TC1100 - Treiber Handbuch Software

Transcription

TC1100
Reference Manual
TC1100
Reference Manual
TC1100
REFERENCE MANUAL
DATALOGIC S.p.A.
Via Candini 2
40012 - Lippo di Calderara di Reno
Bologna - Italy
TC1100 Reference Manual
Ed.: 06/2002
ALL RIGHTS RESERVED
Datalogic reserves the right to make modifications and improvements without prior notification.
Datalogic shall not be liable for technical or editorial errors or omissions contained herein, nor for incidental or
consequential damages resulting from the use of this material.
Product names mentioned herein are for identification purposes only and may be trademarks and or
registered trademarks of their respective companies.
© Datalogic S.p.A. 2000-2002
821000700
CONTENTS
1
1.1
1.2
INTRODUCTION .......................................................................................... 1
Status Indicators ........................................................................................... 2
Available Models........................................................................................... 3
2
2.1
2.1.1
2.1.2
INSTALLATION............................................................................................ 4
TC1100 CCD Scanner .................................................................................. 4
Mechanical Installation.................................................................................. 4
Electrical Connections................................................................................... 5
RS232 Interface ............................................................................................ 6
WEDGE Interface ......................................................................................... 6
PEN Emulation Interface............................................................................... 7
Inputs ............................................................................................................ 7
Outputs ......................................................................................................... 8
External Beeper Connection ......................................................................... 9
TC1100 CCD Scan Engine ......................................................................... 10
Mechanical Installation................................................................................ 10
Electrical Connections................................................................................. 11
RS232 Interface .......................................................................................... 12
WEDGE Interface ....................................................................................... 12
PEN Emulation Interface............................................................................. 13
Inputs .......................................................................................................... 13
Outputs ....................................................................................................... 14
External Beeper Connection ....................................................................... 15
Positioning .................................................................................................. 16
GFC-TC1100 Accessory ............................................................................. 17
2.2
2.2.1
2.2.2
2.3
2.4
3
3.1
3.2
SOFTWARE CONFIGURATION STRINGS ............................................... 20
Default Configuration .................................................................................. 20
TC1100 Configuration................................................................................. 22
Command Syntax ....................................................................................... 23
4
4.1
4.1.1
4.1.2
4.1.3
4.1.4
4.2
4.2.1
4.2.2
4.2.3
4.2.4
REFERENCES ........................................................................................... 34
RS232 Parameters ..................................................................................... 34
Handshaking ............................................................................................... 34
ACK/NACK from Host Protocol ................................................................... 35
FIFO............................................................................................................ 35
RX Timeout ................................................................................................. 35
Pen Parameters .......................................................................................... 36
Minimum Output Pulse................................................................................ 36
Overflow...................................................................................................... 36
Output and Idle Levels ................................................................................ 37
Inter-Block Delay......................................................................................... 37
iii
4.3
4.3.1
4.4
4.4.1
4.4.2
4.4.3
4.5
4.5.1
4.5.2
4.6
4.6.1
4.6.2
4.6.3
Data Format ................................................................................................ 38
Header/Terminator Selection ...................................................................... 38
Power Save................................................................................................. 41
Sleep State ................................................................................................. 41
Enter Sleep Timeout ................................................................................... 41
Standby....................................................................................................... 41
Reading Parameters ................................................................................... 41
Operating Modes ........................................................................................ 41
Reads per Cycle ......................................................................................... 43
Decoding Parameters ................................................................................. 43
Ink-Spread .................................................................................................. 43
Overflow Control ......................................................................................... 43
Interdigit Control.......................................................................................... 43
5
TECHNICAL FEATURES ........................................................................... 44
Reading Diagrams ...................................................................................... 45
A
CODE IDENTIFIER TABLE........................................................................ 47
B
HEX/NUMERIC TABLE .............................................................................. 48
iv
INTRODUCTION
1
1
INTRODUCTION
The TC1100 compact CCD reader is the perfect solution for many OEM applications.
It contains a built-in decoder and multi-standard interface. Due to its well-balanced
mix of technical characteristics it is perfect for integration into custom equipment,
setting a new standard in this product class.
This Reference Manual provides connection diagrams, default parameter listing,
complete application parameter settings, specific technical features and reading
diagrams.
Configuration for RS232 Interface User's
The easiest way to configure TC1100 is by using the DL Sm@rtSet™ utility program
installed from the CD included with this manual. It provides a user-friendly graphic
interface that sends the command strings to the TC1100 and Help On-Line to explain
configuration parameters.
This manual contains the complete set of command strings for TC1100 configuration.
These strings must be sent via the RS232 interface using a terminal emulator such
as HyperTerminal, or with the WinHost Terminal. Configurations can also be sent as
batch files.
Refer to paragraph 3.2 for configuration procedures.
Configuration for Wedge Interface User's
For Wedge Interface User's, configuration can be accomplished either by reading the
Return to RS232 Interface barcode and then configuring through the RS232
Interface, or by printing the command strings as a barcode label (or labels) and then
reading them with the TC1100. The symbology must be Code 128 subset B.
Reference notes describing the operation of the more complex parameters are given
in chapter 4.
1
TC1100
1
1.1
STATUS INDICATORS
The reader has two LED indicators signaling several operating conditions which are
described in the tables below.
Led2
Led1
TC1100 Scan Engine
TC1100 Scanner
POWER UP
POWER ON / LED2
Meaning
ON
Power supply ON
OFF
Power supply OFF
DATA ENTRY
GOOD READ / LED1 Meaning
2
ON
Good read (LED1 will remain ON until status changes)
OFF
Miss read
INTRODUCTION
1.2
1
AVAILABLE MODELS
The TC1100 reader is available in models that differ in regard to the following
characteristics:
•
Barcode type
•
Enclosure
The following models are therefore available:
•
TC1100-0100 = CCD Scan Engine for linear codes
•
TC1100-0200 = CCD Scan Engine for linear and PDF417 codes
•
TC1100-1100 = CCD Scanner for linear codes
•
TC1100-1200 = CCD Scanner for linear and PDF417 codes
3
TC1100
2
2
INSTALLATION
2.1
2.1.1
TC1100 CCD SCANNER
Mechanical Installation
54
[2.13]
24
[0.94]
68.6
[2.70]
10.4
[0.41]
9.5
[0.37]
7.6
[0.30]
70.7
[2.78]
30.5
[1.20]
The diagram below gives the overall dimensions of the reader and may be used for
its installation.
