Collective or selective data to be read from a single tag.

• Collective or selective data to be read from multiple tags without

requiring sorting or unpacking.

• Classes of tags to be filtered according to user-defined criteria.

This technology employs a superior interrogation feature that enables

applications to uniquely identify all tags in the scan field, without

misidentification or identifying the same tag multiple times.

It also uses a robust protocol that maintains a uniform per-tag scan time,

regardless of the number of tags in the scan field. The protocol provides

a flexible software application interface that can be customized to the

specific needs of particular industries and markets.

These unparalleled capabilities make our system an ideal solution for

logistics and warehousing, automatic sortation, pallet tracking, and anti-

diversion/anti-counterfeiting applications.

U519 Manual.p65 10/27/2000, 4:35 PM3

U519 InstaScan Scanner

The U519 scanner is designed for applications or configurations that

require the scanner to be a considerable distance from the tags, or where

numerous tags are required to be read simultaneously.

The scanner provides nine coaxial connectors for supporting up to nine

external antennas. Each antenna plugs into its own connector on the

rear panel of the scanner.

Figure 2.

U519 InstaScan Scanner

U519 Manual.p65 10/27/2000, 4:35 PM4

What Else You Need

To complete your system, you need an IBM or compatible personal

computer with the following minimum system requirements:

•486 processor or better

•Compatible screen and keyboard

•9-pin RS-232 port

•Windows 95 or 98

• 16 MB of RAM (32+ MB recommended)

The applications you use to interface with this system may have additional

hardware and software requirements. For more information, consult the

manual that came with your applications.

U519 Manual.p65 10/27/2000, 4:35 PM5

Summary of Chapters

Besides Chapter 1, this Operations Manual contains the following

additional chapters:

• Chapter 2, Installation – describes how to install the scanner

and tag(s)

• Chapter 3, RF Communication - provides information on radio

frequency (RF) communications

• Chapter 4, Troubleshooting – describes how to identify, resolve,

and avoid problems when using the scanner and tag. This

chapter also contains Customer Service information and

merchandise return instructions

• Chapter 5, Specifications – lists scanner specifications

• Chapter 6, DB-25 Connector Function — describes the 25-pin

connector of the U519 scanner.

U519 Manual.p65 10/27/2000, 4:35 PM6

Chapter 2

Installation

This chapter provides instructions for installing the U519 scanner

and tag(s).

LEDs and Connectors

The scanner provides the connectors and LEDs described in the follow-

ing sections and shown in Figure 3.

Figure 3. U519 InstaScan Scanner

U519 Manual.p65 10/27/2000, 4:35 PM7

Front Panel

The scanner front panel has three LEDs (as shown in Figure 4) indicating

power, activity, and transmitter ON/OFF (see Table 1 which describe

the meanings of the LEDs).

The scanner front panel has an On/Off switch.

In the ON (up) position, the scanner is turned on. The red Power

ON LED (integral to the power switch) should go ON, indicating

that the scanner is receiving power.

In the OFF (down) position, the scanner is turned off and not

receiving power, even if connected to a power outlet.

The front panel also contains three connectors. The lower connector is a

standard AC power receptacle. The power cord provided with the scanner

should be plugged into this connector and into the wall outlet. For more

information, refer to “Connecting to an AC Outlet” on page 14.

The middle connector is the 9-pin RS-232 port. The RS-232 serial port

Figure 4. U519 InstaScan Scanner

U519 Manual.p65 10/27/2000, 4:35 PM8

Table 1. U519 Scanner LED Meanings

LED Color Status

Power ON Red ON = scanner is turned on

and receiving power from

external power supply

Activity/Error Yellow Flicker = scanner detects tag

information.

Constant Flickering with no tag

in the scanning field =

(a) Noisy environment or

possible interference,

resulting in diminished tag

reading.

(b) Loose cable or bad

connector

Transmit On Green On = Scanner is transmitting

RF signals.

connector allows the scanner to communicate with a personal computer

through the PC’s serial port. For more information on making this

connection, refer to page 13.

The upper right connector is the 25-pin test connector. For more

information on this connector, refer to Chapter 6.

