User’s Manual
Series NFT 1125/2135
Miniature CCD
Fixed Position Scanners
Manual No. 25-NFT1121-01
Rev. August 1999
8 Olympic Drive
Orangeburg, NY 10962
Tel 845.365.0090
Fax 845.365.1251
Contents
Section 1 Introduction and Getting Started..................................... 1
Product Overview ............................................................................. 1
Quick Start-Up Procedure .................................................................. 1
Section 2 Technical Specifications ................................................... 3
Physical Specifications....................................................................... 3
Symbologies Supported..................................................................... 3
Optical Specifications ........................................................................ 3
Electrical Specifications ..................................................................... 4
RS232 Communications Specifications ................................................ 4
Connector Pin-Outs........................................................................... 5
Environmental Specifications ............................................................. 5
Section 3 Positioning the Scanner ................................................... 7
Getting Optimum Performance........................................................... 7
Measuring Scanner Performance ...................................................... 10
Application Notes: .......................................................................... 11
Tips for Achieving High Throughput ................................................. 11
Tips for Insuring Highest Data Integrity............................................ 11
Tips for Verifying the Presence of a Bar Code.................................... 12
Section 4 Configuring the Scanner................................................. 13
Programming Menus & Commands................................................... 13
Default Settings.............................................................................. 13
Section 5 Application Engineering Support .................................... 15
Technical Assistance and Support..................................................... 15
Common Causes of Poor Performance .............................................. 15
Modified and/or Customized Scanners .............................................. 15
Appendix A Programming Menus & Commands ............................. 17
Appendix B Dimensional Drawings ................................................ 53
Appendix C Optical Performance Charts ........................................ 55
* This page left intentionally blank for repagenation *
Organization of this Manual
This manual provides the necessary instructions for installation and use of Opticon NFT-1125/
2135 Series Fixed Position Scanners. The manual is organized as follows:
Section 1
Section 2
Section 3
Introduction and Getting Started
Describes the general operation of a NFT-1125/2135 Series scanner. Also provides a Quick
Start-Up Procedure that allows you to begin using the scanner immediately.
Technical Specifications
Provides complete specifications, including mechanical details, optical performance, RS232
communications and other technical data.
Positioning Scanner for Optimum Performance
Provides detailed instructions and tips for mounting and positioning the scanning to obtain
the best scanning performance. Application Notes describe guidelines for maximizing specific
characteristics.
Section 4
Section 5
Configuring the Scanner
Describes how various parameters can be programmed to customize the scanner for your
specific application.
Application Engineering Support
Discusses the most common questions and concerns when adapting a NFT-1125/2135 Series
scanner in your application.
Appendices Detailed Supporting Information
Provides detailed information in specific areas such as the programming commands for
configuring various parameters of the
NFT-1125/2135 Series scanner.
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Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
Section 1
Introduction and Getting Started
Product Overview
The NFT-1125/2135 Series Fixed Position Scanners are miniature, 100/200 scans per second bar code
readers designed to be easily incorporated into host equipment. CCD scanning technology features 100%
solid state design with absolutely no moving parts. Durability and reliability are assured.
Advanced 16-bit microprocessor technology coupled with Opticon’s proven decoding algorithms result in high
speed operation with superior accuracy. The scanners are fully programmable allowing the user to customize
parameters including changing communication settings, selecting symbologies, adding prefixes and
appending suffixes. Programmable settings can be downloaded from the host CPU or computer directly to
the scanner.
The NFT-1125/2135 Series scanners are encased in compact, rugged steel enclosures. The compact size permits
installation in the tightest areas. Scanners are available in both front and side view configurations allowing great
flexibility in mounting and positioning the scanner for optimum performance.
Quick Start-Up Procedure
This section is for those who wish to start using the scanner before reading the complete manual. In only a few
steps the scanner will be operable.
1) Turn off the power to your PC and connect the scanner to an RS232 communications port. Note: You must
provide +5 Volt DC power to the scanner. This can be accomplished using the power supply and patch cable
available from Opticon. Turn on the power to the PC.
2) Using communications software (e.g., Procom), set the following communication parameters:
9600 baud, 1 Start / Stop Bit, 8 Data Bits,
No Parity, No Handshaking, No Flow Control
3) If you are operating in a Microsoft Windows 3.1 environment, skip to Step 5.
4) If you are operating in a Microsoft Windows 95 environment, you can set the communication
parameters using Hyper Terminal as follows:
♦
♦
♦
Open Hyper Terminal. This can be done from Start→Programs→Accessories
Select Hypertrm.exe to create a New Connection
In the Connection Description dialog screen enter a name for the new file. If desired, select an
Icon. Click OK
♦
♦
In the Phone Number dialog screen, in the box entitled: Connect using. select the communication
port, for example, “Direct to Com 1” Click OK
In the Com 1 Properties screen, enter the appropriate Port Settings:
Bits per second = 9600
Data bits = 8
Parity = None
Stop Character = 1
Handshaking = None
ꢀClick OK
♦
The Hyperterminal folder you just created will open. From the File pull-down menu, select
Properties then click on the Setting Tab
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Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
♦
In the Properties Settings dialog screen:
Select Terminal keys for the Function, arrow and control key
Select ANSI for Emulation,
The Backscroll buffer line can remain at the default 500
♦
Click on the ASCII Setup button
In the ASCII Setup screen, select Echo typed locally so that any keyboard commands you input will
appear on your screen. Click OK. This returns you to the Properties Setting. Click OK.
Your PC and the scanner should now communicate. Skip to Step 6.
5) In a Microsoft Windows 3.1 environment, set the communication parameters using the Terminal
function of Windows.
♦
♦
♦
♦
♦
From Window’s Program Manager Main Menu, select Terminal
From the Terminal menu, select Settings
From the Settings menu, select Terminal Emulation
Set the emulation to TTY (generic)
From the Settings menu, select Terminal Preferences and select the following:
Terminal Modes: Line Wrap, Local Echo, Sound
CR /LF: Inbound, Outbound
Columns: 80
♦
♦
From the Settings menu, select Communications
Select the COM port and set communication parameters as shown in Step 2, including no flow control
6) To verify that the scanner and the PC are communicating properly, send the following command from
your PC keyboard to activate the scanner’s buzzer.
Send the command: <Escape> V5 <Carriage Return>
Note: Be sure to use capital letters, e.g. “V5”, not “v5”.
The buzzer should sound, indicating that good communications have been established.
7) A red scanning light should be visible. If it is not visible, the scanner may be in a mode that requires a
“Trigger” Command from the PC to activate it. You can exit that mode by sending the following command
from your PC keyboard:
<Escape> S7 <Carriage Return>
In this “Trigger Disabled” mode, the red scanner light is always illuminated. You are now ready to scan
bar codes.
8) Position the red light of the scanner over the bar code symbol to be read. When the bar code symbol is
decoded, the scanner will beep and transmit the data to the screen of your PC. You may have to move
the scanner closer or farther away from the bar code symbol in order to locate the best reading distance.
This Quick Start-Up procedure will get you started. However, in order to best understand the full capabilities
of this scanner, you should read the complete manual.