31.6
[1.25]
mm
[in.]
17.7
[0.70]
Optical Axis
Figure 1 - Overall dimensions
4
INSTALLATION
2.1.2
2
Electrical Connections
The TC1100 Scanner is equipped with a 25-pin female D-Sub connector for
connection to the power supply and input/output signals. The details of the connector
pins are indicated in the following table:
Figure 2 - 25-pin female D-sub connector
25-pin Connector
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
Shield
TX
RX
RTS
CTS
nc
SGND
EXT BEEPER
VCC+
nc
OUT+
OUTVCC+
nc
nc
nc
nc
EXT TRIG+
EXT TRIGDATAIN_WAND
DATAOUT
OUTCLKIN
CLKOUT
GND
earth ground
transmit data
receive data
request to send
clear to send
not connected
signal ground
beeper output signal
+5 Vdc
not connected
see Figure 10
+5 Vdc
not connected
not connected
not connected
not connected
See Figures 6 to 9
power ground
Table 1 - TC1100 Scanner Pinout
5
TC1100
2
RS232 Interface
The TC1100 Scanner can communicate with the Host using the RS232 signals
provided on the 25-pin connector. The pins are indicated in Table 1 and in the
following diagram:
It is always advisable to use shielded cables. The overall maximum cable length
must be less than 15 m (49.2 ft).
TC1100 25-pin
Host
2
TX
3
RX
TXD
4
RTS
DCD
5
CTS
DTR
7
SGND
RXD
SGND
Earth
Ground
Figure 3 - RS232 Interface connection to Host
WEDGE Interface
The TC1100 Scanner can communicate with the Host in a WEDGE Interface
(Keyboard Emulation) using the signals provided on the 25-pin connector. The pins
are indicated in Table 1 and in the following diagram:
Host
DATA
TC1100 25-pin
CLK
21
DATAOUT
24
CLKOUT
13
VCC+
25
GND
20
DATAIN
23
CLKIN
VCC+
GND
Keyboard
VCC+
GND
DATA
CLK
Figure 4 - Wedge Interface connection to Host (PC AT) and Keyboard
6
INSTALLATION
2
PEN Emulation Interface
The TC1100 Scanner can communicate with the Host in a PEN Emulation Interface
using the signals provided on the 25-pin connector. The pins are indicated in Table 1
and in the following diagram:
TC1100 25-pin
Host
4
WAND
DATA
5
VCC+
VCC+
25 GND
GND
Earth
Ground
It is always advisable to use shielded cables.
Inputs
There is an input available on the TC1100 Scanner relative to the External Trigger.
The pins are indicated in Table 1. These inputs are optocoupled and can be driven
by both an NPN or PNP type command. The connections are indicated in the
following diagrams:
TC1100
+ 5V
Vext 30 Vdc max. EXTERNAL TRIGGER
18
EXT TRIG+
19
EXT TRIG-
V
Signal
Figure 6 - Input NPN command using external power
Vext 30 Vdc max.
TC1100
EXTERNAL TRIGGER
V
+ 5V
18
EXT TRIG+
19
EXT TRIG-
Signal
Ground
Figure 7 - Input PNP command using external power
7
TC1100
2
TC1100
EXTERNAL TRIGGER
13 Vcc 5Vdc
+ 5V
V
18 EXT TRIG+
19 EXT TRIG25 GND
Ground
Signal
Figure 8 - Input NPN command using TC1100 power
TC1100
EXTERNAL TRIGGER
13 Vcc 5Vdc
+ 5V
V
Signal
18 EXT TRIG+
19
EXT TRIG-
25
GND
Ground
Figure 9 - Input PNP command using TC1100 power
Outputs
There is an output available on the TC1100 Scanner relative to the Good Read
event. The pins are indicated in Table 1. The connections are indicated in the
following diagram:
USER INTERFACE
TC1100
11
OUT +
12
OUT -
Vext 40 Vdc max
Figure 10 - Output connection (Good Read). Example NPN
8
INSTALLATION
2
External Beeper Connection
A beeper output signal is provided on pin 8 so that an external piezoelectric buzzer
with internal oscillator can be connected for Good Read acoustic signaling. The
complete circuit to be built is shown in the schematic diagram below.
+5 Vdc (pin 13)
+5 Vdc (pin 13)
+
D1 (1N4148)
BZ1 (see below)
R2 (10K)
BEEPER (pin 8)
Q1 (BC337)
R1 (1K)
GND (pin 25)
Figure 11 - TC1100 Scanner Beeper Connection
The following list indicates several piezoelectric buzzers that can be used in the
circuitry above (part BZ1).
Manufacturer
Type
MURATA
DIGISOUND
CITIZEN
BUJEON
PKB30SPC - 2001/3001
F/TCW05
MEB-12C-5
BS12-A
See chapter 3 for Beeper Control commands.
9
TC1100
2
2.2
2.2.1
TC1100 CCD SCAN ENGINE
Mechanical Installation
The diagram below gives the overall dimensions of the TC1100 Scan Engine and
may be used for its installation.
63
[2.48]
Veritcal Optical Axis
25.7
[1.01]
12.2
[0.48]
63
[2.48]
40.5
[1.59]
2.5
[0.10]
Ø2.7
[Ø0.11] n°4
18
[0.71]
50
[1.97]
mm
[ in.]