U519 Manual.p65 10/27/2000, 4:35 PM9

Rear Panel

The rear panel has nine coaxial connectors for connecting external

antennas. Note that the scanner can also operate with fewer than nine

antennas.

For instructions on connecting antennas to the scanner, refer to page 12.

Figure 5. U519 InstaScan Scanner

U519 Manual.p65 10/27/2000, 4:35 PM10

Scanner Installation Steps

The scanner installation consists of the following steps:

1. Position the scanner — locate near desired antenna locations.

2. Connect external antennas — see page 12.

3. Place the antenna for optimum read/write operation —

see page 12.

4. Connect the scanner to PC serial port or RS-232— see page 13.

5. Connecting to an AC outlet — see page 14.

6. Configure the scanner — see page 15.

7. Align the antenna — see page 18.

U519 Manual.p65 10/27/2000, 4:35 PM11

Connecting External Antennas

The rear panel provides nine coaxial antenna connectors. Each connector

accommodates a single external antenna. Figure 2 shows the external

antenna connections to the scanner.

IThe U519 can be used with fewer than six antennas. Install antennas

sequentially, starting with the left-most connector.

Placing the Antenna

Antenna placement is critical to ensure information is written to and read

from tags accurately. Observe the following guidelines when placing

the antenna:

Locate the antenna away from metal objects, microwave ovens, and

other devices that may induce radio frequency interference. In addition,

make sure there are no metallic surfaces between, or in relative proximity

to, the scanner and tag. For additional placement considerations,

refer to “RF Communications” on page 23.

When reading, the antenna should be placed no more than 84

inches from the objects bearing tags. When writing, the antenna

should be no more than 5 inches from objects bearing the tag.

The front of the antenna must be free of obstructions.

Otherwise, information may not be written to and read from tags

accurately.

ITags must reside within the scan field for at least 3

milliseconds for information to be retrieved from them.

U519 Manual.p65 10/27/2000, 4:35 PM12

Connecting to a PC Serial Port or RS-232

The scanner has a 9-pin female RS-232 connector that connects to a

serial port or RS-232 connector on an IBM or compatible personal

computer. The serial port can operate up to 57,600 bps.

To make this connection, you need:

An appropriately configured serial cable.

One of the following adapters, if your computer’s serial port does

not have a 9-pin connector:

-A 15-pin to 9-pin adapter, if your computer has a 15-pin serial

port connector.

-A 25-pin to 9-pin adapter, if your computer has a 25-pin serial

port connector.

These adapters are available from most computer and electronics

stores.

Use the following procedure to connect the scanner to your computer’s

serial port.

1. Attach the male connector on the serial cable to the 9-pin serial

connector on the scanner’s front panel (see Figure 3).

2. Connect the other end of the cable to your computer’s serial port.

Use an adapter, if appropriate, to make this connection.

U519 Manual.p65 10/27/2000, 4:35 PM13

Connecting to an AC Outlet

The following procedure describes how to connect the scanner to an AC

Outlet.

1. Verify that the On/Off switch on the scanner front panel is in the

OFF (down) position.

2. Connect the power cord to the AC receptacle in the scanner front

panel.

3. Connect the other end of the power cord to the wall outlet.

4. Set the On/Off switch to the ON (up) position. The Power ON LED

light will illuminate.

U519 Manual.p65 10/27/2000, 4:35 PM14

Configuring the Scanner

The following procedure will verify that the RS-232 link between the

scanner and the computer is working correctly.

1. Insert the supplied Series 5 Development and Demo Tools, Disk 1,

into an available floppy disk drive.

2. Open the “My Computer” icon on the desktop.

3. Open the floppy disk drive (typically A:).

4. Run the application “Setup.exe”

5. Installshield will launch and guide you through the installation of the

Series 5 Tools onto your computer.

6. Turn on the scanner and ensure that the antennas are connected to

the scanner. If you are using two or more antennas, connect each

antenna from left to right.

7. Select the “Series 5 Test Tool” icon in the Series 5 tools folder from

the start menu.

8. If the scanner is attached to COM1 or COM2, it will be recognized

by the application automatically. In the application dialog, you will

see the text “found scanner (rev XX.XX) on COMX”.