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Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
Section 2
Technical Specifications
Physical Specifications
Case Material
Steel, painted dark gray
Dimensions (LxWxH)
1126/2126 Side View 3.0 x 2.7 x 1.1 in (76 x 68 x 76 mm)
1127/2127 Front View 2.9 x 2.7 x 1.0 in (74 x 68 x 26 mm)
Weight
8.8 ounces (250 grams) without cable
Cable Length
Mounting
6 ft (2.8m) with DB25 pin female connector
6 threaded (M-3) mounting holes. Mounting fasteners should not extend more
than 5mm into the case
Symbologies Supported
Codabar
Code 39
Code 93
Code 128
Standard 2 of 5
Interleaved 2 of 5
MSI / Plessey
UPC / EAN / JAN
Optical Specifications
Scan Rate
1126/1127 100 scans per/sec.
2126/2127 200 scans per/sec.
Wavelength of
LED Illumination
660 nanometers
Read Sensor
2048 pixel CCD linear array
Focal Distance (nominal)
1126 Side View
1127 Front View 0.3 inches
2126 Side View 1.43 inches
0.5 inches
2127 Front View 1.28 inches
Skew Angle
Rotation
0° to 45° (see Avoiding Specular Reflection and notes)
+15°
Pitch Angle
+6°
Area of
Specular Reflection
+2 to +9° around X axis (see diagram Section 3)
Max. Bar Code
Curvature
0.6 inch radius min. for 10.4 mil EAN-8 label
0.8 inches for 10.4 mil EAN-13 label
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Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
Electrical Specifications
Operating Voltage +5VDC + 10%
Current Consumption
Dynamic
Static
Surge
40 mA typical / 80 mA maximum
15 mA maximum
1.5 A maximum, 0.75A/25 µS
RS232 Communications Specifications
RS232 Data Transmission Format
Parameter
Timing
Default
Asynchronous
1 bit
Optional Settings
No. of Start Bits
No. of Stop Bits
No of Data Bits
Parity
1 bit
1 or 2 bits
8 bits
None
7 or 8 bits
Odd / Even / None
150 to 19200 baud
Hardware / Software / None
Baud Rate
9600 baud
None
Handshaking
RS232 Transmit/Receive Character Format
TXD/
RXD
Start
Bit
7 or 8
Data Bits
Parity
Bit
Stop
Bit
LSB
MSB
RS232 Data Format
Transmit:
Decoded Data
CR
CR
Receive:
ESC
Command
RS232 Signal Level
RS232C Level
Signal Name
TXD
I/O
Mark/Off
-5 to –15
-3 to –15
Space/On
+5 to +15
+3 to +15
Out
In
RXD
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Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
Connector Pin-Outs
DB25 pin Female connector with screws.
Pin
1
Signal
Frame Ground
RXD
Color
Black
White
Green
Blue
2
3
TXD
CTS
4
5
RTS
Gray
7
Signal Ground
Trigger
+5V
Purple
Brown
Red
16
25
Environmental Specifications
Temperature
Operating
Storage
+32 to +122° F ( 0 to 50° C)
-4 to 140° F (-20 to 60° C)
Humidity (non-condensing)
Operating
20 to 80%
20 to 95%
Storage
Page 5
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
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Page 6
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
Section 3
Positioning the Scanner
Getting Optimum Performance
Three items greatly impact performance:
1. Distance from the scan window to the bar code
2. Specular Reflection
3. Quality of bar code labels
1) Distance to the Bar Code
The operation of the scanner is similar to a camera. If you photograph an object that is out of focus, the
resulting picture will be blurry. The same is true with the scanner. If the bar code label is out of focus, the
scanner may have difficulty decoding what appears to be fuzzy bars and spaces.
Focal Distance
Ideally, the distance from the window of the scanner to the bar code label should be equal to the focal
distance of the scanner. For the NFT-1125/2135 Series fixed position scanners, the nominal focal distances
are:
1126 Side View
1127 Front View
2126 Side View
2127 Front View
0.50 inches (mm)
0.30 inches (mm)
1.43 inches (36.5 mm)
1.28 inches (32.5 mm)
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Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
Depth-of-Field
Just as with a camera, the scanner has a depth-of-field. It can read bar codes that are not precisely at
the focal distance - maybe a little closer, or a little farther away. However, if the bar code label is
positioned too far from the focal distance, the scanner may not be able to successfully decode it.
The depth-of-field varies based on the density of the bar code, i.e., the thickness of the bars. High
density bar codes (which have very narrow bars) are readable over a much shorter distance range than
low density bar codes with larger bars.
The following table shows the “typical” depth-of-field (closest to farthest reading distances) for the NFT-
1125/2135 Series scanners. The actual performance may differ slightly from unit to unit. Also, it is
important to note that this data was measured under ideal conditions using high quality bar code labels.
In a “real world” environment the conditions will not be as ideal. Therefore, the best practice is to
position the scanner at its focal distance rather than at the extremes of its depth-of-field.
Typical Reading Distance
from Window Depth-of-Field
1127
Front View
1126
Side View
2127
Front View
2126
Side View
Bar Code
Density
Min.
Max.
Min.
Max.
Min.
Max.
Min.
Max.
13.0 mil
10.0 mil
7.5 mil
6.0 mil
5.0 mil
0.0 in
0.0 in
0.0 in
0.0 in
0.0 in
1.5 in
1.1 in
0.9 in
0.8 in
0.7 in
0.0 in
0.0 in
0.0 in
0.2 in
0.3 in
1.4 in
1.1 in
1.0 in
0.9 in
0.7 in
0.0 in
0.2 in
0.4 in
0.6 in
1.0 in
2.4 in
1.9 in
1.7 in
1.6 in
1.5 in
0.5 in
0.6 in
0.7 in
0.8 in
0.9 in
2.6 in
2.1 in
1.9 in
1.8 in
1.6 in
Readable Bar Code Width (Field-of-View)
The following table shows the field-of-view at various distances from the window. The field-of-view is the
maximum width that the scanner is capable of reading. A bar code label positioned anywhere within this field-
of-view can be decoded. The field-of-view is also a measure of the widest bar code label that can be read.
Remember: the width of a bar code label includes not only the bars and spaces but also the required white
space (quiet zone) on each end.
Field-of-View
(Maximum Readable Bar Code Width)
Distance
1127
2127
1126
2126
Side View
2.5 in
from Window Front View Front View Side View
0.5 in
1.0 in
1.5 in
2.0 in
2.5 in
2.6 in
2.9 in
3.3 in
3.7 in
2.6 in
3.0 in
3.4 in
3.9 in
4.3 in
2.5 in
2.7 in
3.0 in
3.2 in
3.1 in
3.5 in
3.8 in
4.1 in
Good design policy is to position the scanner at its focal distance and at the center of the field-of-view. Do not
position it near the extremes of the reading range.
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Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
2) Avoiding Specular Reflection
Do not position the scanner at an angle that causes the LED illumination to be reflected directly back into the
scanner. This is called specular reflection. Too much reflected light can “blind” the scanner preventing a good
decode.