2.5
[0.10]
57
[2.24]
28.5
[1.12]
2.5
[0.10]
Horizontal Optical Axis
Figure 12 - Overall dimensions
10
60.5
[2.38]
INSTALLATION
2.2.2
2
Electrical Connections
The TC1100 Scan Engine is equipped with two 8-pin DF13 connectors for connection
to the power supply and input/output signals. The details of the connector pins are
indicated in the following table:
1
1
J1
J2
Figure 13 - 8-pin connectors
J1
1
2
3
4
5
6
7
8
SGND
OUTOUT+
EXT BEEPER
CTS
RX
RTS
TX
signal ground
see Figure 21
beeper output signal
clear to send
receive data
request to send
transmit data
J2
1
2
3
4
5
6
7
8
VCC+
GND
CLKOUT
DATAOUT
DATAIN_WAND
CLKIN
EXT TRIG+
EXT TRIG-
+5 Vdc
power ground
See Figures 17 to 20
Table 2 - TC1100 Scan Engine Pinout
11
TC1100
2
RS232 Interface
The TC1100 Scan Engine can communicate with the Host using the RS232 signals
provided on the J1 connector. The pins are indicated in Table 1 and in the following
diagram:
It is always advisable to use shielded cables. The overall maximum cable length
must be less than 15 m (49.2 ft).
TC1100
J1
Host
8
TX
6
RX
TXD
7
RTS
DCD
5
CTS
DTR
1
SGND
RXD
SGND
Earth
Ground
WEDGE Interface
The TC1100 Scan Engine can communicate with the Host in a WEDGE Interface
(Keyboard Emulation) using the signals provided on the J2 connector. The pins are
indicated in Table 1 and in the following diagram:
Host
TC1100
DATA
J2
CLK
4
DATAOUT
3
CLKOUT
1
VCC+
2
GND
5
DATAIN
6
CLKIN
VCC+
GND
Keyboard
VCC+
GND
DATA
CLK
Figure 15 - Wedge Interface connection to Host (PC AT) and Keyboard
12
INSTALLATION
2
PEN Emulation Interface
The TC1100 Scan Engine can communicate with the Host in a PEN Emulation
Interface using the signals provided on the J2 connector. The pins are indicated in
Table 1 and in the following diagram:
It is always advisable to use shielded cables.
TC1100
Host
J2
5
WAND
DATA
1
VCC+
VCC+
2
GND
GND
Earth
Ground
Inputs
There is an input available on the TC1100 Scan Engine relative to the External
Trigger. The pins are indicated in Table 2. These inputs are optocoupled and can be
driven by both an NPN or PNP type command. The connections are indicated in the
following diagrams:
TC1100
+ 5V
J2
Vext 30 Vdc max. EXTERNAL TRIGGER
7
EXT TRIG+
8
EXT TRIG-
V
Signal
Figure 17 - Input NPN command using external power
Vext 30 Vdc max.
TC1100
J2
+ 5V
EXTERNAL TRIGGER
V
7
EXT TRIG+
8
EXT TRIG-
Signal
Ground
Figure 18 - Input PNP command using external power
13
TC1100
2
TC1100
EXTERNAL TRIGGER
J2
1 Vcc 5Vdc
+ 5V
V
7 EXT TRIG+
8 EXT TRIG2
GND
Ground
Signal
Figure 19 - Input NPN command using TC1100 power
TC1100
EXTERNAL TRIGGER
J2
+ 5V
1
Vcc 5Vdc
7
EXT TRIG+
8
EXT TRIG-
2
GND
V
Signal
Ground
Figure 20 - Input PNP command using TC1100 power
Outputs
There is an output available on the TC1100 Scan Engine relative to the Good Read
event. The pins are indicated in Table 2. The connections are indicated in the
following diagram:
TC1100
USER INTERFACE
J1
3
OUT +
2
OUT -
Vext 40 Vdc max
Figure 21 - Output connection (Good Read). Example NPN
14
INSTALLATION
2
External Beeper Connection
A beeper output signal is provided on J1 pin 4 so that an external piezoelectric
buzzer with internal oscillator can be connected for Good Read acoustic signaling.
The complete circuit to be built is shown in the schematic diagram below.
+5 Vdc (J2 pin 1)
+5 Vdc (J2 pin 1)
+
D1 (1N4148)
BZ1 (see below)
R2 (10K)
BEEPER (J1 pin 4)
Q1 (BC337)
R1 (1K)
GND (J2 pin 2)
Figure 22 - TC1100 Scan Engine Beeper Connection
The following list indicates several piezoelectric buzzers that can be used in the
circuitry above (part BZ1).
Manufacturer
Type
MURATA
DIGISOUND
CITIZEN
BUJEON
PKB30SPC - 2001/3001
F/TCW05
MEB-12C-5
BS12-A
See chapter 3 for Beeper Control commands.
15
TC1100
2
2.3
POSITIONING
The TC1100 scanner is able to decode barcode labels at a variety of angles,
however significant angular distortion may degrade reading performance.
When mounting the TC1100 take into consideration these three ideal label position
angles: Pitch 0°, Skew 10° to 30° and Tilt 0°. Follow the suggestions for the best
orientation:
The Pitch angle is represented by the value P in Figure 23. Position the reader in
order to minimize the Pitch angle.
P
Figure 23 - Pitch Angle
The Skew angle is represented by the value S in Figure 24. Position the reader to
assure at least 10° for the Skew angle. This avoids direct light reflection.
S
Figure 24 - Skew angle
16
INSTALLATION
2
The Tilt angle is represented by the value T in Figure 25. Position the reader in order
to minimize the Tilt angle.
T
Figure 25 - Tilt angle
2.4
GFC-TC1100 ACCESSORY
The GFC-TC1100 is an 80° deflection mirror that is mounted directly to the TC1100
Scanner or Scan Engine.
Figure 26 - GFC-TC1100
The overall dimensions are provided in the figure below and can be used for its
mounting.
17
TC1100
2
104
[4.10]
10
[0.39]
4.5
[0.18]
10
[0.39]
20
[0.79]
70
[2.76]
20
[0.79]
24
[0.94]
7
[0.28]
84.5
[3.33]
50°
Figure 27 - GFC-TC1100 Overall Dimensions
To fix a TC1100-1xx Scanner to the GFC-TC1100, use the 4 M 2.5x5 mm screws
supplied with the GFC Kit. Refer to the figure below.