9. If the scanner is attached to COM3 or COM4, the application will

not recognize the scanner automatically. In the application dialog,

you will see the text “Can’t find Scanner, use Manual Connect.”

Select the appropriate COM PORT by pressing the down arrow in

the “Scanner <-> Host” frame. Hit the connect button. You should

see the text message “Connect: found scanner (revision XX.XX) on

COMX”.

IIf you receive the error message “Can’t find scanner on COMX” refer

to page 27 for troubleshooting procedures.

U519 Manual.p65 10/27/2000, 4:35 PM15

10. Look for the text “Scanner type = XXXX” in the application dialog. If

“XXXX” is not “U519”, select “U519” from the Scanner menu of the

Series 5 Test Tool application.

11. Look for the text “Mode = ...” in the application dialog. If the mode

is not “Basic Function Test”, select “Basic Function Test” from the

Mode menu of the Series 5 Test Tool application.

12. There are three tests you must run in order to confirm that the scanner

is working correctly. These are “Read Test”, “List Test”, and “Write

Test”.

13. Select “Antenna 1” button at the top of the Series 5 Scanner Test

window. Hold a tag in front of the antenna while ensuring that your

hand is not between the antenna and tag, or covering the tag antenna.

14. Position a tag within 84 inches of the antenna.

15. Click the “Read Test” button. You should see the text “- Check Read:

PASS –“ appear in the Test Results box. If the test fails, follow the

instructions given by the application.

16. Remove all tags from around the antenna and click the “List Test”

button. Wait two seconds. If the test is successful, you should see

the following text appear in the Test Results box.

“- Check List –“

“List Start: OK”

“List Stop: OK”

“List Report: OK”

“Found 0 tags:”

“Place 1 tag in the field and run test again.”

U519 Manual.p65 10/27/2000, 4:35 PM16

17. Each List Test is composed of three commands given to the scanner.

If the test is successful, all these tests should say “OK” after the test

name. The application will ask you to repeat the List Test with 1) A

single tag, and 2) two tags in front of the antenna. The test is com-

plete when the application successfully detects two tags.

18. The Write Test requires a write - capable tag. Place the tag within 24

inches of the antenna.

19. Click on the Write Test button and observe the results in the Test

Results box. If the test passes, you will see:

“- Check Write –“

“Write: OK”

20. If the test fails, follow the instructions given by the application. If you

repeatedly get the “Move tag closer to antenna” instruction, ensure

the tag is directly over the antenna and there are no objects between

the antenna and tag.

21. For each antenna that is connected to the scanner, repeat steps 13-

20 for that antenna.

22. This completes the test of the scanner.

U519 Manual.p65 10/27/2000, 4:35 PM17

Aligning the Antenna

After verifying that the scanner is operating properly, use the following

procedure to align the antenna(s). Aligning the antenna(s) ensures

optimal performance.

1. Connect the scanner to COM1 or COM2 and turn the power on.

2. Run the application “Series 5 Test Tool” in the “Series 5 Tools”

folder in the start menu.

3. From the mode menu, choose “Antenna Alignment”.

4. Select the antenna you wish to align with the available antenna

buttons. Press the “Go” button.

5. Move a tag into the “scanning area”, the point where you intend

to scan.

6. Adjust the antenna until the application indicates it detects a tag.

You can find the complete scanning field by moving the tag

around. When the application detects a tag, the window will flash

with the message “Label Found”. Press the “GO” button again to

stop the alignment test.

7. If you have other antennas connected, you can select the different

antennas by using the antenna buttons on the top of the window.

This completes the scanner installation procedure.

U519 Manual.p65 10/27/2000, 4:35 PM18

Installing Dura-labels

Dura-label RF tags have a diminutive form factor that allows them to be

installed in areas that cannot accommodate conventional RF tags.

In addition, Dura-labels can communicate with the scanner without having

to be in the line-of-sight. This unique combination provides tremendous

flexibility when determining a location for placing tags.

In textile applications, for example, tags can be inserted into the front tail

of a shirt or the waistline of pants using a heat seal patch and a heat

press. Because this system does not require line-of-sight scanning, the

tag does not have to be visible to the scanner.