If the bar code label is located on a flat surface, specular reflectivity occurs between 2 to 9 degrees off perpendicular
(see diagram). If the bar code label is located on a cylindrical surface, such as a test tube, the angle of specular
reflection is measured tangent to the curve. If the curved surface is also moving, there may be more than one
position causing specular reflection. The following diagram indicates the area to avoid:
e
d
o
LEDs
C
r
a
B
Avoid 2-9
s
D
E
L
Avoid 2-9
Bar Code
3) Quality Bar Code Labels
The quality of the bar code label can affect the scanning performance. Poor quality labels are more difficult
to decode and may result in non-reads or potential misreads. The bar code label should be printed to
specifications. This means that the bars are printed within spec, with the correct widths, no ink spread, crisps
edges and no voids. There should be a sufficient quiet zone on both end of the bar code label.
For best results the paper or label stock should have a matte finish to diffuse light. The print contrast signal
(which is a comparison of the reflectance of the bars and the background stock) should be as high as
practical.
Page 9
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
Measuring Scanner Performance
Two methods are helpful in determining the optimum position of the scanner. The first method is to program
the scanner for Trigger Disable and Continuous Read modes. The scanner will be always on and will
continuously read the same bar code. Since the buzzer sounds each time the bar code is read, the sound of
the buzzer can be used like a “Geiger counter” (as the position of the scanner changes, the sound of the
buzzer will change). The buzzer sound will be loudest and most continuous at the best reading positions.
The Read Rate Test
The second method, the Read Rate Test, provides a mathematical calculation of scanning performance. In
this test the scanner scans a bar code 100 times and then calculates the number of those scans that resulted
in a good decode. That number, expressed as a percentage, will be transmitted to the host. For example,
93% means that the scanner decoded the bar code symbol 93 times out of the 100 scan attempts. By
performing the Read Rate Test with the scanner mounted in various positions you can determine which of
those locations results in the best performance.
Here’s how to perform the Read Rate Test:
1) Program the scanner for Continuous Read (S2) and Trigger Enabled (S8).
2) Instruct the scanner to enter the Read Rate Test mode (ZA).
3) Locate the scanner in the desired position relative to a test bar code then enter a Z command. The
scanner will read the bar code once and store it in memory.
4) Enter another Z command. The scanner will scan the bar code 100 times and then transmit the Read
Rate Percentage to the host.
5) Steps 3 and 4 can be repeated as often as desired, moving the scanner to new locations before each
test.
6) Exit the Read Rate Test mode (ZG).
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Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
Application Notes:
Tips for Achieving High Throughput
In some applications your primary objective may be to achieve the highest possible throughput rate. The
following list identifies the parameters and scanner settings that can maximize scanning and decode
throughput speed. Note, by emphasizing maximum throughput, other areas of performance may be affected.
For example, the number of non-reads could increase.
If high throughput is critical, consider some or all of these settings:
♦
Operate in the Trigger Disabled mode. Operation of the trigger can require as much as 200 msec before
decoding begins, slowing down throughput rate.
♦
♦
♦
♦
♦
♦
Only enable those symbologies that you will be decoding.
Eliminate all suffixes and prefixes.
Minimize the number of redundant reads required before transmitting data.
Transmit the decoded data at the highest baud rate, 19200 baud.
Disable both the hardware and software buzzer functions.
If you need a buzzer, use the hardware buzzer rather than the software buzzer.
Tips for Insuring Highest Data Integrity
There are several parameters that can enhance your confidence that the correct bar code data is transmitted.
Note that by emphasizing the accuracy and security of the data other areas of the scanner operation may be
affected, for example, you may not achieve the highest throughput.
If accuracy and data integrity are critical, consider some or all of these settings:
♦
Program the scanner to require a high number of redundant decodes prior to transmitting. For example,
program the scanner to decode a bar code exactly the same way three consecutive times before
transmitting the data. Then decoding the bar code the same way 2 out of 3 times or any 3 out of 4 times
is not sufficient. It must obtain three consecutive and identical decodes.
♦
Utilize a predetermined, fixed-length of bar code. Program the scanner to only decode a bar code of that
length. Bar codes of any other length will be ignored.
♦
♦
The quality of the printed bar code must be excellent.
Use a bar code symbology that contains an internal check digit and program the scanner to calculate that
check digit for validity prior to transmitting.
♦
Do not use a symbology with poor internal verification, or subject to partial decodes, such as 2 of 5 or
MSI/Plessey.
♦
♦
♦
Only enable those symbologies that you will be decoding.
Transmit data at low baud rates to minimize communication errors.
Enable the “Number of Characters Transmitted.” The scanner will calculate and transmit a number
indicating the total number of characters it is transmitting. Your host application program can compare
this number with the actual number of characters received to verify that the correct amount of data is
received.
Page 11
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
Tips for Verifying the Presence of a Bar Code
If the scanner is operated in the “trigger enabled” mode and the trigger is activated, one of three conditions
may occur:
A bar code is scanned and decoded
Decoded data is transmitted
A bar code is scanned but is not
No data is transmitted
decoded (e.g., print quality was poor)
No bar code is present
No data is transmitted
In some applications, when no data is transmitted, it may be important to know why. Was there a bar code
present that could not be decoded, or was no bar code present at all?
This requirement is common in applications such as automated blood analysis equipment. Test tubes containing
blood samples from many different people are loaded into a rack for automatic analysis. The bar code on each
tube ties that sample and the results back to a specific individual. If no bar code data is transmitted it is critical
to understand the reason.
Your Opticon scanner, when operated in the Trigger Enabled mode, can be programmed to transmit an error
message which indicates whether or not a bar code was present. The following table shows the message that
will be transmitted for each condition.
Presence/Absence of bar code
Bar code was present and correctly decoded
No bar code was present
Scanner Transmits
Decoded Data
<STX> “?” <ETX>
<STX> “>” <ETX>
Bar code was present but could not be decoded
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Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
Section 4
Configuring the Scanner
Since the operation of the NFT-1125/2135 Series scanner is microprocessor controlled, it is possible to modify
or program its operation to match your specific application. Changes in parameter settings can be changed or
programmed in two ways. The first method employs specially designed programming bar codes which
instruct the scanner to modify specific parameters. The second is to program the scanner by sending software
instructions from the host PC to the scanner via the RS232 connection.
Programming Menus & Commands
Appendix A contains full instructions on how to configure the scanner as well as a complete listing of the
computer commands and programming bar codes that are available to customize the scanner for your
application.
Default Settings
When you modify or change any parameters, the scanner can be programmed to retain the new parameter in
memory, even if power interrupted or terminated. If for any reason, however, the scanner is instructed to
return all parameters to default settings (U4), it will return to the factory default settings shown in the
following table.
Parameter
RS 232 Communications
Factory Default Setting
9600 baud
8 data bits
1 stop bit
No parity
No handshaking
Trigger Function
Disabled
Read Mode
Multiple Read Mode
Two
All Symbologies enabled
Add leading zero
No. of Redundant Decodes
Bar Code Symbologies
UPC-A (13 digits)
Enable check digit
UPC-E (7 digits)
Code 39
Add leading zero
Enable check digit
Do not calculate check digit
Enable start/stop characters (*.....*)
Disable character length of one
Enable start/stop characters as abcd/abcd
Do not calculate check digit
Disable character length of one
Do not calculate check digit
Disable characters length of two
Disabled
Codabar
2 of 5
Fixed length of bar code only
Software buzzer
Disabled
Positive bar codes only
Error indications
Print quality adjustment
Enabled
Do not transmit error code
Output from Low or High analog gain
1 MHz sampling rate
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Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
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Page 14
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
Section 5
Application Engineering Support
Technical Assistance and Support
Opticon is eager to help you integrate the NFT-1125/2135 Series scanner into your application. Our technical
support staff is available to answer any questions or work with you to adapt the scanner to your specific
situation. We are happy to answer your questions, assist in configuring and positioning the scanner for
optimum operation, and help resolve any problems you encounter. Call us at 1 (800) 636-0090.