Figure 28 – Fixing TC1100 Scanner to GFC-TC1100
18
INSTALLATION
2
To fix a TC1100-0xxx Scan Engine to the GFC-TC1100, use the 4 M 2.5x10 mm
screws together with the 4 plastic spacers and nuts supplied with the GFC Kit. Refer
to the figure below.
Figure 29 – Fixing TC1100 Scan Engine to GFC-TC1100
The 80° deflection mirror assures that the minimum skew angle is maintained to
avoid direct light reflection which can degrade reading performance.
TC1100 – 0x00
50°
or
TC1100 – 1x00
80°
Code Surface
10°
Figure 30 – Maintaining minimum skew angle
19
TC1100
3
3
3.1
SOFTWARE CONFIGURATION STRINGS
DEFAULT CONFIGURATION
RS232 INTERFACE
9600 baud, parity disabled, 8 data bits, 1 stop bit, handshaking disabled,
ACK/NACK from Host disabled, 100 ms RX timeout, FIFO enabled, inter-character
delay disabled
WEDGE INTERFACE
USA keyboard, caps lock off, delays disabled, control character emulation =
ctrl+shift+key;
PEN Emulation INTERFACE
interpret mode, conversion to code 39 disabled, output level normal, idle level
normal, minimum output pulse 600 µs, overflow medium
DATA FORMAT
Code identifier disabled, field adjustment disabled, code length TX disabled,
character replacement disabled, header = STX, terminator = CR LF
POWER SAVE
270 read/sec, sleep disabled, standby disabled
READING PARAMETERS
On-Line mode
DECODING PARAMETERS
Ink spread enabled, overflow control enabled, interdigit control enabled, Puzzle
Solver™ disabled, decoding safety = 1 read
20
3
CODE SELECTION
enabled codes
•
Interleaved 2 of 5
Check digit transmitted, variable length code; 4-99 characters
•
EAN8/EAN13UPC A/UPC B without ADD ON
Check digit transmitted, no conversions
•
Code 39
variable length code; 1-99 characters
•
Code 128
Check digit not transmitted, variable length code; 1-99 characters
PDF417 (TC1100-x200 only)
•
disabled codes
EAN 128, ISBT128,Code 93, Codabar, pharmaceutical codes,
Codablock-A, Codablock-F Standard and EAN, MSI, Plessey, Telepen,
Delta IBM, Code 11, Code 16K, Code 49
21
TC1100
3
3.2
TC1100 CONFIGURATION
TC1100 is factory set for RS232 Interface applications. The easiest way to configure
TC1100 is by using the DL Sm@rtSet™ utility program installed from the CD
included with this manual. Otherwise you can configure the scanner using this
manual as follows:
To use this manual for configuration:
1) Connect your TC1100 to a PC RS232 port according to the information in
chapter 2. Set the PC serial port to the TC1100 default RS232 communication
parameters.
2) Using a Terminal Emulation Program send the Restore Default string to the
reader using the syntax described on the next page.
3) Send all the necessary command strings according to your application's
requirements.
CAUTION
The WEDGE or PEN Emulation interface selections must be sent
last since they will cause the reader to no longer accept RS232
communications.
If working with the Wedge or Pen emulation interfaces, it is possible to return to the
RS232 connection by reading the code given below:
Return to RS232 Interface
i$1k
i$1k
i$1k
For WEDGE or PEN Emulation Users
22
3
Command Syntax
The command syntax is given below with an example:
Command(s)
$+
$-
<CR>
The new setting will be definitive (stored in FLASH EPROM)
Example:
Multiple command programming sequence:
$+
BK0 CD7
AC410132
$-
CR
Carriage return character (0D Hex.)
Exit and save new configuration
Matrix 2/5 3 bars: no check digit,
variable length code from 1 to 32 characters
Baud rate = 19200
Serial On-Line operating mode
Enter configuration environment
Each configuration parameter setting removes the condition previously active for that
parameter.
NOTE
The device buffer can contain about 400 characters. If your
programming string goes over this value, you must split it into separate
groups and send each group after a delay of at least 3 seconds to give
the reader time to empty the buffer and interpret the commands.
23
TC1100
3
SERIAL CONFIGURATION STRINGS
ENTER/EXIT CONFIGURATION COMMANDS
DESCRIPTION
Enter Configuration
Exit and Save Configuration
Restore Default
Transmit Software Release (not for PEN emulation)
STRING
$+
$$+$*<CR>
$+$!<CR>
These commands do not require $-.