When considering locations for installing tags, make sure they are within

84 inches of the scanner antenna for at least 3 milliseconds so data (16-

bit word) can be read from the tag. Avoid locations where metal or

water is present because radio-frequency communication does not

penetrate metal and is absorbed by water.

U519 Manual.p65 10/27/2000, 4:35 PM19

Reading Information from your Dura-labels

Once you have installed your tags, and have set-up your scanner sys-

tem, you are ready to begin.

1. Run the “Series 5 Demo” application in the “Series 5 Tools” folder in

the start menu.

2. The connect dialog box will appear, set COM Port to the port where

the scanner is connected, Baud Rate to the highest value supported

by your computer and cable length. Set “# of Antenna” to the

appropriate value then click the “Connect” button.

3. After a few seconds, the main SCS Demo dialog will come up. The

scanner is in List-ID mode. As you move a tag into the field in front

of the antenna, you will see the ID of that label displayed under

Label ID.

4. Try moving additional tags in front of an antenna. You can also

reset the display with the Clear button.

5. Double click on the ID of a tag to bring up detailed information

about that tag. This will bring up a tag dialog where you can see the

data in each of the memory locations of the label. Additional usage

of this dialog is described in the following section.

U519 Manual.p65 10/27/2000, 4:35 PM20

Writing Information to Your Dura-label

Read/write tags can be written to using the scanner. Each bit of memory

is write once, read many (WORM). Meaning after you have written to a

specific bit, it is permanent and cannot be overwritten or erased. To add

more data to the tag you must write to a different bit. Another feature

included with each user-writable word of memory is a Write-Protect bit.

This bit allows you to protect an entire word (16 bits) after any or all of

the bits have been written.

1. Start the Series 5 Demo application as described in the previous

section.

2. Move a tag into the field and double click on its ID to bring up the

tag dialog.

3. In the Write Protect frame, hit “Query All”. Any writeable memory

location will become editable (white), while write protected memory

locations will stay gray.

4. Move the mouse cursor over a memory location and click within that

location to edit it. Enter a new value and then hit “refresh” or move

the cursor to a different memory location and click. The application

will attempt to write the value you specified to the tag.

5. The status of the tag will be displayed in the status box at the lower

part of the screen. If the write was unsuccessful, the value in the

memory location will change back to reflect the value actually stored

there.

6. To write protect a memory location, move the cursor to a memory

location and click the “Set” button in the Write Protect section. The

memory location will change from a white background to a gray

background to show that it is now write protected.

U519 Manual.p65 10/27/2000, 4:35 PM21

Loading Your Application

After you install the Scanner and tags according to the instructions in this

chapter, you can load your application and begin writing information to

read/write tags or reading information from all tags. Your application

will determine the amount of interaction you have with the scanner and

tags.

IIf you will be developing applications designed to interface to your

system, refer to Software Development Diskette for programming

information.

7. To write to a block of memory locations, use the commands in the

block section of the window. Enter the starting memory location in

the “From” window. Enter number of memory locations in the “Length”

window. The ending memory location will be automatically calculated

in the “To:” window. Click the box to the left of the “Write” text and

enter the data in the window below the “Write” command.

8. To write protect the entire block, click the box to the left of the “Write

Protect” text.

9. To complete the block write command, select the “Perform” button.

10. To return to the List ID mode, click the “OK” button.

U519 Manual.p65 10/27/2000, 4:35 PM22

In general, devices that communicate using radio frequency, such

as your system , can be sensitive to signal interference and signal

attenuation. This chapter provides tips for optimizing radio-

frequency (RF) communications with your InstaScan and Dura-label.

Topics in this chapter include:

•Signal interference — see page 24.

•Signal attenuation — see page 25.

•Optimizing performance — see page 26.

Chapter 3

RF Communications

U519 Manual.p65 10/27/2000, 4:35 PM23

Signal Interference

Signal interference is RF signals that interfere with the information being

exchanged between the tag and the scanner. Signal interference can

severely diminish the scanner’s ability to read information from the tags.