Common Causes of Poor Performance
The most common reasons for poor scanning performance are listed below.
♦
♦
♦
♦
Bar codes are not positioned at the focal distance of the scanner.
Specular reflection is impacting the scanner. Change the angle/position of the scanner or the bar code.
Poor quality of printed bar codes. Bar codes are out of specification.
The paper on which the bar code is printed is highly reflective or has a glossy finish causing light to be
reflected into the scanner.
♦
♦
The distance from the scanner to the bar code is not suitable for the density of the bar code. Or the
density of the bar code beyond the scanners capability.
If the red illuminating light of the scanner is not on, the scanner may be in the “Trigger Enable” mode
expecting a trigger signal.
Modified and/or Customized Scanners
Opticon will work with you to modify or customize scanners to match your requirements. Scanners can be
modified in terms of connectors type, pin-outs, cable length, default settings, custom software and many
other areas.
Opticon will modify scanners in our factory and ship you scanners that match your specific requirements. By
incorporating your modifications directly into production scanners, you receive scanners tailored for your
need. They can be used immediately without the need for further modification or rework.
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Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
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Page 16
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
Appendix A
Programming Menus & Commands
Index
Introduction ......................................................................................... 18
1. Global Default & Scanner Configurations............................................. 20
2. Symbology Selection ......................................................................... 21
3. Add/Activate Specific Bar Code Symbologies ....................................... 22
4. Delete/Deactivate Specific Bar Code Symbologies ................................ 24
5. Options for UPC................................................................................ 25
6. Options for Code 39.......................................................................... 26
7. Options for Codabar (NW-7) .............................................................. 27
8. Options for 2 of 5 ............................................................................. 29
9. Options for IATA ............................................................................... 30
10. Fixing the Number of Digits ............................................................. 31
11. Creating a Prefix and/or Suffix ......................................................... 32
12. Setting Prefixes (Identifying the Symbology) ..................................... 33
13. Setting Suffixes (Identifying the Symbology) ..................................... 34
14. Direct Input of Numeric Characters .................................................. 36
15. Direct Input of Alpha Characters ...................................................... 37
16. Direct Input of Control Characters .................................................... 38
17. Enable Number of Characters/Digits Transmitted ............................... 38
18. Disable Number of Characters/Digits Transmitted .............................. 40
19. Communication Parameters ............................................................. 41
20. Handshaking .................................................................................. 43
21. Buzzer Operation ............................................................................ 44
22. Positive & Negative Bar Codes ......................................................... 45
23. Setting the Trigger Function............................................................. 46
24. Selecting the Read Mode ................................................................. 47
25. Scanner Timeout (Trigger Enabled Mode only) .................................. 48
26. Redundant Decoding ....................................................................... 49
27. Transmitting Error Indications (Trigger Enabled only) ......................... 50
28. Print Quality Adjustments ................................................................ 51
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Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
Introduction
Two different methods can be used to program parameters to configure the scanner:
a) Programming via bar codes from a menu page; or
b) Programming via computer commands
Programming via Bar Codes
Use the following steps to program parameters via the bar code menu:
1) Scan the “START/END Programming Menu” bar code. This instructs the scanner to enter the
Programming Mode. The scanner will beep intermittently while in this mode.
2) Scan the bar code(s) associated with the desire parameter(s). The scanner will beep when the bar
code is scanned. Note: Because of the close proximity of bar codes on the menu, approaching the
desired bar codes from the side of the page will ensure that only the desired bar code is scanned.
3) Scan the “START/END Programming Menu” bar code. This instructs the scanner to exit the
Programming Mode.
All the parameters that are programmed via bar codes are retained in non-volatile memory and stored
permanently (even if the scanner is powered down) or until they are changed.
Programming via Computer Commands
Various parameters can be programmed by sending software commands or keyboard strokes from the host
computer to the scanner in the following format:
<ESC> Computer Command <CR>
Note: Only upper case letters are recognized, e.g. “AB”, not “ab.” Each command typically consists of two
characters. Downloading of software commands cannot be “grouped” together. Each command must be
preceded by <ESC> (Escape) and followed by <CR> (Carriage Return).
Note: Where computer commands appear in parenthesis, bar code commands must be used to program the
scanner.
Page 18
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
Parameters modified by downloading software commands remain in effect only while power is supplied to the
scanner. If power is interrupted or terminated, the parameters return to their original settings. However,
parameters programmed by downloaded commands can be stored permanently by transmitting a “Z2”
computer command to the scanner after the commands are sent. this instructs the scanner to store the
changed parameter(s) in non-volatile memory. The scanner will then retain the setting(s) permanently or until
changed.
It is not necessary to send a “Z2” command after each parameter is changed. One “Z2” command will save all
changes.
Example: If programming the scanner to decode only Code 128 bar code
were desired, the following command would be used:
<ESC> A6 <CR>
The scanner will now only decode Code 128 bar codes and will ignore other
types of bar code. The scanner will retain this setting until power is inter-
rupted or terminated, and will then revert to its original setting. If retaining
this setting permanently is desired, the following command would be used:
<ESC> A6 <CR>
<ESC> Z2 <CR>
The “Z2” command stores the modified parameter in non-volatile memory.
The scanner will not retain this setting even after power is terminated.
Factory default settings are indicated throughout the following menus by the pointing hand icon (B).