INTERFACE SELECTION
DESCRIPTION
RS232
WEDGE for IBM AT
for IBM Terminals: 31xx, 32xx, 34xx, 37xx; make-break keyboard
for IBM Terminals: 31xx, 32xx, 34xx, 37xx; make-only keyboard
Keyboard Type for IBM Terminals 31xx, typewriter
32xx, 34xx, 37xx
advanced
for IBM XT
for IBM Terminal 3153
for IBM PC Notebook
for IBM SURE1
for IBM AT - ALT mode
for IBM PC Notebook - ALT mode
for Wyse Terminal - ANSI Keyboard
for Wyse Terminal - PC Keyboard
for Wyse Terminal - ASCII Keyboard
for Wyse Terminal - VT220 style Keyboard
for Digital Terminals VT2xx/3xx/4xx
for Apple ADB Bus
PEN EMULATION
24
STRING
CP0
CP500
CP501
CP502
FK0
FK1
CP503
CP504
CP505
CP506
CP507
CP508
CP509
CP510
CP511
CP514
CP512
CP513
CP6
3
RS232
DESCRIPTION
Baud rate
STRING
CD0
CD1
CD2
CD3
CD4
CD5
CD6
CD7
CD8
CC0
CC1
CC2
CA0
CA1
CA2
CB0
CB1
CE0
CE1
CE2
CE3
CF0
CF3
EC0
EC1
CK00 - CK99
CL00 - CL99
150
300
600
1200
2400
4800
9600
19200
38400
Parity
none
even
odd
Data bits
7
8
9
Stop bits
1
2
Handshaking
disable
RTS/CTS
XON/XOFF
RTS always On
ACK/NACK Protocol
disable
enable
FIFO
disable
enable
Inter-character delay (ms)
RX Timeout (100 ms)
WEDGE
DESCRIPTION
Keyboard nationality
Belgian
English
French
German
Italian
Spanish
Swedish
USA
STRING
FJ7
FJ4
FJ2
FJ3
FJ1
FJ6
FJ5
FJ0
25
TC1100
3
WEDGE (continued)
DESCRIPTION
Caps Lock
Num Lock
Delays
Control Character Emulation
caps Lock ON
caps Lock OFF
Toggle Num Lock
Num Lock Unchanged
Inter-Character (ms)
Inter-Code (s)
Ctrl + Shift + Key
Ctrl + Key
STRING
FE1
FE0
FL1
FL0
CK00 - CK99
FG00 - FG99
FO0
FO1
PEN
DESCRIPTION
Operating mode
Minimum output pulse
Conversion to Code 39
Output level
Idle level
Overflow
Inter-Block delay (100 ms)
26
interpret (does not require $+ or $-)
transparent (does not require $+ or $-)
200µs
400µs
600µs
800µs
1 ms
1.2 ms
disable conversion to Code 39
enable conversion to Code 39
normal
inverted
normal
inverted
narrow overflow
medium overflow
wide overflow
STRING
$]
$[
DG0
DG1
DG2
DG3
DG4
DG5
DA0
DA1
DD0
DD1
DE0
DE1
DH0
DH1
DH2
CK00-CK99
3
DATA FORMAT
NOT FOR PEN EMULATION INTERFACES
DESCRIPTION
Code Identifier
disable
Datalogic standard
AIM standard
Custom
Custom Code Identifier
Headers
Terminators
no header
one character
two characters
three characters
four characters
five characters
six characters
seven characters
eight characters
no terminator
one character
two characters
three characters
four characters
five characters
six characters
seven characters
eight characters
STRING
EB0
EB1
EB2
EB3
EHabc
EA00
EA01x
EA02xx
EA03xxx
EA04xxxx
EA05xxxxx
EA06xxxxxx
EA07xxxxxxx
EA08xxxxxxxx
EA10
EA11x
EA12xx
EA13xxx
EA14xxxx
EA15xxxxx
EA16xxxxxx
EA17xxxxxxx
EA18xxxxxxxx
a = ASCII character.
b, c, x = HEX values representing an ASCII character.
a = ASCII character of the DATALOGIC STANDARD Code Identifier from the table in
Appendix A.
b = Hex value of the first Custom Code Identifier character from 00 to FE;
FF = disable Code Identifier
c = Hex value of the second Custom Code Identifier character from 00 to FE;
FF = disable second character of Custom Code Identifier
x=
Hex value from 00 to FE
27
TC1100
3
DATA FORMAT (continued)
NOT FOR PEN EMULATION INTERFACES
DESCRIPTION
Code Length Tx
not transmitted
transmitted in variable-digit format
transmitted in fixed 4-digit format
disable
right addition
left addition
right deletion
left deletion
Field Adjustment
Field Adjustment Character
Character Replacement
disable character replacement
first character replacement
second character replacement
third character replacement
STRING
EE0
EE1
EE2
EF0
EFa0d
EFa1d
EFa2d
EFa3d
EGe
EO0
EO1afg
EO2afg
EO3afg
a = ASCII character.
d = a number from the Hex/Numeric Table
e, f, g = HEX values representing an ASCII character
a = ASCII character of the DATALOGIC STANDARD Code Identifier from the table in
Appendix A.
d = a number in the range 01-32 from the Hex/Numeric Table
e = Hex value from 00 to FE
f = Hex value of the character to be replaced from 00 to FE
g = Hex value of the new character to insert from 00 to FE
FF = replace with no new character (remove character)
POWER SAVE
DESCRIPTION
Read Rate
Sleep State
Enter Sleep Timeout (100 ms)
Standby
28
67 reads per sec.
135 reads per sec.
270 reads per sec.
disable
enable
enable
disable
STRING
BT0
BT1
BT2
BQ0
BQ1
BR00-BR99
BM0
BM1
3
READING PARAMETERS
DESCRIPTION
Operating Modes
See page 41 for details
Beeper Intensity
Beeper Tone
Beeper Type
Beeper Length
serial on-line
on-line
automatic
test Mode
disable
enable
very low intensity
low intensity
medium intensity
high intensity
Tone 1
Tone 2
Tone 3
Tone 4
monotone
bitonal
long
short
STRING
BK0
BK1
BK3
#DStat0<CR>
#DStat1<CR>
BG0
BG1
BG2
BG3
BH0
BH1
BH2
BH3
BJ0
BJ1
BI0
BI1
DECODING PARAMETERS
DESCRIPTION
Ink-Spread
Overflow Control
Interdigit Control
Puzzle SolverTM
Decoding Safety
disable
enable
disable
enable
disable
enable
disable
enable
one read
two reads
three reads
four reads
CODE SELECTION
DESCRIPTION
DISABLE ALL FAMILY CODES
EAN/UPC
Disable EAN/UPC family
EAN 8/EAN 13/UPC A/UPC E
without ADD ON
with ADD ON
with and without ADD ON
EAN 8/EAN 13
without ADD ON
with ADD ON 2 ONLY
with ADD ON 5 ONLY
with ADD ON 2 AND 5
STRING
AX0
AX1
AW1
AW0
AV0
AV1
AU0
AU1
ED0
ED1
ED2
ED3
STRING
AZ0
AA0
AA1
AA5
AA8
AA3
AAK
AAL
AA6
29
TC1100
3
CODE SELECTION (continued)
DESCRIPTION
UPC A/UPC E
EAN 8 check digit transmission
EAN 13 check digit transmission
UPC A check digit transmission
UPC E check digit transmission
Conversions
ISBN Conversion codes
Code 39
without ADD ON
with ADD ON 2 ONLY
with ADD ON 5 ONLY
with ADD ON 2 AND 5
disable
enable
disable
enable
disable
enable
disable
enable
UPC E to UPC A
UPC E to EAN 13
UPC A to EAN 13
EAN 8 to EAN 13
enable ISBN
enable ISSN
enable ISBN and ISSN
disable ISBN and ISSN
disable Code 39 family
Standard
no check digit control
check digit control and transmission
check digit control without transmission
Full ASCII
CIP 39
Code 32
code length
xxxx = ASCII numbers that define the code length where:
• First 2 digits = minimum acceptable code length.