The Activity LED on the scanner flickers constantly if it detects signal

interference.

The source of the interfering signals may be:

•An RF system, such as an RF local-area network (LAN) or another

Interactive Identification system, located close to your system.

•Security gates, garage doors, or similar devices that emit RF signals.

•Appliances such as microwave ovens.

The effects of these noise sources are localized and can be eliminated by

relocating the scanner and its antenna.

Your system’s communication capabilities are significantly reduced when

the noise level perceived by the system exceeds the strength of signals

received.

U519 Manual.p65 10/27/2000, 4:35 PM24

Signal Attenuation/Reflections

Signal attenuation is the loss of signal strength that occurs naturally

over distances, but which can also be caused by RF barriers in the

signal path.

Examples of such barriers include:

•Enclosed locations that have concrete walls, floors, and ceilings.

•Metal surfaces surrounding the antenna or tag.

•Water or other fluids surrounding the antenna or tag.

Almost every object (furniture and partitions) in the path of a signal causes

some degree of attenuation. The effects can be minimized by careful

antenna placement.

The reflection from metal or metallic surfaces behind the tag can also

affect signal attenuation. In some cases, this may increase the read

distance slightly, while inducing intermittent “dead” spots within the read

field that permit little or no communication between the scanner and

tag.

U519 Manual.p65 10/27/2000, 4:35 PM25

Optimizing Performance

While it is not possible to predict how your system will perform in any

given environment, observing the following guidelines will help optimize

performance in your environments and applications:

Carefully plan the placement of the scanner antennas. The antennas

can be extended approximately ten feet from the scanner, depending

on cable length purchased for the application. If your application

requires7 longer distances, move the scanner to an appropriate

location.

IThe scanner antennas should never be disassembled, altered, or

modified except by an authorized technician. Any unauthorized

antenna modifications can void your warranty.

Consider the environment’s RF characteristics, including construction

materials, office plan (closed or open), and the presence of windows

and ducting. The RF field pattern, and the reading distance, may be

influenced by nearby metal objects, such as appliances, equipment,

metal wall framing, and wire coat hangers.

Ensure that objects containing tags are no more than 18 inches

from the antenna and remain in the scan field for at least 3

milliseconds.

To avoid mutual interference when installing more than one tag in

the same object, allow a sufficient distance between the tags. The

maximum interference occurs when tags within the same object are

within two inches of each other and nearly equidistant from a scanner

antenna.

Never apply chemicals to the tags. Certain chemicals, such as

alcohol, may have little or no effect at room temperature, but may

become corrosive at higher temperatures.

U519 Manual.p65 10/27/2000, 4:35 PM26

This chapter provides troubleshooting information you can use in

the unlikely event you have a problem with your system. Customer

Service information and merchandise return instructions are included

in this chapter.

Solving Problems

The following table identifies scanner and tag problems and provides

suggestions for resolving the problem.

Chapter 4

Troubleshooting

Problem Probable Cause Solution

The Power ON LED does

not light when you turn

on the scanner

The AC outlet may

not be working.

Plug another electrical

appliance, such as a

lamp, into the outlet and

turn it on. If the

appliance does not work,

plug the scanner into a

different outlet.

The AC outlet may be

controlled by a wall

switch.

Set the wall switch to

provide AC power to the

outlet, or use an outlet to

be controlled by a switch.

Table 2. Problem Solving

U519 Manual.p65 10/27/2000, 4:35 PM27

Problem Probable Cause Solution

The Activity/Error LED

does not light hen you

configure the scanner.

You may have a faulty

tag.

Try another tag.

The scanner may be

faulty.

Use the Series 5 Test

utilities to verify scanner

operation (see

"Configuring the Scanner"

on page 15)

The antenna cable may

be faulty.

Contact SCS Customer

Service (see page 30).

You receive an error

message when

configuring the scanner.

The scanner may not be

turned on.

Verify that the Power ON

LED is lit.

The scanner’s serial port

connection to your

computer may not be

secure.

Verify the scanner-to-

serial port connection. If

you are using a serial

port adapter, make sure

the adapter connections

are secure.

The Series 5 Test

programs are accesing a

different a different Com

Port than the one

connected.