Page 19
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
1. Global Default & Scanner Configurations
Computer
Command
Function
/Description
Bar Code
Command
START/END
Programming Menu
(Z7)
U4
Z2
Z3
1R
1S
1T
1U
1V
1W
1X
1Y
1Z
Z4
,Z7,
,U4,
,Z2,
,Z3,
,1R,
,1S,
,1T,
,1U,
,1V,
,1W,
,1X,
,1Y,
,1Z,
,Z4,
Return all parameters to
Default Settings
Save all values set by command
(not lost upon power off)
Display software settings
and version number
Clear all prefixes;
suffix CR
Clear all prefixes;
suffix LF
Clear all prefixes;
suffix CR+LF
All prefixes STX;
suffix ETX
All prefixes STX;
suffix CR+ETX
All prefixes STX;
suffix LF+ETX
All prefixes STX;
suffix CR+LF+ETX
Clear all prefixes
Clear all suffixes
Display prefix/suffix value length
(expressed in
hexadecimal format)
Page 20
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
2. Symbology Selection
Computer
Command
Function
/Description
Bar Code
Command
START/END
Programming Menu
(Z7)
A0
A1
A2
A3
A4
A5
A6
A7
A8
J1
,Z7,
,A0,
,A1,
,A2,
,A3,
,A4,
,A5,
,A6,
,A7,
,A8,
,J1,
,J2,
,J3,
,J4,
Enable all bar code
symbologies except IATA
Only WPC
(including Addon)
Only Code 39
Only Codabar (NW-7)
Only 2 of 5
(Industrial or Interleaved)
Only Code 93
Only Code 128
Only MSI/Plessey
Only IATA
Only UPC (A/E)
Only UPC (A/E)+2
Only UPC (A/E)+5
Only EAN
J2
J3
J4
CONTINUED ON NEXT PAGEꢀ
Page 21
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
2. Symbology Selection (continued)
Computer
Command
Function
/Description
Bar Code
Command
START/END
Programming Menu
(Z7)
,Z7,
,J5,
,J6,
,J7,
Only EAN +2
J5
J6
J7
J8
Only EAN +5
Only Industrial 2 of 5
Only Interleaved 2 of 5
,J8,
3. Add/Activate Specific Bar Code Symbologies
Computer
Command
Function
/Description
Bar Code
Command
START/END
Programming Menu
(Z7)
B1
B2
B3
B4
B5
B6
B7
,Z7,
,B1,
,B2,
,B3,
,B4,
,B5,
,B6,
,B7,
Enable all WPC
(including Addon)
B
B
B
B
Enable Code 39
Enable Codabar (NW-7)
Enable 2 of 5
(Industrial/Interleaved)
Enable Code 93
(Factory Set)
Enable Code 128
(Factory Set)
Enable MSI/Plessey
CONTINUED ON NEXT PAGEꢀ
Page 22
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
3. Add/Activate Specific Bar Code Symbologies (continued)
Computer
Command
Function
/Description
Bar Code
Command
START/END Programming Menu
Enable IATA
(Z7)
B8
R1
R2
R3
R4
R5
R6
R7
R8
,Z7,
,B8,
,R1,
,R2,
,R3,
,R4,
,R5,
,R6,
,R7,
,R8,
Enable UPC (A/E)
Enable UPC (A/E) +2
Enable UPC (A/E) +5
Enable EAN (13/8)
Enable EAN (13/8) +2
Enable EAN (13/8) +5
Enable Industrial 2 of 5
Enable Interleaved 2 of 5
Page 23
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
4. Delete/Deactivate Specific Bar Code Symbologies
Computer
Command
Function
/Description
Bar Code
Command
START/END
Programming Menu
(Z7)
4A
4B
4C
4D
4E
4F
,Z7,
,4A,
,4B,
,4C,
,4D,
,4E,
,4F,
,4G,
,4H,
,4I,
,4J,
,4K,
,4L,
,4M,
,4N,
Disable all WPC
(including Addon)
Disable UPC (A/E)
Disable UPC (A/E) +2
Disable UPC (A/E) +5
Disable EAN (13/8)
Disable EAN (13/8) +2
Disable EAN (13/8) +5
Disable Code 39
4G
4H
4I
Disable Codabar (NW-7)
Disable 2 of 5
(Industrial/Interleaved)
4J
Disable Industrial 2 of 5
Disable Interleaved 2 of 5
Disable Code 93
4K
4L
4M
4N
Disable Code 128
CONTINUED ON NEXT PAGEꢀ
Page 24
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
4. Delete/Deactivate Specific Bar Code Symbologies (continued)
Computer
Command
Function
/Description
Bar Code
Command
START/END
Programming Menu
(Z7)
4O
,Z7,
,4O,
,4P,
Disable MSI/Plessey
Disable IATA
4P
4. Options for UPC
Computer
Command
Function
/Description
Bar Code
Command
START/END
Programming Menu
(Z7)
E2
E3
E4
E5
E6
E7
E8
E9
,Z7,
,E2,
,E3,
,E4,
,E5,
,E6,
,E7,
,E8,
,E9,
UPC-A (13 Digits)
Add leading zero;
Enable check digit
B
UPC-A (12 Digits)
Do not add leading zero;
Enable check digit
UPC-A (12 Digits)
Add leading zero;
Disable check digit
UPC-A (11 Digits)
Do not add leading zero;
Disable check digit
UPC-E (8 Digits)
Add leading zero;
Enable check digit
UPC-E (7 Digits)
Do not add leading zero;
Enable check digit
B
UPC-E (7 Digits)
Add leading zero;
Disable check digit
UPC-A (7 Digits)
Do not add leading zero;
Disable check digit
Page 25
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
6. Options for Code 39
Computer
Command
Function
/Description
Bar Code
Command
START/END
Programming Menu
(Z7)
H4
H2
C0
,Z7,
,H4,
,H2,
,C0,
,C1,
,C2,
,C3,
,D0,
,D1,
Enable 1 character (3 characters
including start/stop characters)
Disable 1 character Code 39 and
Codabar (NW-7); Disable 2
characters 2 of 5
Disable check digit calculation
Enable check digit calculation
Transmit check digit
B
C1
C2
Do not transmit check digit
C3
Do not transmit start/stop
characters (*ꢀꢀ*)
D0
D1
Transmit start/stop characters
(*ꢀꢀ*)
B
♦
♦
♦
43 Data digits are available: 0 to 9, A to Z (caps only) plus . - $ / + % and space. If a check digit is
present, it will appear as part of the data.
If the scanner is programmed to calculate the check digit, and the bar code is not printed with a check
digit, the bar code will not read.
Another option available for Code 39 is to enable the reading of a single character bar code. See the
section on Fixing the Digit for this option.
Page 26
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
7. Options for Codabar (NW-7)
Computer
Command
Function
/Description
Bar Code
Command
START/END
Programming Menu
(Z7)
H5
H2
F0
F1
F2
F3
F4
F5
F6
F7
F8
F9
FB
,Z7,
,H5,
,H2,
,F0,
,F1,
,F2,
,F3,
,F4,
,F5,
,F6,
,F7,
,F8,
,F9,
,FB,
Enable 1 character (3 characters
including start/stop characters)
Disable 1 character Code 39 and
Codabar (NW-7); Disable 2
characters 2 of 5
Do not transmit
start/stop characters
Transmit start/stop
characters as ABCD/TN*E
Transmit start/stop
characters as abcd/tn*e
Transmit start/stop
characters as ABCD/ABCD
Transmit start/stop
characters as abcd/abcd
Transmit check digit
Do not transmit check digit
Do not calculate check digit
Calculate check digit
(Modulo 10)
Calculate check digit
(Modulo 16)
(AIM specifications)
Calculate check digit
(Modulo 7)
CONTINUED ON NEXT PAGE...
Page 27
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
7. Options for Codabar (NW-7) (continued)
Computer
Command
Function
/Description
Bar Code
Command
START/END
Programming Menu
(Z7)
G6
,Z7,
Read normal Codabar
,G6,
,G7,
Read Okitakasaki Codabar
G7
Codabar Format
Start
Character
A . . . .
1 to 42
data digits
Check
digit
Stop
Character
. . . . T
a . . . .
. . . . t
A . . . .
. . . . A
A . . . .
. . . . a
♦
♦
Codabar has four (4) different start/stop character schemes as shown above. The check digit is optional
and, if present, would be the last character.
If the scanner is programmed to calculate the check digit and the bar code is not printed with a check
digit, the bar code will not be read.