• Second 2 digits = maximum acceptable code length.
The minimum code length must always be less than or equal to the maximum.
The maximum code length for all codes is 99 characters.
Examples:
0132 = variable length from 1 to 32 digits in the code.
1010 = 10 digit code length only.
30
STRING
AA4
AAM
AAN
AA7
AAG0
AAG1
AAH0
AAH1
AAI0
AAI1
AAJ0
AAJ1
AAA
AAB
AAC
AAD
AP1
AP2
AP3
AP0
AB0
AB11
AB12
AB13
AB21
AB22
AB23
AB3
AB4
AB*xxxx
DESCRIPTION
2/5
disable Code 2/5 family
Interleaved 2/5
Normal 2/5 5 bars
Industrial 2/5 (IATA) no check digit control
Matrix 2/5 3 bars
CIP/HR
Codabar
disable Codabar family
Standard
no start/stop character equality control
nor transmission
but transmission
start/stop character equality control
but no transmission
start/stop character equality control
and transmission
ABC Codabar
but transmission
Codabar ABC forced concatenation
code length
start/stop character case in transmission lower case
upper case
3
STRING
AC0
AC11xxxx
AC12xxxx
AC13xxxx
AC21xxxx
AC22xxxx
AC23xxxx
AC31xxxx
AC32xxxx
AC33xxxx
AC41xxxx
AC42xxxx
AC43xxxx
AC5
AD0
AD111
AD112
AD121
AD122
AD212
AD232
AD*xxxx
ADA0
ADA1
xxxx = ASCII numbers that define the code length where:
•
•
First 2 digits = minimum acceptable code length.
Second 2 digits = maximum acceptable code length.
The minimum code length must always be less than or equal to the maximum.
The maximum code length for all codes is 99 characters:
EXAMPLES:
0132 = variable length from 1 to 32 digits in the code.
1010 = 10 digit code length only.
31
TC1100
3
DESCRIPTION
Code 128
Code 93
Codablock-A
Codablock-F
MSI
Plessey
Telepen
Delta IBM
32
enable Code 128
control without transmission of check digit
enable EAN 128
add GS before Code disable
enable
ISBT 128
enable ISBT 128
enable all concatenations
disable all concatenations
enable Code 93
disable
enable
disable the family
enable Standard
enable EAN
disable the family
no check
MOD10 no tx
MOD10 with tx
MOD11-MOD10 no tx
MOD11-MOD10 with tx
MOD10-MOD10 no tx
MOD10-MOD10 with tx
disable the family
Standard no check
Standard check - with tx
Standard check - no tx
Anker no check
Anker check - with tx
Anker check - no tx
disable the family
Numeric no check
Numeric check - with tx
Numeric check - no tx
Alpha no check
Alpha check - with tx
Alpha check - no tx
disable the family
no check
Type 1 check
Type 2 check
STRING
AI0
AI11
AI21
EQ0
EQ1
AI31
=&FNC3=<=>103d1
=&FNC3=<=>103d0
AK0
AK1
AO0
AO1
AN0
AN1
AN2
AE0
AE1
AE2
AE3
AE4
AE5
AE6
AE7
AF0
AF11
AF12
AF13
AF21
AF22
AF23
AL0
AL11
AL12
AL13
AL21
AL22
AL23
AH0
AH1
AH2
AH3
3
DESCRIPTION
Code 11
Code 16K
Code 49
PDF417
disable the family
no check
Type C with tx
Type C no tx
Type K with tx
Type K no tx
Type C and K with tx
Type C and K no tx
disable
enable
disable
enable
disable
enable
STRING
AG0
AG1
AG21
AG22
AG31
AG32
AG41
AG42
AJ0
AJ1
AM0
AM1
AR0
AR1
33
TC1100
4
4
REFERENCES
4.1
4.1.1
RS232 PARAMETERS
Handshaking
Hardware handshaking: (RTS/CTS)
The RTS line is activated by the decoder before transmitting a character.
Transmission is possible only if the CTS line (controlled by the Host) is active.
Signals at
EIA levels
RTS
TX
Transmitted data
Transmitted data
Host busy
CTS
Figure 31 - RTS/CTS handshaking
Software handshaking: (XON/XOFF)
During transmission, if the Host sends the XOFF character (13 Hex), the decoder
interrupts the transmission with a maximum delay of one character and only resumes
when the XON character (11 Hex) is received.
Transmitted data
Transmitted data
TX
RX
XOFF
Host busy
XON
Host ready
Figure 32 - XON/XOFF handshaking
34
REFERENCES
4.1.2
4
ACK/NACK from Host Protocol
This parameter sets a transmission protocol in which the Host responds to the reader
after every code transmitted. The Host sends an ACK character (06 HEX) in the case
of good reception or the NACK character (15 HEX) requesting re-transmission, in the
case of bad reception.
data
TC1100
cable
Host
ACK or NACK
Figure 33 - ACK/NACK enabled
4.1.3
FIFO
This parameter determines whether data (barcodes) are buffered on a First In First
Out basis allowing faster data collection in certain cases for example when using
slow baud rates and/or hardware handshaking.
If the FIFO buffering is enabled, codes are collected and sent out on the serial line in
the order of acquisition. About 800 characters can be collected (buffer full), after
which the reader signals an error and discards any further codes until the
transmission is restored.
