PSC Scanners User Manual To The Ff82d25b 5f67 4956 B4f1 Fc4cd2e2969c

User Manual: PSC Scanners to the manual

Open the PDF directly: View PDF PDF.
Page Count: 1

User’s / Programming Guide
Handheld Laser Bar Code Scanners
Keyboard Wedge /
Wand Emulation Interface
PSC INC.
Bar Code
S
If you have any questions or need assistance after reading this
manual, please contact PSC Customer Service at:
PSC Inc.
675 Basket Road
P.O. Box 448
Webster, New York 14580-0448
Telephone: 716-265-1600
800-828-6489
Fax: 716-265-6400
The descriptions and specifications herein were in effect at the time
of manual production. Every effort was made to make the informa-
tion complete and correct.
No part of this manual may be reproduced or utilized in any form or
by any means, electronic or mechanical, including photocopying or
electronic transmission, or other means of reproduction or distribu-
tion without prior written consent of PSC Inc.
The drawings, specifications and other technical information con-
tained in this manual are the property of PSC Inc. and shall not be
copied, reproduced or used in any way; in whole or in part, as the
basis of manufacture or sale of similar items without the prior writ-
ten consent of PSC Inc.
The information contained in this manual is subject to change with-
out notice.
PSC, the PSC logo and AutoSense are registered trademarks and
QuickScan is a trademark of PSC Inc.
©2000 PSC Inc. All rights reserved.
Scanners discussed in this manual are covered by patents issues or
pending in the U.S. and other countries.
NOTICE
The scanner is certified to be a Class II laser product
with the United States Department of Health and Human
Services Center for Devices and Radiological Health.
NOTICE
The scanner, as a component, has been tested for com-
pliance with the EMI requirements of the United States
Federal Communications Commission Part 15, Sub-Part
J, Class A. Original equipment manufacturers (OEMs) are
responsible for testing the scanner with their equipment
to ensure system compliance with FCC requirements.
THIS APPARATUS COMPLIES WITH THE CLASS "A" LIMITS FOR
RADIO INTERFERENCE AS SPECIFIED IN THE CANADIAN
DEPARTMENT OF COMMUNICATIONS RADIO INTERFERENCE
REGULATIONS.
CET APPAREIL EST CONFORME AUX NORMES CLASS "A"
D’INTERFERENCE RADIO TEL QUE SPECIFIER PAR LE MINIS-
TERE CANADIEN DES COMMUNICATIONS DANS LES REGLE-
MENTS D’INTERFERENCE RADIO.
iUsers / Programming Guide
Table of Contents
Introduction...................................................................................... 1
Keyboard Wedge Mode........................................................ 1
Serial Communications Mode............................................... 1
AutoSens Mode ............................................................... 1
Wand Emulation Mode ......................................................... 1
Magnetic Stripe Reader........................................................ 1
Unpacking ........................................................................................ 2
Installation ........................................................................................2
Keyboard Wedge ........................................................................ 2
Cable Installation .................................................................. 2
Connecting the Power Supply .............................................. 3
Connecting a Magnetic Stripe Reader.................................. 3
Terminal Power-Up Sequence ............................................. 3
Serial Communications ............................................................... 4
Serial TTL Mode ................................................................... 4
Serial RS232 Mode .............................................................. 4
AutoSense® Operation ............................................................... 5
Wand Emulation Operation .........................................................7
Setup Overview................................................................................ 8
Wedge Mode Options........................................................... 8
Wand Emulation Options...................................................... 8
Serial Communication and Wedge Options.......................... 9
Symbologies ....................................................................... 10
Parameters Selection Guidelines................................................. 11
Examples............................................................................ 11
Serial Communication............................................................... 13
Reset Default...................................................................... 13
Baud Rate........................................................................... 13
Data Transmission.............................................................. 14
Communications Protocol................................................... 16
Label Buffering ................................................................... 19
No Read Option.................................................................. 19
Menu Commands Parameter Messages ............................ 20
External Trigger Operation ................................................. 20
General Parameters .......................................................................21
Intercharacter Delay ........................................................... 21
Transmission Mode ............................................................ 22
06656 ii
System Status .................................................................... 22
Power Consumption........................................................... 23
Laser Redundancy ............................................................. 23
Laser Timeout .................................................................... 24
Beeper Operation............................................................... 24
Message Formatting .................................................................... 25
Prefixes and Suffixes................................................................ 25
Prefix .................................................................................. 26
Suffix .................................................................................. 26
Code Identifier.................................................................... 28
Preamble or Postamble Selection...................................... 29
Preamble............................................................................ 29
Postamble .......................................................................... 29
Serial Commands.......................................................................... 31
General Serial Command Format ............................................. 31
ACK/NAK ........................................................................... 31
Beeper Off CR-LF Ack ....................................................... 32
Power Standby and Serial Commands .............................. 33
Communication Parameter Changes ................................. 33
Manual Scanning Interaction.............................................. 33
Keyboard Wedge Parameters ...................................................... 34
Symbologies 38
UPC (A and E) .......................................................................... 38
EAN/JAN .................................................................................. 42
Code 39 .................................................................................... 44
Code 2 of 5 Interleaved ......................................................... 46
Code 2 of 5 Standard ............................................................ 47
Code 128 .................................................................................. 48
MSI/Plessey.............................................................................. 50
Code 11 .................................................................................... 50
Code 93 .................................................................................... 51
16K ........................................................................................... 52
Digit Selection........................................................................... 53
Symbology Identifiers ............................................................... 54
Wand Emulation Parameters ....................................................... 58
Select Code Type ..................................................................... 58
Bar Code Polarity ..................................................................... 58
Transmission Rate .................................................................... 58
Data Synchronization ............................................................... 60
iii Users / Programming Guide
Memory Module ............................................................................. 62
Setup......................................................................................... 63
Marker Beam .................................................................................. 64
Scanner Labeling........................................................................... 66
Service and Warranty ......................................................... 66
Maintenance ............................................................................. 67
Cleaning ....................................................................................67
Inspection ..................................................................................67
Appendix A .....................................................................................69
Hexadecimal Conversion Tables ........................................ 69
Primary Function Key Table ............................................... 72
Secondary Function Key Tables......................................... 73
06656 1
Introduction
Keyboard Wedge Mode
As a keyboard wedge interface, the PSC scanner can be used with ter-
minals provided by most of the major terminal manufacturers. In
most cases, the PSC scanner is easily connected between the key-
board and display of the terminal. The use of Preamble/Postamble,
embedded keyboard function codes or keyboard function records
allow operation of the terminal without manual entry from the key-
board. In this mode of operations, the PSC scanner draws power from
the terminal.
Serial Communications Mode
The PSC scanner can be configured by the user for a serial communi-
cation output. In this mode, the scanner can be connected to any
device that accepts serial ASCII data at TTL voltage levels. RS232
voltage levels can be achieved by the use of an optional RS232 con-
version pod.
AutoSense® Mode
The PSC scanner may be configured at the factory with PSC’s
AutoSense® feature. AutoSense® operates with a passive stand for
hands-free operation. When the scanner is placed in the stand, it
becomes immediately active for reading any bar code label presented
to it. The user can remove the scanner from the AutoSense® Stand
and use it as a conventional hand-held scanner. When replaced in the
stand, the scanner reverts automatically to AutoSense®.
Wand Emulation Mode
The PSC scanner can be configured by the user for Wand Emulation.
In this mode, the PSC scanner can be connected to any device that
accepts a wand signal input. Wand Emulation communication pre-
sents bar code data to a host device exactly as a wand does. This pre-
cludes the use of any option which adds information to the bar code
symbol data (preamble, for example). A typical example of this
would be to interface the scanner to a portable data terminal for
remote data collection.
Magnetic Stripe Reader
Magnetic stripe reading capabilities are available with appropriate
cabling.
2Users / Programming Guide
Unpacking
Your package should include a scanner, interface cable, Users Man-
ual, and a plastic scanner holder.
The unit should be inspected immediately upon receipt to determine
if any damage has occurred during shipment. If damage has
occurred, a claim should be filed with the carrier immediately.
Retain the shipping box, since it should be used to return the scanner
to the factory for service. Installation
Keyboard Wedge
In Keyboard Wedge mode the PSC scanner simulates keyboard key-
strokes. Whether a person has pressed a key on the keyboard or data
has been transmitted from the scanner is indistinguishable by the
host device. When the PSC scanner is not transmitting data to the ter-
minal the keyboard operates as if the PSC scanner was not attached.
Installation of the PSC scanner should be completed by a user who is
familiar with installing computer systems and cabling.
Cable Installation
1. Turn off power to the terminal to which the PSC scanner will
be connected.
2. Verify that you received the correct cabling. The cable sup-
plied for keyboard wedge installation is referred to as a Y
cable.