Switch the serial cable to

Com Port 1 or set the

Com Port being used.

U519 Manual.p65 10/27/2000, 4:35 PM28

Problem Probable Cause Solution

Information could not be

read from the tag.

The tag may be outside of

the scanning area.

Make sure the tag is no

more than 84 inches from

the scanner.

The tag may have passed

too quickly past the

scanner.

Make sure the tag is in

the scanning area for at

least 3 milliseconds.

No RF Power The supplied SCS

Diagnostic tag may be

used to verify that the

scanner is transmitting RF

power. When held within

a few inches of the

transmit antenna, the LED

on the Diagnostic tag will

glow Red, indicating the

presence of the RF field.

Same as above, but

the Activity/Error LED

flickers constantly.

RF Interference is

disrupting scanner-to-tag

communications.

See “Chapter 3-RF

Communications” for

suggestions on improving

communications.

U519 Manual.p65 10/27/2000, 4:35 PM29

Contacting Customer Service

If you encounter a problem using your system that you cannot resolve,

contact Customer Service:

Before contacting CUSTOMER SERVICE, please have the following

information available:

1. InstaScan Scanner Information:

•InstaScan Model Number

•Serial Number, located on the bottom of scanner

•Any modifications made to the scanner or tags

•Location where system is installed

2. Computer Information:

•Computer Brand and Model number

•Processor speed and available RAM

•COM Port used

SCS Support (858) 485-9196

8:00 a.m. – 5:00 p.m. PST

Email – techsupport@SCS-Corp.com

U519 Manual.p65 10/27/2000, 4:35 PM30

Returning Your System

If SCS Customer Service determines you need to return your system for

service, the Service Representative will give you a Return Merchandise

Authorization (RMA). Write this number on the outside of the box containing

the returned system, and on a slip of paper inside the box, so your return

can be processed quickly.

Return only your scanner, antenna, cable, and adapter. Do not return

accessories, such as the Diagnostic Label or the diskette containing the

Scanner configuration program.

Follow these steps to return your scanner and accessories for service:

1. Carefully pack your scanner and accessories in the original static-

protected bubble wrap and container. If you no longer have the

original container, use a protected box.

2. Use filler material to cover the items in the box.

3. Add a note with the RMA number inside the package.

4. Write the RMA number and the word FRAGILE on the outside of the

package in large, legible writing.

5. Address the package to:

SCS Corporation

10905 Technology Place

San Diego, CA 92127

ATTN: RMA # __________________ (indicate your RMA number here)

U519 Manual.p65 10/27/2000, 4:35 PM31

SCS Patents

SCS Corporation is currently holding the following patents. Other

patents outstanding.

•#4,424,579

•#4,442,507

•#4,933,735

•#5,148,256

•#5,296,722

•#5,407,851

•#5,496,763

•#4,796,074

•#5,095,362

•#5,583,819

•#5,686,341

•#5,856,788

•#5,963,144

Chapter 5

Specifications

U519 Manual.p65 10/27/2000, 4:35 PM32

U519 Scanner Specifications

LEDs: One Power ON LED, one Transmit ON

LED, and one Activity/Error LED

Communication Method:RS-232

Serial transmission rate:Up to 57,600 bps

Connector: Female DB-9F for RS-232

communications

One DB-25 for diagnostic use

Pin assignments: (DB9F) Pin 1 – Not used

Pin 2 - Transmit Data (Input)

Pin 3 - Receive Data (Output)

Pin 4 - Internally connected to Pin 6

Pin 5 - Protective Ground

Pin 6 - Internally connected to Pin 4

Pin 7 - Internally connected to Pin 8

Pin 8 - Internally connected to Pin 7

Pin 9 - Protective Ground

Power jack: Internal Power Module, External

Power cable

RF Output Power: 1 Watts

Power Consumption: 15 watts

U519 Manual.p65 10/27/2000, 4:35 PM33

Ambient operating

temprature: 0° to 50° C (32° to 122° F)

Approved Standards: FCC Part 15

Maximum serial

cable length: 10 meters (30 Feet)

Dimensions: 36 cm x 20 cm x 11 cm

(14 in x 8 in x 4.5 in)

Weight: 3 Kg (7 lbs.)