If the FIFO buffering is disabled, each code must be transmitted before another one
can be read.
4.1.4
RX Timeout
When the RS232 interface is selected, the Host can be used to configure the device
by sending it command strings (see chapter 3).
This parameter can be used to automatically end data reception from the Host after
the specified period of time.
If no character is received from the Host, after the timeout expires, any incomplete
string (any string not terminated by <CR>) is flushed from the device buffer.
35
TC1100
4
4.2
PEN PARAMETERS
4.2.1
Minimum Output Pulse
This parameter sets the duration of the output pulse corresponding to the narrowest
element in the barcode. In this way the code resolution is controlled by the signal
sent to the decoder, independently of the physical resolution of the code read.
The shortest pulse (200 µs) corresponds to a high resolution code emulation and
therefore a shorter transfer speed to the decoder (for decoders able to work on high
resolution codes). Likewise, longer pulses correspond to low resolution code
emulation and therefore a longer transfer time to the decoder.
4.2.2
Overflow
This parameter generates a white space before the first bar and after the last bar of
the code. The selections are as follows:
narrow
medium
wide
36
= space 10 times the minimum output pulse.
REFERENCES
4.2.3
4
Output and Idle Levels
The following state diagrams describe the different output and idle level combinations
for Pen Emulation:
idle
bar
OUTPUT: Normal
space
IDLE: Normal
black
white
barcode output
bar
OUTPUT: Normal
IDLE: Inverted
idle
space
black
white
barcode output
space
OUTPUT: Inverted
IDLE: Normal
idle
white
bar
black
barcode output
OUTPUT: Inverted
IDLE: Inverted
idle
white
space
bar
black
barcode output
Figure 34 - Output and Idle Levels
4.2.4
Inter-Block Delay
For the PEN Emulation interface, data are sent to the Host in fixed size blocks of 20
characters each. The inter-block delay parameter allows setting a delay between
each block sent to the Host.
37
TC1100
4
4.3
DATA FORMAT
4.3.1
Header/Terminator Selection
The header/terminator selection is not effected by the reading of the restore default
code. In fact, header and terminator default values depend on the interface selection:
RS232:
no header, terminator CR-LF
WEDGE:
no header, terminator ENTER
These default values are always restored through the reading of RS232 or WEDGE
interface selection code, see chapter 3.
For the WEDGE interface, the following extended keyboard values can also be
configured:
EXTENDED KEYBOARD TO HEX CONVERSION TABLE
IBM AT
IBM 3153
APPLE ADB
IBM XT
IBM 31xx, 32xx,
34xx, 37xx
Wyse
Digital
HEX
KEY
KEY
KEY
KEY
83
84
85
86
87
88
89
8A
8B
8C
8D
8E
8F
90
91
92
93
94
95
96
97
98
99
9A
9B
ENTER
TAB
F1
F2
F3
F4
F5
F6
F7
F8
F9
F10
F11
F12
HOME
END
PG UP
PG DOWN
↑
↓
←
→
ESC
CTRL (Right)
Euro
ENTER
TAB
F1
F2
F3
F4
F5
F6
F7
F8
F9
F10
ESC
BACKSPACE
HOME
END
PG UP
PG DOWN
↑
↓
←
→
ESC
CTRL (Right)
Space
FIELD EXIT
TAB
F1
F2
F3
F4
F5
F6
F7
F8
F9
F10
F11
F12
ENTER
RESET
INSERT
DELETE
FIELD FIELD +
ENTER (Paddle)
PRINT
RETURN
TAB
F1
F2
F3
F4
F5
F6
F7
F8
F9
F10
F11
F12
F13
F14
F15
F16
UP
DOWN
LEFT
RIGHT
ESC
CTRL (Right)
Space
Space
For all readers using Wedge interface, all values from 9C to FE send the Space character.
38
REFERENCES
4
SET CUSTOM EXTENDED HEADER/TERMINATOR KEYS
The extended Header/Terminator keys for Wedge Interface users can be
customized by defining them through a simple keyboard setting procedure.
For example, the Numeric Keypad keys can be set for use as Headers or
Terminators by substituting the default extended keys using this procedure.
The type of computer or terminal must be selected before activating the keyboard
setting command.
Press and release a key to set it.
Some characters may require more than one key pressed simultaneously during
normal use (refer to the manual of your PC or terminal for keyboard use). The exact
sequence must be indicated to the reader in this case pressing and releasing the
different keys.
Example:
If one has to press the "Shift" and "4" keys simultaneously on the keyboard to
transmit the character "$" to the video, to set the "$", press and release "Shift" then
press and release "4".
Each pressed and released key must generate an acoustic signal on the reader,
otherwise repress the key. Never press more than one key at the same time, even if
this corresponds to the normal use of your keyboard.
Press "Backspace" to correct a wrong key entry. In this case the reader emits 2
beeps.
Note: "CAPS LOCK" and "NUM LOCK" must be off before starting the keyboard
setting procedure. "SHIFT" must be repressed for each character and cannot
be substituted by "CAPS LOCK".
39
TC1100
4
Set Custom Extended Header/Terminator Keys
$+FB1$-
Enter the code above.
•
If the first 4 KEYS (Shift, Alt, Ctrl, and Backspace) are not available on
your keyboard, you can only substitute them with keys not used, or
substitute them with each other.
•
Keys 5 to 28 must be defined
Press the desired keys in the following order:
The reader signals the end of the procedure with 2 beeps indicating the keys
have been registered.
CUSTOM EXTENDED KEYBOARD SETTING TABLE
Custom
40
Order
HEX
KEY
01
02
03
04
05
06
07
08
09
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
83
84
85
86
87
88
89
8A
8B
8C
8D
8E
8F
90
91
92
93
94
95
96
97
98
99
9A
Shift
Alt
Ctrl
Backspace
REFERENCES
4.4
4
POWER SAVE
4.4.1
Sleep State
This mode allows the µP in the reader to enter a “Sleep” state for minimum power
consumption. This command is only valid when On-Line is selected.