3. Connect the modular plug to the PSC scanner. Insert plug
into the rectangular opening in the bottom of the scanner
handle.
4. Unplug the keyboard from the terminal and replug the key-
board into the short leg of the Y cable that mates with it.
5. Plug the remaining long leg of the Y cable into the terminal
where the keyboard was connected.
6. Arrange the fully connected unit so that all cables run freely.
06656 3
Connecting the Power Supply
If supplied, plug the connector from the external power supply into
the receptacle located on the housing connector. Then plug the power
supply into a power source.
Connecting a Magnetic Stripe Reader
If a detached Magnetic Stripe Reader (MSR) is to be used, plug the
connector into the MSR receptacle located on the housing connector.
Terminal Power-Up Sequence
Turn on the power to the terminal to which the PSC scanner is con-
nected. The unit will issue a series of beeps which are intentional and
indicate that the terminal/keyboard power-on reset routines have
been completed.
Programming for Terminal Type
Proceed as follows:
1. Using the Keyboard Wedge Parameters menu given in the
Keyboard Wedge Parameters Section scan:
WEDGE MODE ENABLE (CE)
This sets the PSC scanner into a Keyboard Wedge interface
mode.
2. Select the terminal type by next scanning the appropriate
symbol for your terminal.
NOTE
If this is a first-time installation, it is NECESSARY to pro-
gram the PSC scanner for use with the connected termi-
nal.
NOTE
Scanning Reset to Default (ZA) will cause the PSC scan-
ner to revert to Keyboard Wedge mode with a PC-AT termi-
nal type.
4Users / Programming Guide
Serial Communications
The PSC scanner provides the user with two different serial commu-
nications options: Serial TTL and Serial RS232 communications.
Serial TTL Mode
Serial TTL is a serial communications interface that uses TTL/CMOS
voltage levels ranging from 0 to 5 volts. The user can select a nor-
mally high (default setting) or normally low (inverted) voltage levels.
Serial TTL communications mode uses different cables than those
used in keyboard wedge applications. To configure the PSC scanner
in a Serial TTL mode, the user must have the appropriate cable with
the correct signal pinouts in order to interface the scanner to the host
terminal. To program the PSC for Serial TTL communications, the
user must first identify the serial communications parameters sup-
ported by the host terminal. Typical parameters are the baud rate,
parity and number of bits in the data word. These parameters are dis-
cussed in the section on Serial Communication Parameters. The PSC
scanner has the added versatility to enable the user to select the qui-
escent voltage levels for interfacing with terminals that require
inverted signals.
Serial RS232 Mode
The PSC scanner can also be used in an RS232 environment by con-
verting the serial TTL voltage levels to RS232 voltage levels. For this
installation, the user needs an optional cable, an adapter pod, and a
power supply.
When the PSC scanner is operated with the RS232 adapter pod, the
same serial communications parameters apply as those used in a
serial TTL environment. The only difference is that the RS232 adapter
pod inverts the polarity of all the signals passing through it. There-
fore, the user needs to program the scanner for serial communication,
normal polarity (symbol CA). RS232 levels are available only in full
continuous power mode.
06656 5
AutoSense® Operation
AutoSense® is a factory installed feature requested at time of order. It
provides for hands-free or handheld operation. AutoSense® is acti-
vated by scanning the Enable AutoSense® symbol. The scanner will
respond by emitting a continuous, low level red beam of light known
as the trigger beam. AutoSense® is deactivated by scanning the Dis-
able AutoSense® symbol.
When the AutoSense® feature is used with PSCs AutoSense® stand
(specifically designed for standard and HP scanners), the user must
first attach the plastic scanner holder to the bracket of the stand as
shown in Figure 1, next page. The scanner is then mounted into the
holder. Insure that the trigger beam is aimed at the reflective tape
affixed to the stand. AutoSense® is now ready to automatically scan
bar code labels presented to it. When the trigger beam is broken by
the bar code label, the scan beam will automatically engage and
decode the bar code symbol. Any time the scan beam disappears,
whether by a decode or by a scan beam timeout, the automatic trigger
must be re-enabled by allowing the trigger beam to sense the reflec-
tive tape.
While AutoSense® is activated, the user is able to remove the scanner
from its holder and use it for handheld scanning operation. When the
scanner is removed from the AutoSense® holder, the trigger beam
will be broken and the scan beam will automatically be engaged. If
the scanner does not decode a bar code symbol, the scanning beam
will turn off after two to six seconds. Scanning is re-initiated by man-
ually pulling the trigger. When the scanner is replaced into the holder
AutoSense® will be automatically re-engaged when the trigger beam
senses the reflective tape.
NOTE
When the scanner is powered from a battery, such as in a
hand-held terminal, AutoSense® should be disabled. In a
battery powered application, the user is strongly recom-
mended to use the power conservation feature of scan-
ner operation. Power conservation reduces power draw
from the battery between scans to extremely low levels.
AutoSense® will function only in full power mode.
6Users / Programming Guide
NO Enable AutoSense®
NN Disable AutoSense®
To use this mode of operation properly, the user must first attach the
plastic scanner holder to the bracket of the stand as shown in
Figure 1. The (NO) Enable AutoSense® programming symbol is
scanned until the green Good Decode light blinks. This will acti-
vate the trigger screen. The scanner is then placed into the holder and
the user must check that the red laser beam is aimed at the reflective
label affixed to the stand. The AutoSense® is now ready to read labels
presented to it.
Figure 1. The PSC AutoSense® Stand
a. Riser sub-assembly d. Reflective tape
b. Scanner holder e. Stand base
c. Scanner
06656 7
Wand Emulation Operation
To operate the PSC scanner in Wand Emulation the user must first
turn off the powerto the host device and then detach the scanner from
the host device by removing the cable from the scanner.
The proper Wand Emulation cable must be connected between the
scanner and the portable data terminal for remote data collection. If
using an optional Smart Cable, the scanner automatically switches to
Wand Emulation. Specific Wand Emulation parameters may still
need to be set. If using a cable without Smart Cable switching, the
user must then configure the scanner to its Wand Emulation mode by
scanning the symbol CC.
CC Same Code Wand Emulation
This symbol activates the following default parameters:
Code Type = Same Code Wand Emulation
Code type, bar code polarity, and transmission rate can each be set for
Wand Emulation. Menu symbols for these parameters are found in
the section on Wand Emulation Parameters.
When the user with a Smart Cable again connects to the host device,
the scanner will automatically revert to the original communication
mode. Without Smart Cable, scan the appropriate programming
symbol.
CE Enable Wedge
CA Enable Serial Mode
8Users / Programming Guide
Setup Overview
General setup parameters are divided into Keyboard Wedge options
(communication to host through the terminal keyboard), Wand Emu-
lation options (communication between the scanner and the host sys-
tems decoder), and Serial Communication options (communications
direct to the host system).
Default options are denoted throughout the manual as follows:
Keyboard Wedge @
Wand Emulation #
Serial Communication *
Wedge Mode Options
Several wedge mode options are available. Consult the Keyboard
Wedge Parameters section for a complete list.
Wand Emulation Options
The available wand emulation options, listed below, are found in the
section Wand Emulation Parameters.
Bar Code Polarity
Black High
White High
Transmitted Code Type
Same Code Wand Emulation
Converted to Code 39 (full ASCII)
Simulated Scan Rate
5 inches per second
10 inches per second
15 inches per second
20 inches per second
50 inches per second
70 inches per second
06656 9
Data Synchronization
Disable Data Synchronization
Enable Data Synchronization
Active Polarity High
Active Polarity Low
Serial Communication and Wedge Options
The following communication options are used to define how your
PSC scanner communicates with the host system through its serial
interface or its keyboard wedge interface.
A message transmitted from the scanner upon a successful decode
has the following format:
Some of these attributes, e.g., prefix, preamble, etc., may not be
required or may vary from one host system to another. The parameter
selection process allows you to tailor these elements for the particular
requirements of your host system. You may also program an inter-
character delay to prevent data overrun problems with your host ter-
minal.
Options specific to serial communications are:
Baud Rate Protocol
Parity Inverted Serial
Stop Bits External Trigger
Word Length Buffering Level
Each of these options is discussed in greater detail in the section on
Serial Communication Parameters.
Prefix Terminal
ID Preamble Code ID Data Postamble Suffix
10 Users / Programming Guide
Symbologies
The bar codes that can be read by PSCs bar code scanners include:
Code 39 Code 93
Interleaved 2 of 5 Code 128
Standard 2 of 5 Codabar
UPC-A, UPC-E Code 11
EAN/JAN MSI/Plessey
A complete list of the related options and the instructions for setting
them are provided in the section on Symbologies.
NOTE
Scanning problems are most often caused by poor quality
bar code symbols. If scanning problems arise, test your bar
code system using the high quality bar code test symbols
supplied in this manual or contact your PSC Customer Ser-
vice representative.