Page 28
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
8. Options for 2 of 5
Computer
Command
Function
/Description
Bar Code
Command
START/END
Programming Menu
(Z7)
G0
G1
G2
G3
H6
H2
,Z7,
,G0,
,G1,
,G2,
,G3,
,H6,
,H2,
Do not calculate check digit
Calculate check digit
B
Transmit Check digit
Do not transmit check digit
Enable 2 characters
Disable 1 character Code 39 and
Codabar (NW-7); Disable 2
characters 2 of 5
2 of 5 (Standard and Interleaved) Format
1 to 44 data digits
numeric only (0 to 9)
CD
Check Digit
Opticon strongly recommends that the “Fixing the Number of Digits” feature on the next page be employed
whenever 2 of 5 bar codes are used.
Page 29
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
9. Options for IATA
Computer
Command
Function
/Description
Bar Code
Command
START/END
Programming Menu
(Z7)
D2
D3
D4
D5
D6
D7
,Z7,
,D2,
Do not calculate
check digit
Calculate check digit
(CPN + Form + Serial)
,D3,
,D4,
,D5,
,D6,
,D7,
Calculate check digit
(Form + Serial)
Calculate check digit
(All data)
Transmit check digit
Do not transmit check digit
The IATA code is a variable length symbology with an optional check digit and non-printable start/stop
characters. The following characters are supported: Digits 0 up to 9.
The checksum is calculated as the modulo seven of the data string. IATA is an acronym for International Air
Transport Association.
String format
Meaning of Acronym
CPN
Coupon
1
AC
Airline
Code
3
FC
Form
Code
2
SN
Serial
Number
8
CD
Check
Digit
1
Number of digits (15 total)
♦
♦
♦
Enable check digit check
Selection of the check digit calculation
Disable transmission of the check digit
Check digit calculation: If the check digit calculation is required, then the appropriate calculation method
must be selected.
Page 30
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
10. Fixing the Number of Digits
Computer
Command
Function
/Description
Bar Code
Command
START/END
Programming Menu
(Z7)
(H0)
(H1)
H2
,Z7,
,H0,
,H1,
,H2,
,H3,
Disable fixation
Enable fixation
B
B
Disable 1 character
Code 39 and Codabar (NW-7);
Disable 2 characters 2 of 5
Enable 1 character
Code 39 and Codabar (NW-7);
Enable 2 characters 2 of 5
H3
To avoid truncation errors, the scanner can be programmed to only decode bar codes of one specific length, i.e.,
containing a specific number of digits. It is also possible to program the scanner to only decode bar codes of
*
either of two specific lengths.
To fix one (1) length (or number of digits) of
bar code:
To fix two (2) different lengths of bar codes:
1. Scan “START” to enter the program-
ming mode
2. Scan “Enable fixation” bar code
3. Scan a sample bar code of the desired
length #1
4. Scan a sample bar code of the desired
length #2
5. Scan “STOP” to exit the programming
mode
1. Scan “START” to enter the program-
ming mode
2. Scan “Enable fixation” bar code
3. Scan a sample bar code of the desired
length
4. Repeat Step #3, re-scanning the
sample bar code
5. Scan “STOP” to exit the programming
“Fixing the Number of Digits” can only be applied to Code 39, Codabar, 2 or 5 and MSI/Plessey (UPC, Code
93 and Code 128 are not affected).
Page 31
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
11. Creating a Prefix and/or Suffix
Computer
Command
Function
/Description
Bar Code
Command
START/END
Programming Menu
(Z7)
1Y
,Z7,
,1Y,
Clear all Prefixes
Display Prefix/Suffix
value and length (expressed in
Z4
,Z4,
hexidecimal format)
The scanner can be programmed to transmit a prefix and/or suffix with the decoded data. A Prefix (or a
Suffix) is composed of up to 4 characters. The following steps are used to establish a Prefix that will be
transmitted with the bar code data:
1. Scan Start
2. Scan the bar code representing the symbology to which you wish to add a Prefix
3. Scan the character(s) that will comprise the Prefix. Up to four numeric, alpha or control character(s)
may be used.
4. Scan “STOP” to exit the Programming Mode.
The same steps are used to establish a Suffix.
Example: To add the alpha character “A” as a Prefix and “B”
as a Suffix to UPC-A bar code data:
1. Scan “START/END Programming Mode”
2. Scan N1, representing a Prefix for UPC-A
3. Scan 0A, representing the alpha character “A”
4. Scan N6, representing a Suffix for UPC-A
5. Scan 0B, representing the alpha character “B”
6. Scan “START/END Programming Mode”
Page 32
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
12. Setting Prefixes (Identifying the Symbology)
Computer
Command
Function
/Description
Bar Code
Command
START/END
Programming Menu
(Z7)
1Y
,Z7,
,1Y,
,N1,
,M0,
,N2,
,M1,
,N3,
,M2,
,N4,
,M3,
,M4,
,M5,
,M6,
,M7,
Clear all Prefixes
UPC-A
N1
M0
N2
M1
N3
M2
N4
M3
M4
M5
M6
M7
UPC-A +2 or +5
UPC-E
UPC-E +2 or +5
EAN-13
EAN –13 +2 or +5
EAN-8
EAN-8 +2 or +5
Code 39
Codabar (NW-7)
Industrial 2 of 5
Interleaved 2 of 5
CONTINUED ON NEXT PAGE...
Page 33
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
12. Setting Prefixes (Identifying the Symbology) (continued)
Computer
Command
Function
/Description
Bar Code
Command
START/END
Programming Menu
(Z7)
M8
M9
D8
,Z7,
,M8,
,M9,
,D8,
,N0,
,Z4,
Code 93
Code 128
IATA
MSI/Plessey
N0
Display Prefix/Suffix
value and length (expressed in
hexidecimal format)
Z4
13. Setting Suffixes (Identifying the Symbology)
Computer
Command
Function
/Description
Bar Code
Command
START/END
Programming Menu
(Z7)
1Z
,Z7,
,1Z,
,N6,
,O0,
,N7,
,O1,
,N8,
Clear all Suffixes
UPC-A
N6
O0
N7
O1
N8
UPC-A +2 or +5
UPC-E
UPC-E +2 or +5
EAN-13
COINTINUED ON NEXT PAGE...
Page 34
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
13. Setting Suffixes (Identifying the Symbology) (continued)
Computer
Command
Function
/Description
Bar Code
Command
START/END Programming Menu
EAN–13 +2 or +5
EAN-8
(Z7)
O2
N9
O3
O4
O5
O6
O7
O8
O9
D9
N5
Z4
,Z7,
,O2,
,N9,
,O3,
,O4,
,O5,
,O6,
,O7,
,O8,
,O9,
,D9,
,N5,
,Z4,
EAN-8 +2 or +5
Code 39
Codabar (NW-7)
Industrial 2 of 5
Interleaved 2 of 5
Code 93
Code 128
IATA
MSI/Plessey
Display Prefix/Suffix
value and length (expressed in
hexidecimal format)
NOTE: The global default, also clears all suffixes.