U519 Manual.p65 10/27/2000, 4:35 PM34

Pin #

Name Function

1 GND Ground

2 BUFCOMP Digital test signal: output of receiver comparator

3 GND Ground

4 PER_IN2 Peripheral input bit 2

5 PER_IN0 Peripheral input bit 0

6 PER_OUT6 Peripheral output bit 6

7 PER_OUT4 Peripheral output bit 4

8 TX_ASEL5 Transmit antenna select bit 5

9 TX_ASEL3 Transmit antenna select bit 3

10 TX_ASEL1 Transmit antenna select bit 1

11 RX-ASEL5 Receive antenna select bit 5

12 RX-ASEL3 Receive antenna select bit 3

13 RX_ASEL1 Receive antenna select bit 1

14 VCC +5 volts

15 BUFCOMPIN

Analog test signal: input to receiver comparator

Chapter 6

DB-25 Connector Function

Table 3. Pin assignments: (DB-25)

U519 Manual.p65 10/27/2000, 4:35 PM35

Pin #

Name Function

16 PER_IN3 Peripheral input bit 3

17 PER_IN1 Peripheral input bit 1

18 BLANK Digital test signal: blanking signal

19 PER_OUT5 Peripheral output bit 5

20 PER_OUT3 Peripheral output bit 3

21 TX_ASEL4 Transmit antenna select bit 4

22 TX_ASEL2 Transmit antenna select bit 2

23 GND Ground

24 RX_ASEL4 Receive antenna select bit 4

25 RX-ASEL2 Receive antenna select bit 2

Receive Antenna Select Lines

Pins 13, 25, 12, 24, and 11 are the high order bits of the hardware

pins that select the receive antenna. Bit 0 is kept internal to the

interrogator. These lines are used to drive external multiplexers for

multi-antenna systems. They are controlled by:

1. Setting up the antenna select table in flash memory (if necessary)

using Load Antenna Table command.

2. Issue the Set Antenna Quantity command.

3. Default mode automatically cycles through all antennas. The

interrogator will freeze at a certain antenna selection by issuing

the Select Receive Antenna command.

U519 Manual.p65 10/27/2000, 4:35 PM36

Transmit Antenna Select Lines

Pins 10, 22, 9, 21, and 8 are the high order bits of the hardware pins

that select the transmit antenna. Bit 0 is kept internal to the interroga-

tor. These lines are used to drive external multiplexers for multi-

antenna systems. They are controlled by:

1. Setting up the antenna select table in flash memory (if necessary)

using Load Antenna Table command.

2. Issue the Set Antenna Quantity command.

3. Default mode automatically cycles through all antennas. The

interrogator will freeze at a certain antenna selection by issuing

the Select Transmit Antenna command.

Peripheral Inputs

Pins 5, 17, 4, and 16 are TTL level inputs that can be read with the

Read Peripheral Inputs command.

* Note: VCC is nominally 5.0 volts.

Table 4. Input Characteristics

Description Min. Max. Units

Input high level voltage 2.0 VCC* Volts

Input low level voltage 0 0.8 Volts

Input signal transition

time

250 nS

Input leakage current -10 +10 µA

Input capacitance 10 pF

U519 Manual.p65 10/27/2000, 4:35 PM37

Peripheral Outputs

There are 8 peripheral outputs internal to the interrogator. 4 of these are

available at the DB-25 connector: pins 20, 7, 19, and 6 can be controlled

by setting or resetting bits, 3, 4, 5 and/or 6 of the command data byte of

the Write Peripheral Outputs command. The outputs are compatible

with CMOS levels.

Table 5. Output Characteristics

*Note: VCC Min. is 4.75 volts, VCC is nominally 5.0 volts.

Description Min. Max. Units

High level output voltage @IOutputHigh

= 1.0 mA, VCC* Min.

VCC* – 0.5 Volts

Low level output voltage @IOutputHigh

= 12.0 mA, VCC* Min.