06656 11
Parameters Selection Guidelines
Three basic steps must be followed when selecting parameters for
your scanner.
1. Review this manual to be sure you understand the
terminology.
2. Review the requirements of your host system, with a techni-
cal expert from your company, if necessary. This will enable
you to determine if any of the factory default settings must
be altered.
3. Enable or disable the relevant parameters by scanning the
appropriate menus. This operation is described in more
detail in the following example.
Examples
Assume that the beeper volume is too loud at its default setting. To
change the beeper volume from its default value of loud to a setting
of low, locate the beeper volume bar code menu in the General
Parameters section. Then scan the label to the left of Beeper On, Vol-
ume Low. The correct label is reproduced below.
AB Beeper On; Volume Low
A successful scan is indicated by two short-high beeps. An unsuc-
cessful scan produces no beeps and requires you to rescan the Beeper
On; Volume Low bar code.
Most parameters are modified in this way, and you may resume nor-
mal bar code scanning when no further modifications are desired.
Some parameters require multiple scans to modify a setting; for
example, Intercharacter Delay. If you wish to set this parameter to 5
milliseconds (msec.):
NOTE
When enabling or disabling a parameter, be sure the scanner
beam illuminates only one bar code symbol at a time. The
layout of this manual minimizes accidental multiple-label
scanning.
12 Users / Programming Guide
1. Scan the bar code beside Intercharacter Delay = XX and lis-
ten for one short-high beep.
2. After the beep, scan the bar code beside 0 on the Digit Selec-
tion page and listen for one short-high beep.
3. Still at the Digit Selection page, scan the bar code for 5 (the
last argument in the command) and listen for two short
beeps.
Your PSC scanner does not have a distinct programming mode.
Instead, it automatically recognizes and reacts to the labels you scan.
If, for example, you scan INTERCHARACTER DELAY = XX and
then scan a normal data label, a normal tone is emitted in response to
the data label, and the programming command is ignored. No special
exit code is required to resume normal operations.
06656 13
Serial Communication
Reset Default
To program the communication mode for serial asynchronous com-
munication, scan the following label:
CA Select Serial Output
Baud Rate
There are seven standard serial communication baud rates to select
from. Your scanner and the serial host computer must be set to the
same baud rate. Select the correct rate.
DA Baud Rate = 300 Baud
DB Baud Rate = 600 Baud
DC Baud Rate = 1200 Baud
DD Baud Rate = 2400 Baud
DE Baud Rate = 4800 Baud
DF Baud Rate = 9600 Baud *
DG Baud Rate = 19200 Baud
14 Users / Programming Guide
Data Transmission
Serial transmission data is composed of three of four different ele-
ments, depending upon host system requirements. These elements
are the START bit, DATA bits (7 or 8 bits), OPTIONAL PARITY bits,
and STOP bit (s) (1 or 2 bits).
The PARITY bit is used for error detection (e.g., data altered in trans-
mission), but is not required by all systems. A parity bit, if required,
will be in one of the following four formats:
If your system requires a WORD length of 7 bits, one or two STOP
bits, and a PARITY check, select the appropriate option from Table 1.
Table 1. 7 Bit Options
Data Stop
Bits Parity Option
71Odd ED
71Even EC
71Mark EB
71SpaceEA*
72Odd EH
72Even EG
06656 15
If your system requires a WORD length of 8 bits, 1 or 2 STOP bits, and
PARITY check, select the appropriate option from the table below:
72Mark EF
72SpaceEE
Table 2. 8 Bit Options
Data Stop
Bits Parity Option
81Odd EL
81Even EK
81Mark EJ
81SpaceEI
Table 1. 7 Bit Options
Data Stop
Bits Parity Option
16 Users / Programming Guide
If your system requires a WORD length of 8 bits and 1 or 2 STOP bits,
but no PARITY, select the option below:
PARITY check is not possible with this combination of STOP bits and
WORD length.
Some receiving equipment requires inverted serial communication
signals.
CD Inverted Serial Communications
Communications Protocol
XON/XOFF
Protocol controls data flow between your PSC scanner and a serial
host computer. If Protocol = XON/XOFF is selected, the scanner rec-
ognizes the ASCII XON/XOFF characters. The host may then stop
transmission with XOFF and resume with XON.
Controlled data flow is achieved between devices when the receiving
device sends ASCII XON/XOFF codes to the transmitting device. In
other words, when the receiving device is unable to accept data, it
sends on XOFF code to inform the host to temporarily suspend data
transmission.
When the receiving device catches up, it sends an XON code to
inform the host that it is again ready to accept data. An advantage of
this protocol is that additional hardware is not required for imple-
mentation; only transmit, receive, and signal ground are required.
Table 3. 8 Bit, No Parity
81NoneEM
82 EN
06656 17
CTS
Like XON/XOFF protocol, CTS protocol is a mechanism used to con-
trol data flow out. The CTS input is used to inform the scanner that
the host terminal is ready to accept scanned data. When CTS (+) pro-
tocol is selected, the scanner waits for a low level on its CTS input
before transmitting data. When CTS (-) is selected, the signal polari-
ties are reversed and a high level indicates data may be transmitted.
The CTS protocol may be programmed independently of the RTS pro-
tocol; however, the signal polarities must be the same. You may not
select CTS (+) and RTS (-).
RTS
The RTS output from the scanner may be programmed to operate in
one of three different modes. In the default mode RTS signals when
the scanner is ready to receive commands or data. In the second
mode, RTS is in a fixed state. In the third mode, RTS signals when the
scanner has data to transmit. The RTS modes are independent of the
CTS protocol. However, you must select the same active state for RTS
as for CTS. You may not select CTS (-) and RTS fixed low. If CTS (-) is
selected, then the active state for RTS will be high.
NOTE
The specified levels are at the modular connector and are
inverted when using an RS232 converter pod.
HA CTS Protocol = None*
RTS low indicates scanner ready to
receive data
HB Protocol = XON/XOFF
HC Protocol = CTS (-)
18 Users / Programming Guide
Another flow control option is available. If enabled, the stop/go pro-
tocol disables the trigger after every successful scan. The trigger is
then re-enabled with a serial BG command in format
<STX><ESC>BG<ETX>.
BS Disable Stop/Go Protocol*
BT Enable Stop/Go Protocol
HD Protocol = CTS (+)
HG RTS always low
HH RTS always high
HI RTS high indicates scanner ready
to receive data
HJ RTS low indicates scanner has data
to transmit
HK RTS high indicates scanner has
data to transmit
06656 19
Label Buffering
The user may select one of three levels of serial buffering. With Full
Buffering (the default) selected, the scanner will place all scanned
labels into a buffer for transmission. This allows the operator to con-
tinue scanning even though the previous label may not have been
transmitted yet. Scanning will continue normally until the buffer is
full, then scanning will stop. Scanning will continue when enough
space is available for the current label.
When No Buffering is selected then scanning will be stopped until
the current label is completely transmitted.
When One Label Buffering is selected the scanner will allow the oper-
ator to scan one more label in addition to the label already in the
transmit buffer. In other words, one label may be scanned beyond the
label being transmitted.
NE Full Buffering
NF No Buffering
NG One Label Buffering
No Read Option
The scanner can be programmed to send a no read message (NR)
upon a scan that does not result in a good read.
NX Enable No Read
NY Disable No Read *
20 Users / Programming Guide
Menu Commands Parameter Messages
In serial mode, most menu commands when scanned will provide a
confirmation message to the host along with the ACK. This feature
can be enabled or disabled.
BA Enable Parameter Messages *
BB Disable Parameter Messages
External Trigger Operation
External trigger operation enables an external device to control scan-
ning. External trigger is controlled by applying an external trigger
signal to the CTS input (with external triggering enabled). When
active, this signal causes scanning to begin just as if the scanners trig-
ger were depressed. Scanning continue until a label is decoded or the
external trigger signal is deactivated.
In the event of a decode, the trigger signal must be deactivated for a
minimum of 50 milliseconds before another scan can be attempted
(tying the trigger signal active does not cause continuous scanning
and decoding).
When EXTERNAL TRIGGER(+) is scanned, scanning begins when a
high level input is applied to the CTS input. Conversely, when
EXTERNAL TRIGGER(-) is scanned, scanning begins when a low
level is applied to CTS. When CTS is not connected, it is treated as if a
high level is applied. The voltage levels given are at the modular con-
nector. If an RS232 converter pod is used, then the levels are inverted.
HA Disable External Trigger#*@
HE External Trigger(+)
06656 21
HF External Trigger(-)
General Parameters
Intercharacter Delay
Certain terminals and computers require an intercharacter delay to
simulate the effects of keystroke delays. Choosing an intercharacter
delay causes the characters to be sent at the slower speed required by
the device to which you are interfacing.