Page 35
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
15. Direct Input of Numeric Characters
Computer
Command
Function
/Description
Bar Code
Command
START/END
Programming Menu
(Z7)
Q0
Q1
Q2
Q3
Q4
Q5
Q6
Q7
Q8
Q9
,Z7,
,Q0,
,Q1,
,Q2,
,Q3,
,Q4,
,Q5,
,Q6,
,Q7,
,Q8,
,Q9,
0
1
2
3
4
5
6
7
8
9
Page 36
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
15. Direct Input of Alpha Characters
START
Program
Menu
N
O
(Z7)
0N
0O
,Z7,
,0N,
,0O,
,0P,
,0Q,
,0R,
,0S,
,0T,
,0U,
,0V,
,0W,
A
0A
,0A,
B
P
Q
R
S
0B
0P
0Q
0R
0S
,0B,
C
0C
,0C,
D
0D
,0D,
E
0E
,0E,
F
T
0F
0T
0U
0V
0W
0X
,0F,
G
U
V
0G
,0G,
H
0H
,0H,
I
W
X
0I
,0I,
J
0J
,0J,
,0X,
,0Y,
,0Z,
,Z7,
K
Y
Z
0K
0Y
0Z
,0K,
L
0L
,0L,
END
Program
Menu
M
0M
(Z7)
,0M,
Page 37
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
16. Direct Input of Control Characters
Computer
Command
Function
/Description
Bar Code
Command
START/END
Programming Menu
(Z7)
1A
,Z7,
,1A,
,1B,
,1C,
,1D,
STX
ETX
CR
1B
1C
LF
1D
17. Enable Number of Characters/Digits Transmitted
This feature instructs the scanner to calculate and transmit a number indicating the total number of charac-
ters that are being transmitted to the host. This feature allows the host to verify that the correct amount of
data was received.
Computer
Command
Function
/Description
Bar Code
Command
START/END
Programming Menu
(Z7)
3A
,Z7,
,3A,
,3B,
,3C,
,3D,
,3E,
UPC-A
UPC-A +2 or +5
UPC-E
3B
3C
UPC-E +2 or +5
EAN-13
3D
3E
CONTINUED ON NEXT PAGE...
Page 38
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
17. Enable Number of Characters/Digits Transmitted (continued)
START/END
Programming Menu
(Z7)
,Z7,
EAN-13 +2 or +5
3F
,3F,
EAN-8
3G
,3G,
EAN-8 +2 or +5
3H
,3H,
Code 39
3I
,3I,
Codabar (NW-7)
3J
,3J,
Industrial 2 of 5
3K
,3K,
Interleaved 2 of 5
3L
,3L,
Code 93
3M
,3M,
Code 128
3N
,3N,
MSI/Plessey
3O
,3O,
IATA
3P
,3P,
Transmit data length
(all symbologies)
3Z
,3Z,
Page 39
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
18. Disable Number of Characters/Digits Transmitted
Computer
Command
Function
/Description
Bar Code
Command
START/END
Programming Menu
(Z7)
2A
2B
2C
2D
2E
2F
,Z7,
,2A,
,2B,
,2C,
,2D,
,2E,
,2F,
,2G,
,2H,
,2I,
,2J,
,2K,
,2L,
,2M,
UPC-A
UPC-A +2 or +5
UPC-E
UPC-E +2 or +5
EAN-13
EAN-13 +2 or +5
EAN-8
2G
2H
2I
EAN-8 +2 or +5
Code 39
Codabar (NW-7)
Industrial 2 of 5
Interleaved 2 of 5
Code 93
2J
2K
2L
2M
CONTINUED ON NEXT PAGEꢀ
Page 40
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
18. Disable Number of Characters/Digits Transmitted (continued)
Computer
Command
Function
/Description
Bar Code
Command
START/END
Programming Menu
(Z7)
2N
,Z7,
,2N,
,2O,
,2P,
,2Z,
Code 128
MSI/Plessey
IATA
2O
2P
Do not transmit data length
(all symbologies)
2Z
19. Communication Parameters
Computer
Command
Function
/Description
Bar Code
Command
START/END
Programming Menu
(Z7)
,Z7,
,K0,
,K1,
,K2,
,K3,
,K4,
,K5,
150 Baud
300 Baud *
600 Baud *
1,200 Baud *
2,400 Baud *
4,800 Baud *
* Use Z2 Command after computer command to store settings in memory prior to power off.
CONTINUED ON NEXT PAGEꢀ
Page 41
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
19. Communication Parameters (continued)
Computer
Command
Function
/Description
Bar Code
Command
START/END
Programming Menu
(Z7)
(K6)
(K7)
(L0)
(L1)
(L2)
(L3)
(L4)
,Z7,
9,600 Baud
19,200 Baud *
7 Data Bits *
8 Data bits *
B
,K6,
,K7,
,L0,
B
,L1,
Parity = None
Parity = Even *
Parity = Odd *
B
,L2,
,L3,
,L4,
1 Stop Bit *
2 Stop Bits *
(L5)
(L6)
B
,L5,
,L6,
* Use Z2 Command after computer command to store settings in memory prior to power off.
Page 42
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
20. Handshaking
Computer
Command
Function
/Description
Bar Code
Command
START/END
Programming Menu
(Z7)
(I0)
,Z7,
,I0,
,I1,
,I2,
,I3,
,I4,
,I5,
,I6,
Wait for CTS from terminal
= Unlimited
Wait for CTS from terminal
= 100 mS
(I1)
(I2)
(I3)
(I4)
(I5)
(I6)
(I7)
(P0)
Wait for CTS from terminal
= 200 mS
Wait for CTS from terminal
= 400 mS
ACK/NAK Delay Time
Unlimited
ACK/NAK Delay Time
= 100 mS
ACK/NAK Delay Time
= 500 mS
ACK/NAK Delay Time
= 1000 mS
,I7,
,P0,
,P1,
,P2,
,P3,
,P4,
No Handshaking *
B
Busy/Ready *
Modem *
(P1)
(P2)
(P3)
ACK/NAK *
ACK or No response NAK *
No ACK/NAK *
(P4)
(P5)
,P5,
* Use Z2 Computer Command to store in memory prior to power off.
Page 43
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
21. Buzzer Operation
Computer
Command
Function
/Description
Bar Code
Command
START/END
Programming Menu
(Z7)
T0
,Z7,
Volume = Maximum
B
,T0,
Volume = Upper Mid-range
Volume = Lower Mid-range
Volume = Minimum
T1
T2
T3
T4
,T1,
,T2,
,T3,
,T4,
,T5,
Disable hardware buzzer
Enable hardware buzzer
T5
V5
V6
Ring software buzzer once at
3kHz for 200 Ms
Use
Computer Command *
Ring software buzzer once at
3kHz, 2kHz interval for 200 mS
Use
Computer Command *
Ring software buzzer once at
2kHz, 3kHz interval for 200 mS
Use
V7
W0
W1
W2
Computer Command *
Disable software buzzer
,W0,
,W1,
,W2,
Enable software buzzer at 3kHz
Enable software buzzer at 3kHz
with 2.5kHz interval
B
* These commands are useful in verifying that proper communication exists between the scanner and the
host. They can be invoked only via computer commands.