.4 Volts

Source current -1.0 mA

Sink current 12.0 mA

Ouput leakage current -10 +10 µA

U519 Manual.p65 10/27/2000, 4:35 PM38

Buffered Comparator Input (BUFCOMPIN)

This is the analog output of the RF receiver. The pin must remain

unconnected, or deterioration of read capability will occur.

Buffered Comparator (BUFCOMP)

This is the digitized output of the RF receiver.

Receiver blanking signal (BLANK)

When low, the microcontroller is ignoring the output from the RF

receiver.

VCC

This is the 5.0 V regulated power for the interrogator. It should only be

used as a reference. Current drawn in excess of 50 mA may cause the

system to shut down.

U519 Manual.p65 10/27/2000, 4:35 PM39

Limited Warranty

SCS warrants its Dura-label to be free from defects in workmanship and materials, under

normal use and service, for a period of ninety (90) days from receipt of products.

SCS warrants its Scanner to be free from defects in workmanship and materials, under

normal use and service, for a period of 1 year from date of receipt.

If a product does not operate as warranted during its applicable warranty period, SCS

shall, at its option, repair the defective product or deliver to Customer an equivalent

product to replace the defective item. All products that are replaced shall become the

property of SCS. Replacement products may be new or reconditioned. The warranty for

replacement or reconditioned product is the same as the equivalent newly purchased

product.

SCS reserves the right to refuse to warranty repair any product that has been subjected to

any abnormal electrical, mechanical, or environmental abuse.

FCC Part 15 Compliance

The FCC has established rules that permit the scanner and tag system to be used within

acceptable bounds of radio frequency emissions. Your scanner and tag system complies

with Part 15 of the FCC Rules.

Operation of the Scanner and Label system is subject to the following conditions: This

device may not cause harmful interference; This device may accept any interference

received, including interference that may cause undesired operation.

This device complies with the limits for a Class B digital device, pursuant to Part 15. The

Class B limits help ensure that this device provides reasonable protection against

harmful interference in residential installation. This equipment generates, uses, and can

radiate radio frequency energy and, if not installed and used in accordance with the

instructions in this manual, may cause harmful interference to radio communications.

U519 Manual.p65 10/27/2000, 4:35 PM40

Radio Frequency (RF) exposure limits

for operators of this device

Operators of this device must have knowledge of their RF exposure conditions in order

for the device to comply with FCC-adopted RF exposure limits for persons in the

“controlled exposure environment”. The average RF exposure for operators is 5.0 mW/

cm2, which requires them to maintain an estimated separation distance of 8 cm or 3”

from the transmitter, while in operation. They should not remain closer than the

suggested distance for any continuous 6 minute interval. Holding “Tags” in front of the

transmitter for brief moments, at closer than 3” is allowed provided the average

exposure in any 6 minute interval is less than 5.0 mW/cm2. For example, if an operator

spends 50% of the time with his/her hands or body closer than 3” to the transmitter

while spending the other 50% of the time at more than 5” away, the allowed RF

exposure limits will be satisfied. Operators should use their own judgment to limit their

exposure to the allowed RF exposure limits with control of exposure conditions,

separation distance from the transmitter, and duration of exposure. While this device is

in operation, nearby persons who have no knowledge of being in the RF fields of this

device should be at least 7” away from the transmitter in order for this devise to be

compliant with the FCC-adopted RF exposure limits.

Disclaimer

Operation of any radio transmitting equipment, including the Scanner, may interfere with

the functionality of inadequately protected medical devices. Consult a physician or the

manufacturer of the medical device if you have any questions. Other electronic

equipment may also be subject to interference.

SCS Support (858) 485-9196

8:00 a.m. – 5:00 p.m. PST

Email – techsupport@SCS-Corp.com

U519 Manual.p65 10/27/2000, 4:35 PM41

U519 Manual.p65 10/27/2000, 4:35 PM42

Single Chip Systems U519 9 Antenna InstaScan Scanner, Model U519 User Manual D Marketing Collateral U519 Ma

Single Chip Systems Corporation 9 Antenna InstaScan Scanner, Model U519 D Marketing Collateral U519 Ma

Contents

manual

Navigation menu

Namespaces

Views

Navigation