GA No Intercharacter Delay
GB Intercharacter Delay = XXMEC
Interlabel delay allows user to program a delay between transmitted
labels.
GC No interlabel delay *@
GD Set interlabel delay 0-9.9 seconds
NOTE
To set Intercharacter Delay to other then zero, scan the
label below and then scan two separate digits from the
Digit Selection page (99 maximum).
NOTE Intercharacter delay cannot exceed 99 milliseconds.
22 Users / Programming Guide
Transmission Mode
Full Duplex or Half Duplex
Transmission mode selects either full or half duplex operation regard-
less of interface. In the half duplex mode, the decoded message is sent
simultaneously to the display and to the host computer. In the full
duplex mode, the message is sent to the host computer. In send mode,
the host always has the capability to send a message directly to the
LCD.
The advantage of the full duplex mode is that the display shows the
message received by the host. In the half duplex mode you can see
that the message has been sent but there is no confirmation that it was
received. The disadvantage of the full duplex mode is simply that the
host computer must be programmed to relay the message back to the
scanner.
NA Transmission Mode = Full Duplex
NB Transmission Mode = Half Duplex *#
System Status
To examine the configuration of your system, scan the appropriate
option.
When Option ZB is scanned, a list of currently programmed parame-
ters is sent to the display device. Scanning ZB may interfere with your
terminal software, depending on your application.
NOTE
This section pertains only to models with a Liquid Crys-
tal Display (LCD)
NOTE
For models which do not have an LCD, parameter selec-
tions NA and NB have no effect.
06656 23
ZB Display Configuration
When Option ZC is scanned, the program version followed by car-
riage return-line feed characters (CR-LF) is sent in the format
<software name>SP<###> (WDHB 3.86, for example).
ZC Transmit Version Number
Power Consumption
You may choose one of two Power Consumption modes. Option @A
supplies full power to the scanner at all times; Option @B allows the
unit to revert to a standby mode after a successful read. This mode is
a power conservation feature.
@A Enable Continuous@ Full Power
@B Enable Standby *#
Laser Redundancy
For a successful decode to occur when Laser Redundancy is enabled,
two laser scans of the bar code must match. Because the laser scans a
label many times a second, you will notice little or no change in the
speed of the decode. Laser redundancy can be used to enhance the
security of the bar code reader.
BC Disable Laser Redundancy *#@
BD Enable 2 Times Laser Redundancy
24 Users / Programming Guide
BE Enable 4 Times Laser Redundancy
Laser Timeout
The scan beam will activate in response to a trigger pull. The beam
will automatically deactivate after a label is decoded. If a label is not
decoded., the scan beam will timeout and deactivate after several sec-
onds. Scan the following labels to control the length of the timeout.
Beeper Operation
Scan one of the options below to modify beeper operation.
AA Beeper Off
AB Beeper On; Volume Low
BH Set Scan Beam *#@ Timeout
to 6 Seconds
BI Set Scan Beam Timeout to 4
Seconds
BJ Set Scan Beam Timeout to 2
Seconds
BO Set Scan Beam Timeout to 1
Second
BW Set Scan Beam Timeout to
½ Second
06656 25
AC Beeper On; Volume Medium
AD Beeper On; Volume Loud *#@
Message Formatting
Message formatting describes how to format the data (decoded
string) that is sent from the scanner to the host.
Prefixes and Suffixes
Prefixes, Suffixes, Preambles and Postambles are programmable
attributes that are transmitted along with the decoded label data to
the host device. These attributes are handled differently whether the
scanner is configured for serial mode or wedge mode. When config-
ured for wedge mode these attributes are sent as keystrokes. The
scanner automatically translates the ASCII characters into keystrokes
before sending data to the host. Refer to the keystroke translation
tables for non-printable ASCII characters.
NOTE
The programmable options DO NOT apply in Wand Emu-
lation.
Prefix Terminal ID Preamble Code ID Data Postamble Suffix
26 Users / Programming Guide
Prefix
A prefix is a subset of the preamble normally formatted to some
industry standard, i.e., it is represented by a specific ASCII code. An
example of a prefix is the STX (Start of Transmission) code.
IA Prefix = None*#
IB Prefix = STX
IC Prefix = SOH
Suffix
A suffix is a subset of the Postamble. Like the prefix, it is normally
assigned a specific ASCII code. Examples of suffixes are CR (Carriage
Return) and LF (Line Feed).
MA Suffix = None #
MB Suffix = ETX
MC Suffix = CR
MD Suffix = LF
ME Suffix = HT
06656 27
MF Suffix = CR and LF *
Users also have the ability to select any ASCII character for use as a
suffix.
Scan the MJ label, then scan two labels from the Hexadecimal Con-
version Table representing the character needed for the suffix.
Certain specialized applications require a two character suffix of ETB
NUL. Scanning MI provides this.
MI Select Suffix = ETB NUL
Terminal ID
Terminal ID characters are used to identify individual scanners when
more than one scanner is interfaced with the host system. Options
available are none (DISABLED) or digits 01 through 99.
JA ID Character = Disabled*#
JB ID Character = XX
MJ Select Programmable
Suffix Character
NOTE
If you scan the label below, you must also scan two of the
digits from the Digit Selection page.
28 Users / Programming Guide
Code Identifier
A code identifier may optionally be transmitted with the message.
This option is provided so a host computer can identify the type of
bar code scanned, as well as the encoded information.
Scan Option FA to disable the code identifier.
FA Disable Code ID # *
Scan Option FB to enable the code identifier.
FB Enable Code ID
The table below shows the default code-identifier character assign-
ments. These can be changed using the procedure found in the Sym-
bology Identifier Section.
Table 4. Code Identifier Characters
SYMBOLOGY CODE IDENTIFIER
Code 39 a
Code Interleaved 2 of 5 b
Code Standard 2 of 5 c
UPC/EAN/JAN d
Code 128 f
Codabar h
06656 29
Preamble or Postamble Selection
Preambles and Postambles are composed of up to four ASCII charac-
ters. Each ASCII character is encoded as two hexadecimal numbers.
Use the Hexadecimal Conversion Table in Appendix A to look up the
hexadecimal equivalent.
Preamble
A Preamble is a string of characters that prefixes a message that is
transmitted to the host. The sequence and number of characters in a
Preamble is determined by the type of host system. Although not all
systems require a Preamble, those which do will only receive mes-
sages with the correct Preamble. The maximum preamble length is
four characters.
KA Preamble = None*#
KB Enter Preamble
IMPORTANT
Scan Enter Preamble to enter a Preamble, then refer to the Hexadecimal
Table in Appendix A.
Postamble
A Postamble is similar to a Preamble, except that it appended to the
message which is transmitted to the host. Its maximum length is also
four characters.
NOTE
If you select a Preamble or a Postamble you must scan
four ASCII characters, even if the Preamble or Postamble
is less than four characters in length. This is done by
scanning in null (NUL) characters for the additional char-
acters. For example, if your Preamble is AB (in ASCII
code), scan A, then B, then two null characters, or 4,1, 4,2
0,0 0,0 hexadecimal.
30 Users / Programming Guide
LA Postamble = None*#
LB Enter Postamble
IMPORTANT
Scan Enter Postamble to enter a Postamble, then refer to the Hexadecimal
Table in Appendix A.
06656 31
Serial Commands
General Serial Command Format
Serial Commands are only accepted by the PSC scanner when in
serial communications mode.
Serial commands take the form: STX ESC LT1 LT2 <optional param-
eters>ETX (Note: STX = ^B; ETX = ^C)
STX, ESC, and ETX are ASCII codes whose values are 02H, 1BH, and
03H, respectively. LT1 and LT2 are uppercase ASCII letters (commer-
cial A and @ are the same as those printed in earlier sections of this
manual under their corresponding menu bar code labels). The ESC
code that follows the STX code identifies this as a command. Some
commands require parameters such as minimum and maximum code
lengths, and strings of hexadecimal characters. When parameters are
required by the command, they immediately follow LT2. There are
never spaces within serial commands.
ACK/NAK
The scanner provides ACK/NAK protocol during serial program-
ming in order to provide feedback to the host computer which is pro-
gramming the scanner.
ACK/NAK protocol provides two vital functions. First, it provides
the host with positive acknowledgment that its commands are being
accepted and acted upon. Second, and perhaps more important, it
ensures that the host will not issue commands to the scanner more
quickly than the scanner can process them. For example, every time
the scanner receives a correct command, it modifies its internal
EEPROM, a function that takes about one second. At 9600 baud, the
host can easily issue commands to the scanner faster than they can be
processed. If after issuing each command the host waits to receive an
ACK or NAK code before issuing the next command, the scanner
cannot be overrun. If XON/XOFF or CTS/RTS Protocol is being used,
the scanner cannot be overrun by programming commands. How-
ever, the host is not provided with feedback as to the outcome of its
commands.