CONTINUED ON NEXT PAGEꢀ
Page 44
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
21. Buzzer Operation (continued)
Computer
Command
Function
/Description
Bar Code
Command
START/END
Programming Menu
(Z7)
W3
W4
W5
W6
W7
,Z7,
,W3,
,W4,
,W5,
,W6,
,W7,
Enable software buzzer
at 3kHz with 4kHz interval
Software buzzer
duration 0.10 sec
Software buzzer
duration 0.20 sec
B
Software buzzer
duration 0.40 sec
Software buzzer
duration 0.05 sec
22. Positive & Negative Bar Codes
Computer
Command
Function
/Description
Bar Code
Command
START/END
Programming Menu
(Z7)
V2
,Z7,
,V2,
,V4,
Positive bar code only
(black bars/white spaces)
Both positive & negative bar
code
V4
Page 45
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
23. Setting the Trigger Function
Computer
Command
Function
/Description
Bar Code
Command
START/END
Programming Menu
(Z7)
S7
S8
Z
,Z7,
Disable the trigger function
/ Red scanning light is ON
continuously
B
,S7,
,S8,
Enable the trigger function /Red
scanning light is OFF until trigger
is activated or “pulled”
Activate the trigger; turns on the
red scanning light
Use
Computer Command
The Trigger function is disabled in the default setting. This means that the red scanning light is “ON”
continuously and the scanner is always ready to read. For some applications, you may wish to activate the
scanner only at a specific time. This can be done by enabling the Trigger function. Once in the “Trigger
Enabled” mode, the red scanning light is OFF until the trigger is activated or “pulled.” Either a hardware
trigger or a software trigger pulse may be used to activate the scanner.
The hardware trigger is actuated by pulling Pin #16 (on the standard DB25 female connector) LOW. The
software trigger is actuated by downloading and <ESC> Z <CR> computer command from the host. (See
Scanner Timeout to establish the length of time the scanning light remains ON after the trigger is activated.)
Page 46
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
24. Selecting the Read Mode
Computer
Command
Function
/Description
Bar Code
Command
START/END
Programming Menu
(Z7)
S0
,Z7,
,S0,
,S1,
,S2,
Single Read Mode
(Trigger enabled mode only)
Multiple Read Mode
S1
B
Continuous Read Mode
S2
The operation of the scanner in the various read modes is described in the table below. The “Continuous
Read” mode is helpful in positioning the scanner for optimum reading. In “Continuous Read,” the scanner’s
buzzer functions like a Geiger counter, sounding the most active at the position achieving the greatest
number of good reads.
Mode
Trigger Function Enabled
Trigger Function Disabled
After receiving a trigger pulse,
scanner will read multiple,
different bar codes in succession
until it times out.
Scanner will not read the same
bar code twice if they are
consecutive.
Scanner will read different bar codes
in succession if they are presented to
the read window.
Multiple
Read
Scanner will not read the same bar
code twice if they are consecutive.
Scanner will read the same bar
Continuous code continuously after receiving Scanner will read the same bar code
Read
a trigger pulse until scanner
times out.
continuously.
Scanner will read only one bar
code after receiving a trigger
pulse.
Single
Read
Same as Multiple Read mode, above.
Page 47
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
25. Scanner Timeout (Trigger Enabled Mode only)
These commands, which are only applicable in the Trigger Enabled mode, establish the time-out period after
the trigger pulse is received. The Time-out period is the same whether the scanner is operating in Single,
Multiple or Continuous Read mode.
Computer
Command
Function
/Description
Bar Code
Command
START/END
Programming Menu
(Z7)
Y0
Y1
Y2
Y3
Y4
Y5
Y6
Y7
,Z7,
,Y0,
,Y1,
,Y2,
,Y3,
,Y4,
,Y5,
,Y6,
,Y7,
Trigger remains ON
as long as trigger is pulled
(hardware trigger only)
1 Second after triggering
2 Seconds after triggering
3 Seconds after triggering
4 Seconds after triggering
6 Seconds after triggering
8 Seconds after triggering
10 Seconds after triggering
Page 48
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
26. Redundant Decoding
The Number of Redundant Decodes determines how many times the scanner must decode a bar code and
obtain the same value before it will transmit the data. For example, if the redundancy is set at three times,
the scanner will not transmit data until it has decoded the bar code and obtained the same values three times
in succession. If it obtains the same value twice in a row, but a different value on the third read attempt, it
will not transmit. If it gets the same value three out of four times, it will not transmit. It must receive three
consecutive, identical reads.
Computer
Command
Function
/Description
Bar Code
Command
START/END
Programming Menu
(Z7)
X0
,Z7,
,X0,
,X1,
,X2,
,X3,
Read bar code once
Read bar code twice
X1
B
Read bar code three times
Read bar code four times
X2
X3
Page 49
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
27. Transmitting Error Indications (Trigger Enabled only)
Computer
Command
Function
/Description
Bar Code
Command
START/END
Programming Menu
(Z7)
5A
5B
5C
5D
5E
5F
,Z7,
,5A,
,5B,
,5C,
,5D,
,5E,
,5F,
,5G,
,5H,
,5I,
,5J,
,5K,
,5L,
,5M,
Wait 30 mS after trigger pulse
before sending error code
Wait 80 mS after trigger pulse
before sending error code
Wait 130 mS after trigger pulse
before sending error code
Wait 220 mS after trigger pulse
before sending error code
Do not transmit error code
B
Transmit “BR”<CR> for bad read
or no read
Transmit <STX>“>”<ETX>
for bad read;
<STX>“?”<ETX> for no read
5G
5H
5I
Transmit “>” <CR> for bad read
Transmit “?” <CR> for no read
Transmit “CAN”<CR> for bad
read or no read
Transmit <STX>“CAN”<ETX> for
bad read or no read
5J
Transmit <STX><CAN><CR>
<LF> for bad read or no read
5K
5L
Transmit <STX><CAN><CR>
for bad read or no read
Transmit "BR"<CR><LF>
for bad read or no read
5M
Page 50
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
28. Print Quality Adjustments
Computer
Command
Function
/Description
Bar Code
Command
START/END
Programming Menu
(Z7)
X4
,Z7,
,X4,
,X5,
,X6,
,X7,
For lower density, poor print
quality bar code, e.g., dot matrix
with voids (low analog gain)
For high density, good print
quality bar code without voids
(high analog gain)
X5
Output data obtained from Low
or High analog gain
X6
B
Output data obtained from Low
and High analog gain
X7
Enables alternate decode
algorithms. May improve
performance on certain I 2 of 5,
Code 39, Codabar or MSI/Plessey
bar codes
G5
,G5,
Disables alternate decoding
algorithms
G4
SB
SC
,G4,
,SB,
,SC,
1 mHz sampling rate
for average bar codes
B
For high density bar code
(activates 8 mHz sampling rate)
Page 51
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
* This page left intentionally blank for repagenation *
Page 52
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
Appendix B
Dimensional Drawings
1126/2126 Side View
12.8 mm
20 mm
38 mm
5.5
M-3 3 Places
16 mm
76 mm
M-3 3 Places
5.5
10 mm
20 mm
66 mm
12.8 mm
All dimensions in millimeters
Page 53
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
1127/2127 Front View
10.3 mm
20 mm
38 mm
5.5
M-3 3 Places
18 mm
74 mm
M-3 3 Places
5.5
10 mm
63.5 mm
20 mm
10.3 mm
All dimensions in millimeters
Page 54
Manual No. 25-NFT1121-01
Series NFT-1121/2135 Mini CCD Fixed Position Scanners
Appendix C
Optical Performance Charts
Page 55
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