The ACK/NAK protocol is quite simple. Whenever the scanner
receives a correctly formatted command, it sends a confirmation mes-
sage followed by an ACK (06H) code.
32 Users / Programming Guide
Beeper Off CR-LF Ack
If the scanner receives an unknown or improperly formatted code, or
if the required parameters are missing or out-of-range, it sends a
NAK (15H) Code.
Serial Commands to Use with Caution
Some of the commands in this manual should not be used as serial
commands because of the consequences they produce. All PSC scan-
ners use the same hardware components to implement both serial
communication and wand emulation. This means that all serial com-
munication functions are disabled during wand emulation, and vice
versa. Because of this, issuing any of the commands in Table 5 causes
the scanner to enter its Wand Emulation mode, thereby disabling
serial communication.
Furthermore, because the scanner acts upon a command and then
sends ACK or NAK, neither or these codes will be transmitted in
response to any of the above commands. In Table 5 only the com-
mand letters are listed; the complete command is prefixed with STX
ESC, and suffixed with ETX. Because it is not possible to set (via serial
command) two Wand Emulation parameters (emulation speed and
polarity, for example), scanners to be used in Wand Emulation envi-
ronments must be programmed by scanning labels from this manual.
Command Function
STX ESC PC ETX Enable I 2 of 5 with check digit
STX ESC PD12 ETX Set I 2 of 5 minimum length to 12
STX ESC PE14 ETX Set I 2 of 5 maximum length to 12
STX ESC KB31323334 ETX Set Preamble to 1234
STX ESC LB61626364 Set Postamble to abcd
CB Wand Emulation, Code 39 Output
CC Wand Emulation, Same Code Output
06656 33
Power Standby and Serial Commands
When the scanner is programmed for standby power operation (@B),
the first character of the command is used to wake-up the scanner;
it is not properly received by the scanners CPU. Therefore, when
there is any possibility that the scanner is in standby mode, an extra
space code should be transmitted before STX to ensure the scanner is
awake before sending commands to it. If the scanner is not being
operated in standby mode, the space has no effect on commands
(space prefixed commands are properly decoded). Having sent the
space code to wake-up the scanner, a 150 to 200 millisecond pause
must be observed to allow the scanners CPU to complete its initial-
ization tasks, during which time it is unable to accept serial com-
mands before issuing the programming command. Failure to observe
this delay causes the scanner to ignore the incoming command.
Communication Parameter Changes
All commands which affect serial communication are acted upon
immediately. Therefore, when changing communication parameters
(baud rate, word length, parity, etc.), the scanner will send the ACK
Code, using the newly implemented communication parameters.
There should be enough of a delay from the issuance of a communi-
cation parameter setup command for the properly programmed host
computer to modify its internal parameters and correctly receive the
ACK code sent by the scanner. This is due to the internal, one second
delay required for the scanner to update its internal EEPROM.
Manual Scanning Interaction
The decoder firmware makes no attempt to resolve conflicts between
serial programming commands and manually scanned menu labels.
If you plan to scan menu labels from the PSC Operators Manual, do
not attempt serial programming, and vice versa. Serial commands are
given priority over pending menu labels. For example, if you scan the
menu label SET I 2 of 5 MINIMUM LENGTH and the scanner is wait-
ing for a two-digit, minimum length code when a serial command is
issued, the serial command is acted upon and the pending manual
command SET I 2 of 5 MINIMUM LENGTH is ignored.
34 Users / Programming Guide
Keyboard Wedge Parameters
Scan symbol CE to enable Keyboard Wedge mode. Next, select a ter-
minal type by scanning the symbol CF for IBM PC-AT or PS/2 mod-
els 50/60/80; or symbol CG for PC-XT type terminals. Alternatively,
you may scan just CF or CG to enable wedge mode and select a termi-
nal type.
CH IBM 3151 U.S.A.
CI DEC VT220 U.S.A.
CN Macintosh
CP IBM 3477 U.S.A.
CE Wedge Mode Enable @
ZA Reset to Wedge Default
Values
CF PC-AT, PS/2 and
50/60/80@ U.S.A.
CG PC-XT U.S.A.
06656 35
CT IBM 319X U.S.A.
CY PS/2 Mode 57/25 U.S.A.
C6 Unisys B-26
C8 Link 125
CV PC-AT German Keyboard
CW PC-AT French Keyboard
CX PC-AT UK Keyboard
\B PC-AT Belgian Keyboard
\C PC-AT Swiss Keyboard
\D PC-AT Danish Keyboard
36 Users / Programming Guide
\E PC-AT Italian Keyboard
\F PC-AT Spanish Keyboard
\G PC-AT Swedish Keyboard
\H PC-AT Portuguese Keyboard
In normal Wedge Mode, the scanner emulates the keyboard exactly.
Should a scanned bar code label have alphabetic characters, they will
be presented to the computer as if they had been typed at the key-
board. They will be affected by the Caps Lock key. If the scanned
label has lower case alphabetic characters AND the Caps Lock key in
ON, then the alphabetics will be presented as upper case.
With the Caps Lock key ON, the user may required that the scanned
alphabetics are presented to the computer exactly as they are encoded
in the label. This is accomplished by scanning EO Shift Alphabetic
Characters.
\L DEC VT 220/320/420
German Keyboard
\M DEC VT 220/320/420
French Keyboard
06656 37
EO Shift Alphabetic Characters
EP Normal Alphabetic Characters*
CQ Enable Primary Keyboard@
CR Enable Secondary Keyboard
NOTE
In some models of scanner, the wedge output is capable
of two types. To enable primary or secondary keyboard
modes, scan one of the next two labels.
NOTE
In Wedge Mode, non-printable ASCII characters (00-31H)
do not allow for an obvious translation to keycodes.
There are two approaches to this issue they are
explained in Appendix A.
@Q Enable Primary Function Key
Table@
@R Enable Secondary Function Key
Table
NOTE
See Appendix A.
38 Users / Programming Guide
Symbologies
The PSC scanner is configured with Code 39, Code 128, UPC-A and
UPC-E not expanded symbologies. The user has the ability to enable
or disable any of the symbologies given below as well as UPC or
EAN supplements, I 2 of 5 with check digit, and Code 39 modulo 43
check digit.
The bar codes that can be read by PSCs bar code scanners include:
Code 39 Code 93
Interleaved 2 of 5 Code 128
Standard 2 of 5 Codabar
UPC-A, UPC-E Code 11
EAN/JAN MSI/Plessey
The minimum label lengths are set to 1 character, except Code I 2 of
5, which is set to 14 characters; andCode S 2 of 5, which is set to 4
characters. The maximum label length for all symbologies is set to 32
characters. The user has the ability to set the minimum and maxi-
mum label lengths.
The symbol * indicates Default Parameter for serial mode. The sym-
bol # indicates Default Parameters for Wand Emulation. The symbol
@ indicates default parameters for Wedge Mode.
UPC (A and E)
Scan Option QA to disable all UPC labels.
QA Disable UPC (both A and E)
NOTE
It is recommended that the user disable those symbolo-
gies and parameters that are not being used.
06656 39
Option QB or Option QC enable both UPC-A and UPC-E. If UPC is
enabled, any UPC label, with or without supplement, is read. The
supplement is read if Option QB is selected, and it is ignored if
Option QC is selected.
Expanded UPC-E is disabled by scanning Option QH, or is enabled
by scanning Option QI.
QH Disable Expanded UPC-E *#@
QI Enable Expanded UPC-E
Transmission of the first character in a UPC symbol (the number sys-
tem character) is disabled by scanning Option QD or enabled by
scanning Option QE.
QB Enable UPC with 2 or 5 Digit
Supplement Enabled
QC Enable UPC with 2 or 5 Digit
Supplement Disabled *#@
QD Disable Transmission of Number
System Digit
QE Enable Transmission of Number
System Digit *#@
40 Users / Programming Guide
Transmission of the last character in a UPC symbol (the check digit) is
disabled by scanning Option QF, or is enabled by scanning Option
QG.
QF Disable Transmission of Check
Digit
QG Enable Transmission of Check
Digit *#
Scanning QJ causes UPC-A labels to be transmitted as EAN-13
labels. Scanning QK disables this feature.
QJ Enable UPC to EAN Translation
QK Disable UPC to EAN Translation
*#@
QN Disable second beep on
Supplement decoded *
QO Enable second beep on
Supplement decoded
QP Set supplement retry count (16 by
default) range = 1-32
QR Disable transmissionof UPC-E
check digit
06656 41
QS Enable transmissionof UPC-E
check digit*
QT Disable transmission of UPC-E
number system digit
QU Enable transmission of UPC-E
number system digit
QV Disable UPC-E*
QW Enable UPC-E independently with
supplement
QX Enable UPC-E independently
without supplement*
Q0 Disable mandatory supplements*
Q1 Enable mandatory supplements
NOTE
QA to QG apply to UPC-A and UPC-E.
42 Users / Programming Guide
EAN/JAN
Scan Option RA to disable EAN/JAN (8 or 13 digit).
Option RB or RC enables both EAN 8 digit and EAN 13 digit. If
EAN/JAN is enabled, any EAN/JAN label, with or without supple-
ment, is read. The supplement is read if Option RB is selected and is
ignored if Option RC is selected.
Transmission of the first character in an EAN/JAN symbol (the num-
ber system character) is disabled by scanning Option RD, or is
enabled by scanning Option RE.
RA Disable EAN/JAN (8 or 13 Digit) #@
RB Enable EAN/JAN with 2 or 5 Digit
Supplement enabled
RC Enable EAN/JAN with 2 or 5 Digit
*Supplement disabled
RD Disable Transmission of Number
System Digit
RE Enable Transmission of Number
System Digit *#@
06656 43
Transmission of the last character in an EAN/JAN symbol (the check
digit) is disabled by scanning Option RF, or is enabled by scanning
Option RG.
RF Disable Transmission
of Check Digit
RG Enable Transmission of
Check Digit *#@
RJ Disable EAN-8 Transmission
of check character
RK Enable EAN-8 Transmission
of check character*
RL Disable EAN-8 Transmission of
number system digit
RM Enable EAN-8 Transmission of
number system digit*
RN Disable EAN-8 independently*
RO Enable EAN-8 independently
with supplement
RP Enable EAN-8 independently
without supplement
44 Users / Programming Guide
Code 39
To disable Code 39, scan Option OA.
OA Disable Code 39
To enable Code 39, scan Option OB or OC. After enabling Code 39,
make any additional required selections from Options OD through
OG.
OB Enable St6andard Code 39*#@
OC Enable Full ASCII Code 39
OE Enable Modulo 43 Check Character
RQ Disable EAN-8 special 5 character
(0s) preamble
RR Enable EAN-8 special 5 character
(0s) preamble
NOTE
RA to RG apply to both EAN-13 and EAN-8.
OD Disable Modulo 43 Check
Character*#@
06656 45
The minimum length of Code 39 messages is set by scanning Option
OH, followed by scanning two digits (01-32) from the Digit Selection
page.
The maximum length of Code 39 messages is set by scanning Option
OI, followed by scanning two digits (01-32) from the Digit Selection
page. If the minimum and maximum values are set equal, only codes
of that exact length are read.
The START and STOP characters in code 39 may either be transmitted
or suppressed. Scan Option OF to suppress transmission of the
START and STOP characters. Scan Option OG to enable transmission.
OF Do Not XMIT START and STOP*#@
OG Transmit START and STOP
The following are only valid if CHK CHAR is enabled.
OH Minimum Length (specified by
two digits 01-32)
OI Maximum Length (specified by
two digits 01-32)
OJ Enable Transmission of Code 39
Modulo 43 Check Character
OK Disable Transmission of Code 39
Modulo 43 Check Character *
46 Users / Programming Guide
Code 2 of 5 Interleaved
Scan Option PA to disable Interleaved Code 2 of 5.
Scan Option PB or PC to enable Interleaved Code 2 of 5.
The minimum length of Interleaved 2 of 5 messages is set by scanning
Option PD, followed by scanning two digits (02-32) from the Digit
Selection page. The value of the number you scan must be even.
The maximum length of Interleaved Code 2 of 5 is set by scanning
Option PE, followed by scanning two digits (02-32) from the Digit
Selection page. If the minimum and maximum values are set equal,
only codes of that exact length are read. The minimum and maximum
lengths must be even numbers.
PA Disable Interleaved Code 2 of 5*#@
PB Enable Interleaved 2 of 5 without
Check Digit
PC Enable Interleaved 2 of 5 with
Check Digit
PD Minimum Length I 2 of 5 (specified
by two digits 02-32)
PE Maximum Length I 2 of 5 (specified
by two digits 02-32)
06656 47
Code 2 of 5 Standard
Scan Option PF to disable Standard Code 2 of 5.
PF Disable Standard Code 2 of 5 *#@
Scan Option PG to enable Standard Code 2 of 5.
PG Enable Standard 2 of 5
The minimum length of Standard 2 of 5 messages is set by scanning
Option PH, followed by scanning two digits (01-32) from the Digit
Selection page.
The maximum length is set by scanning Option PI, followed by scan-
ning two digits (01-32) from the Digit Selection page. If the minimum
and maximum values are set equal, only codes of that exact length are
read. The minimum and maximum lengths must be even numbers.
48 Users / Programming Guide
Code 128
Scan Option TA to disable Code 128.
TA Disable Code 128
Scan Option TB to enable Code 128.
TB Enable Code 128 *#@
The minimum length of Code 128 messages is set by scanning Option
TC, followed by scanning two digits (01-32) from the Digit Selection
page.
The maximum length of Code 128 messages is set by scanning Option
TD, followed by scanning two digits (01-32) from the Digit Selection
page. If the minimum and maximum values are set equal, only codes
of that exact length are read.
Scan Option VA to disable Codabar.
VA Disable Codabar *#@
Scan Option VB to enable Codabar.
VB Enable Codabar
TC Minimum Length (specified by two
digits 01-32)
TD Maximum Length (specified by two
digits 01-32) Codabar
06656 49
The minimum length of Codabar messages is set by scanning Option
VE, followed by scanning two digits (01-32) from the Digit Selection
page.
The maximum length of Codabar messages is set by scanning Option
VF, followed by scanning two digits (01-32) from the Digit Selection
page. If the minimum and maximum values are set equal, only codes
of that exact length are read.
The transmission of the STOP/START Characters is enabled by scan-
ning Option VD, or is suppressed by scanning Option VC.
VE Minimum Length (specified by two
digits 01-32)
VF Maximum Length (specified by two
digits 0-32)
VC Disable Transmission *#@ of
START/STOP character
VD Enable Transmission of START/
STOP Character
50 Users / Programming Guide
MSI/Plessey
Previous customization of other scanner features may have made
MSI/Plessey unavailable in some scanners. Consult Customer Ser-
vice for current capabilities or if you require a specific symbology.
Code 11
Previous customization of other scanner features may have made
Code 11 unavailable in some scanners. Consult Customer Service for
current capabilities or if you require a specific symbology.
PK Enable MSI/PLESSEY
PL Set Minimum Length, then scan
two digits: 01-14 (see Digit
Selection).
Set Maximum Length, then scan
two digits: 01-14 (see Digit
Selection).
PM
PJ Disable MSI/PLESSEY
SB Enable Code 11 with
one check digit
SC Enable Code 11 with
two check digits
06656 51
Code 93
Previous customization of other scanner features may have made
Code 93 unavailable in some scanners. Consult Customer Service for
current capabilities or if you require a specific symbology.
UB Enable Code 93
UC Standard Code 93
SF Set Minimum Length, specified by
two digits 01-32
SG Set Maximum Length, specified by
two digits 01-32
SE Enable transmission of check
digits
SD Disable transmission of check
digits
SA Disable Code 11
52 Users / Programming Guide
UD Enable Full ASCII Code 93
UA Disable Code 93
16K
TF Enable 16K Code
TE Disable 16K Code
UE Set Minimum Length, specified by
two digits 0-1-32
06656 53
Digit Selection
5
0
6
1
7
2
8
3
9
4
54 Users / Programming Guide
Symbology Identifiers
Your PSC scanner can be programmed to add and/or change symbol-
ogy identifiers which might be required to be transmitted with mes-
sages. This feature is provided to allow a host computer to recognize
the type of bar code scanned, as well as the uncoded information. The
symbology identifiers are selected by scanning the desired program-
ming bar code symbol as defined below.
SYMBOL FUNCTION
FE Set UPC-A Symbology Identifier
FF Set UPC-E Symbology Identifier
FG Set EAN-8 Symbology Identifier
FH Set EAN-13 Symbology Identifier
FI Set Code 128 Symbology Identifier
FA Disable Transmission of
Symbology Identifiers*
FB Enable Transmission of Symbology
Identifiers
06656 55
FJ Set Code 39 Symbology Identifier
FK Set I 2/5 Symbology Identifier
FL Set S 2/5 Symbology Identifier
FM Set Code 11 Symbology Identifier
FN Set Code 93 Symbology Identifier
FO Set Codabar Symbology Identifier
To change any single symbology identifier, scan the appropriate sym-
bology identifier bar code symbol and then scan the four hexadecimal
characters that represent the two bytes of the identifier. If you select a
one character identifier, then scan zero (null) twice for the second
character.
FP Set MSI/Plessey Symbology
Identifier
56 Users / Programming Guide
To find the hexadecimal values for the characters turn to the Hexa-
decimal Conversion Table. The procedure for selecting a symbology
identifier is identical to the procedure for selecting Preambles and
Postambles. The similar difference is that symbology identifiers are a
maximum of two characters, not four.
The FC programming symbol selects the symbology identifiers for
use with ICL 9518/9520 cash registers.
FC Programming Symbol
The FD programming symbol selects the symbology identifiers for
use with ICL 9518/9520 cash registers as given in Table 5.
FD Programming Symbol
NOTE
Scanning the ZA (Result to Default) programming symbol
will set all symbology identifiers back to PSC defaults as
given in Table I and disable the transmission of the sym-
bology identifiers.
06656 57
Table 5. Symbology Identifiers
Symbology ZA-PSC
Default PC-ICL 9518 CCD
UPC-A G$$
UPC-E G(&
EAN-8 G))%
EAN-13 G)$
Code 128 I,<
Code 39 D,<
Interleaved 2/5 E,=
Standard 2/5 F,<
Code 11 H,<
Code 93 J,<
Codabar (NW7) K,;
MSI/Plessey S,<
58 Users / Programming Guide
Wand Emulation Parameters
Select Code Type
Scan Option CC if you intend to operate the scanner in Same Code
Wand Emulation mode. If you want the label to be transmitted in
Code 39 scan Option CB.
CC Same Code Wand # Emulation
Bar Code Polarity
Selected Option WA or WB.
WA Black High#
WB White High
WC Black High, Quiescent High
Transmission Rate
Select the fastest speed your decoder will accept for best overall per-
formance by scanning one of the following labels.
YA 5 inches per second
CB Wand Emulation (Code 39, Full
ASCII)
06656 59
YB 10 inches per second#
YC 15 inches per second
YD 20 inches per second
YE 30 inches per second
YF 50 inches per second
YG 70 inches per second
60 Users / Programming Guide
Data Synchronization
Your PSC scanner can be prepared to synchronize the transmission of
scanned data to the timing sequence some terminals require to prop-
erly receive the data. This relationship is diagrammed in Figure 2.
Figure 2. Timing Sequence Diagram
RTS output is used for the data synchronization signal. Scan XD to
enable the data synchronization signal. Scan Option XC to disable
Data Synchronization.
XC Disable Data # Synchronization
XD Enable Data Synchronization
Polarity may be selected as either active high or low by scanning XE
(high) or XF (low).
Data Transmission data white space
(ta) (th)
Active
Data Synchronization
Setup Time (ts) 200 ms - 220 ms
Hold Time (th) 0 ms - 10 ms
06656 61
XE Active # Polarity High
XF Active Polarity Low
62 Users / Programming Guide
Memory Module
The Memory Module option is a factory installed feature that is
requested at time of order. The Memory Module option allows the
5300 series scanner to store decoded labels in an internal battery
backed up RAM. The stored buffered labels can then be transmitted
some time later. The user may also choose an interlabel transmission
delay in cases where the transmission rate of the buffered decoded
label is faster than the receiving equipment.
Switching to the Memory Module mode is achieved by scanning the
Enable Memory Module symbol. The Memory Module is cleared
every time Memory Module is enabled. While in Memory Module
mode, the scanner will store in its internal memory all scanned bar
code labels.
The user can transmit the stored labels by scanning the Send Memory
Module symbol. When the transmission rate is faster than the receiv-
ing equipment, the user can program a delay that will occur after
each label. The delay is programmed by scanning the Interlabel Delay
symbol (see the Intercharacter Delay page of the Setup Parameters
section), followed by two digits (see Digit Selection page) to set the
delay duration. The allowable range of values is 00 to 99, where 99
corresponds to a delay of 9.9 seconds.
In order to restore the scanner to normal operation, the user needs to
scan the Disable Memory Module label. Also the user may clear the
contents of the Memory Module by scanning the Clear Memory Mod-
ule symbol or by disabling and enabling Memory Module. Stored
labels are cleared whenever Memory Module is enabled.
NOTE
The stored data in the Memory Module cannot be trans-
mitted through the Wand Emulation output.
CAUTION
The Memory Module feature is to be used only with the
Memory Module mode. When used with scanners without
this optional mode, programmed instructions will be
damaged.
06656 63
Setup
NC Disable Memory Module*#
ND Enable Memory Module
ZK Send Memory Module
ZL Clear Memory Module
MM Enable automatic switch to
memory module
MN Disable automatic switch to
memory module *
NOTE
If enabled, this mode intelligently switches from POS
mode to Memory Module mode based on power source.
64 Users / Programming Guide
Marker Beam
The Marker Beam feature provides the user with a spotter beam for
improved aiming at distant bar code labels and/or in extremely
bright environments. You may also find a Marker Beam useful when
scanning through showcase glass or bar code menus with labels in
close proximity. This feature is available in all scanners without fac-
tory authorization.
To activate the Marker Beam, the user must also program the dura-
tion of the Marker Beam. First, the symbol Enable Marker Beam is
scanned and then followed by scanning one digit symbol from the
Digit Selections table. Each digit symbol represents the desired time
duration of the Marker Beam in milliseconds.
To deactivate the Marker Beam, the user must scan the Disable
Marker Beam symbol. For successful programming, the user must
hold the trigger down for two seconds after scanning.
NQ Enable Marker Beam
NP Disable Marker Beam
06656 65
300 ms
50 MS
350 MS
100 MS
400 MS
150 MS
450 MS
200 MS
500 MS
250 MS
66 Users / Programming Guide
Scanner Labeling
The PSC Laser Scanners use a low-power, visible laser diode. As with
any bright light source, such as the sun, the user should avoid staring
directly into the light beam.
Service and Warranty
PSC provides service for its bar code products at the service center
located at its manufacturing facility in Eugene, Oregon. The specific
warranty language for the bar code scanner is contained in the next
section of this manual. Several service plans are available for the
products:
All products carry a minimum one year warranty from date of pur-
chase.
A warranty extension program is available at a nominal
annual fee.
Factory service is available for out-of-warranty products
by requesting a Return Material Authorization (RMA)
for the product from our Repair Service Group. They can
be contacted by calling:
1-800-547-2507
within the continental United States, Canada, or Mexico)
or 1-541-683-5700 (elsewhere)
Should you call to request an RMA, have the following information
available:
Model Number
Serial Number
Date of Manufacture
Description of Problem
Purchase Order Number
The PSC Fax number is:
Fax: 541 686-1702
WARNING
Use of controls, adjustments, or performance of proce-
dures other than those specified herein may result in
hazardous visible light exposure.
06656 67
Maintenance
PSC Scanners are designed to provide trouble-free operation
throughout their lives. They contain no components that require peri-
odic maintenance. Optimum performance may be ensured by follow-
ing the preventive maintenance procedures suggested below. If
scanning performance declines, please follow these procedures.
Cleaning
A dirty scan window can impair scanning performance. When the
window appears to be dirty or smeared, clean it by wiping with a
slightly damp cloth or facial tissue. Water or a suitable cleaning solu-
tion such as Windex may be used on the cloth. The plastic case of
your scanner can also be cleaned in this manner.
Inspection
Periodically inspect scanner cords and cables for wear and other
signs of damage which may interfere with the proper operation of the
unit. A badly worn cord or cable should be replaced immediately.
Replacement cords and cables can be obtained by contacting your
PSC Customer Service Representative.
Routinely examine scanners for signs of damage. A badly dented
enclosure may cause interference with internal components resulting
in damage to, or malfunction of the unit. Units with damage to the
enclosure should be returned to the factory for repair. Please refer to
Service and Warranty Section.
NOTE
Never use solvents (e.g., alcohol) on the enclosure; they
may damage the finish of the scanner.
68 Users / Programming Guide
NOTES
06656 69
Appendix A
Hexadecimal Conversion Table
To use the conversion table:
1. Find each ASCII character in the tables on the following
pages and locate the corresponding bold hexadecimal-equiv-
alent character in the top row and in the left column of the
table. Notice, for example, that the ASCII character Q is
represented by the hexadecimal numbers 5 (top) and 1 (left).
2. Scan the bar code symbols that correspond to the hexadeci-
mal-equivalent characters. First scan the bar code symbol
that corresponds to the bold hex character at the top. Then
scan the bar code symbol that corresponds to the bold hex character
at the left.
For example, for the ASCII character Q, first scan the bar
code symbol labeled 5; then scan the bar code symbol labeled
1. If your preamble or postamble contains an N, first scan 4
and then E.
3. Repeat this procedure for each ASCII character you wish to
enter.
70 Users / Programming Guide
Hexadecimal Conversion Table
Part A
0
1
2
3
4
5
6
7
0123
0
1
2
3
NUL
SOH
STX
ETX
DLE
DC1
DC2
DC3
SP
!
#
0
1
2
3
4
5
6
7
EOT
ENQ
ACK
BEL
DC4
NAK
SYN
ETB
$
%
&
4
5
6
7
8
9
A
B
BS
HT
LF
VT
CAN
EM
SUB
ESC
(
)
*
++
8
9
:;
C
D
E
F
FF
CR
SO
SI
FS
GS
RS
US
,-
./
<
=
>
?
06656 71
Hexadecimal Conversion Table
Part B
8
9
A
B
C
D
E
F
4567
0
1
2
3
@
A
B
C
P
Q
R
S
a
b
c
p
q
r
s
4
5
6
7
D
E
F
G
T
U
V
W
d
e
fg
tu
v
w
8
9
A
B
H
IJ
K
X
Y
Z
[
h
ijk
x
y
z
{
C
D
E
F
L
M
N
O
\]^
_
lm
n
o
|}
~
DEL
72 Users / Programming Guide
Primary Function Key Table
ASCII HEX FUNCTION
NUL 00 CONTROL@
SOH 01 CONTROL A
STX 02 CONTROL B
ETX 03 CONTROL C
EOT 04 CONTROL D
ENQ 05 CONTROL E
ACK 06 CONTROL F
BEL 07 CONTROL G
BS 08 CONTROL H
HT 09 CONTROL I
LF 0A CONTROL J
VT 0B CONTROL K
FF 0C CONTROL L
CR 0D RETURN KEY
SO 0E CONTROL N
SI 0F CONTROL O
DLE 10 CONTROL P
DC1 11 CONTROL Q
DC2 12 CONTROL R
DC3 13 CONTROL S
DC4 14 CONTROL T
NAK 15 CONTROL U
SYN 16 CONTROL V
ETB 17 CONTROL W
CAN 18 CONTROL X
EM 19 CONTROL Y
SUB 1A CONTROL Z
ESC 1B CONTROL [
FS 1C CONTROL \
GS 1D CONTROL ]
RS 1E CONTROL ^
US 1F CONTROL &
06656 73
Secondary Function Key Tables
PC/AT, PC/XT, IBM 3151, and IBM PS/2 Model 57/25
NOTE 1: [+] right keypad for the PC/XT and IBM PS/2 Model 57/25.
ASCII HEX FUNCTION
NUL 00 ESCAPE
SOH 01 NEW LINE ENTER
STX 02 ALT left side Make
ETX 03 ALT left side Break
EOT 04 CTRL left side Make
ENQ 05 CTRL left side Break
ACK 06 ENTER right keypad (NOTE 1)
BEL 07 Cursor up (inner keypad)
BS 08 Cursor dn (inner keypad)
HT 09 Cursor left (inner keypad)
LF 0A Cursor right (inner keypad)
VT 0B TAB FWD
FF 0C DEL (inner keypad)
CR 0D NEW LINE ENTER
SO 0E INS (inner keypad)
SI 0F Page Up (inner keypad)
DLE 10 Page Dn (inner keypad)
DC1 11 HOME (inner keypad)
DC2 12 PRINT SCREEN
DC3 13 BACKSPACE
DC4 14 BACKFIELD (Shift TAB)
NAK 15 SCROLL LOCK
SYN 16 F1
ETB 17 F2
CAN 18 F3
EM 19 F4
SUB 1A F5
ESC 1B F6
FS 1C F7
GS 1D F8
RS 1E F9
US 1F 10
74 Users / Programming Guide
Secondary Function Key Tables
IBM 3171/3181/3191 and IBM 3477
ASCII HEX FUNCTION
NUL 00 ESCAPE
SOH 01 ON LINE ENTER (Make/Break)
STX 02 ALT left side Make
ETX 03 ALT left side Break
EOT 04 ON LINE ENTER (Make only)
ENQ 05 FIELD EXIT (Make only)
ACK 06 ENTER right keypad
BEL 07 Cursor up (inner keypad)
BS 08 Cursor dn (inner keypad)
HT 09 Cursor left (inner keypad)
LF 0A Cursor right (inner keypad)
VT 0B TAB FWD
FF 0C DEL (inner keypad)
CR 0D FIELD EXIT (Make/Break)
SO 0E INS (inner keypad)
SI 0F Page Up (inner keypad)
DLE 10 Page Dn (inner keypad)
DC1 11 HOME (inner keypad)
DC2 12 PRINT SCREEN
DC3 13 BACKSPACE
DC4 14 BACKFIELD (Shift TAB)
NAK 15 SCROLL LOCK
SYN 16 F1
ETB 17 F2
CAN 18 F3
EM 19 F4
SUB 1A F5
ESC 1B F6
FS 1C F7
GS 1D F8
RS 1E F9
US 1F F10
06656 75
VT220/320/420
ASCII HEX FUNCTION
NUL 00 ~ (terminal may be configured for
ESCAPE)
SOH 01 NEW LINE ENTER Return
STX 02 ALT Make
ETX 03 ALT Break
EOT 04 CTRL Make
ENQ 05 CTRL Break
ACK 06 ENTER right side keypad
BEL 07 Cursor up
BS 08 Cursor dn
HT 09 Cursor left
LF 0A Cursor right
VT 0B TAB FWD
FF 0C Remove
CR 0D Return (Main keypad)
SO 0E Insert Here
SI 0F Prev
DLE 10 Next
DC1 11 PF1
DC2 12 PF2
DC3 13 BACKSPACE
DC4 14 PF3
NAK 15 PF4
SYN 16 F1
ETB 17 F2
CAN 18 F3
EM 19 F4
SUB 1A F5
ESC 1B F6
FS 1C F7
GS 1D F8
RS 1E F9
US 1F F10
76 Users / Programming Guide
Apple MacIntosh
ASCII HEX FUNCTION
NUL 00 NUL
SOH 01 F1
STX 02 F2
ETX 03 F3
EOT 04 F4
ENQ 05 F5
ACK 06 F6
BEL 07 F7
BS 08 F8
HT 09 TAB
LF 0A Enter
VT 0B Page Up
FF 0C Page Down
CR 0D RETURN
SO 0E F9
SI 0F F10
DLE 10 Command On
DC1 11 Delete
DC2 12 Command Off
DC3 13 Left Arrow
DC4 14 Right Arrow
NAK 15 Down Arrow
SYN 16 Up Arrow
ETB 17 Home
CAN 18 End
EM 19 Shift On
SUB 1A Shift Off
ESC 1B Esc
FS 1C Control On
GS 1D Control Off
RS 1E Option (Alt) On
US 1F Option (Alt) Off
DECLARATION OF CONFORMITY
PSC hereby declares that the Equipment specified below has
been tested and found compliant to the following Directives
and Standards:
Charles W. Vanlue
Director, Corporate Quality
PSC, Inc.
959 Terry Street
Eugene, OR 97402
U.S.A.
Nigel Davis
Vice President
Europe, Middle East & Africa
PSC Bar Code Ltd.
Axis 3, Rhodes Way
Watford, England
WD24YW
UK
Directives: EMC
Low Voltage
Standards: EN
EN 50082-1
EN 60950
Equipment Type: Handheld Laser
Bar Code Scanners
Product: Keyboard Wedge/
Wand Emulation Interface
Part No. 06656 Rev C (03/00)
Asia Pacific
PSC Hong Kong
Hong Kong
Telephone: [852]-2-584-6210
Fax: [852]-2-521-0291
Australia
PSC Asia Pacific Pty Ltd.
North Ryde, Australia
Telephone: [61] 0 (2) 9878 8999
Fax: [61] 0 (2) 9878 8688
France
PSC Sarl
LES ULIS Cedex, France
Telephone: [33].01.64.86.71.00
Fax: [33].01.64 46.72.44
Germany
PSC GmbH
Darmstadt, Germany
Telephone: + 49 (0) 61 51/93 58-0
Fax: + 49 (0) 61 51/93 58 58
Italy
PSC S.r.l.
Vimercate (MI), Italy
Telephone: [39] (0) 39/62903.1
Fax: [39] (0) 39/685496
Japan
PSC Japan K.K.
Shinagawa-ku, Tokyo, Japan
Telephone: 81 (0)3 3491 6761
Fax: 81 (0)3 3491 6656
Latin America
PSC S.A., INC.
Miami, Florida, USA
Telephone: (305) 539-0111
Fax: (305) 539-0206
United Kingdom
PSC Bar Code Ltd.
Watford, England
Telephone: 44 (0) 1923 809500
Fax: 44 (0) 1923 809 505
Corporate Headquarters
675 Basket Road
Webster, NY 14580-9787
Telephone: (716) 265-1600
Toll Free: (800) 828-6489
Fax: (716) 265-6400
PSC Scanning, Inc.
959 Terry Street
Eugene, OR 97402-9150
Telephone: (541) 683-5700
Toll Free: (800) 547-2507
Fax: (541) 686-1702
Printed on recycled paper
PRINTED WITH
SOY INK
www.pscnet.com
©2000 PSC INC. 06656 (Rev C) Printed in USA (03/00)

Navigation menu