Before entering Sleep mode, the following are verified:
•
•
•
no commands coming from Host
no data being transmitted to Host
Enter Sleep Timeout ended
To exit Sleep mode press the trigger.
Enabling the Sleep state implements Standby mode for CCD devices.
4.4.2
Enter Sleep Timeout
For readers that have the Sleep state enabled, this timeout determines when the
reader will enter this state.
4.4.3
Standby
If this command is enabled, part of the CCD circuitry shuts down (Standby), in order
to optimize low power consumption when not reading. When the trigger is pressed
this circuitry powers up. This mode causes a minor delay of about 100 ms before the
reader is ready.
4.5
READING PARAMETERS
4.5.1
Operating Modes
This group of parameters allows setting different reading modes:
•
ON-LINE: the TC1100 reader is connected to an external Presence Sensor
using EXT TRIG+ and EXT TRIG- inputs. During the active phase of the
presence sensor, the TC1100 tries to acquire and correctly decode the code. If
the operation is successful, the barcode characters are transmitted on the serial
interface in the format defined by the current configuration. Otherwise a No
Read message is sent: it is fixed as the CAN symbol;
41
TC1100
4
•
AUTOMATIC: the TC1100 reader does not require connections with external
presence sensors in this operating mode. In this mode the illuminator is always
ON and TC1100 is continuously scanning. The reading phase is enabled when
a barcode enters the reading zone of the camera and is terminated after a fixed
number of scans without a code. The next reading phase will begin when a code
enters the reading zone again.
The number of scans without a code is an optimized value for the CCD camera
in order to improve code identification in the reading zone. Code transmission
occurs as in the other operating modes but in case of No Read condition there is
no transmission on the serial port.
•
SERIAL ON-LINE: the reading phase starts when the Serial Start Character is
received on the serial interface and ends when the code is read or a Serial Stop
Character is received. If decoding is correct, the data is transmitted on the serial
port as defined by the configuration. Otherwise a No Read message is sent: it is
fixed as the CAN symbol. The Start and Stop characters are also fixed:
Serial START:
STX
Serial STOP:
ETX
•
TEST MODE: test mode allows verifying the reader position and the associated
reading features. The code is continuously read when in this mode. After
400 ms, the values relative to an internal counter and the decoded code are
displayed and transmitted on the serial interface.
The counter reports a statistical calculation which consists of a good reading
percentage of the total acquisitions.
The following message could be displayed:
Counter value
Code
090%
12345ABC
If the CCD reader cannot decode a label, the following message will be
displayed:
0%.
Only one barcode label must be read for each reading cycle.
NOTE
42
Since Test Mode is basically a diagnostic mode, it can only be
enabled at run time and not saved to a non-volatile memory.
For the same reason, this operating mode must be disabled
only via RS232 interface by selecting another Operating Mode
command, if you want to restore the previous state of the
reader.
REFERENCES
4.5.2
4
Reads per Cycle
In general, a reading cycle corresponds to the Phase ON / Phase OFF times of a
device.
The resulting effects of this parameter on code reading depend on other related
configuration conditions. Here are the definitions of Phase ON and Phase OFF times.
When one read per cycle is selected, the device decodes only one code during the
Phase ON period and immediately turns to the Phase OFF. It is only possible to read
another code when the next Phase ON time occurs.
In multiple reads per cycle, the Phase ON period is extended so that the device
can continue decoding codes until an OFF event occurs.
4.6
DECODING PARAMETERS
CAUTION
4.6.1
These parameters are intended to enhance the decoding capability
of the reader for particular applications. Used incorrectly, they can
degrade the reading performance or increase the possibility of a
decoding error.
Ink-Spread
The ink-spread parameter allows the decoding of codes which are not perfectly
printed because the page texture tends to absorb the ink.
4.6.2
Overflow Control
The overflow control parameter can be disabled when decoding codes printed on
small surfaces, which don’t allow the use of an overflow space.
This command does not effect code families 2/5, Code 128 and Code 93.
This command is forced (enabled) when PDF417 codes are enabled.
4.6.3
Interdigit Control
The interdigit control parameter verifies the interdigit spacing for code families
Code 39 and Codabar.
43
TC1100
5
5
TECHNICAL FEATURES
ELECTRICAL FEATURES
Supply voltage
Power consumption
Interfaces
LED Indicators
OPTICAL FEATURES
Sensor
Max read rate
Reading field
Max. resolution
ENVIRONMENTAL FEATURES
Working temperature
Storage temperature
READING FEATURES
Readable codes:
MECHANICAL FEATURES
Dimensions (LxWxH)
44
5 Vdc ± 5%
1.5 W
RS232, Wedge, PEN Emulation
Power ON / Power OFF / Good Read / Miss
Read
CCD solid state
270 read/sec
See diagrams on page 45
0.076 mm (3 mils)
0° to +40 °C / 32° to 104 °F
-20° to +70 °C / 4° to 158 °F
EAN/UPC
Code 39
2/5 family
Codabar
Code 128
EAN 128
ISBT 128
Code 93
Pharmaceutical codes
Telepen
MSI
Plessey
Delta IBM
Codablock-A
Codablock-F Std
Codablock-F EAN
Code 11
Code 16K
Code 49
PDF417 (TC1100-x200 only)
60.5 x 63 x 27 mm / 2.38 x 2.48 x 1.06 in
TECHNICAL FEATURES
5
READING DIAGRAMS
160
0
20
40
60
80
100 120
140
160 180
200 220
240 260
280 300
320
140
120
100
0.20 mm
80
60
40
20
0
-20
-40
-60
-80
-100
-120
-140
-160
0.13 mm
0.20 mm
0.30 mm
0.50 mm
(5 mils)
(8 mils)
(12 mils)
(20 mils)
Reading Diagram TC1100-0100 (code 39)
0
10
20
30
40
50
60
70
80
90
100 110 120 130 140 150 160 170 180
90
80
70
60
50
40
0.17 mm
30
(6.6 mils)
20
10
0
-10
-20
-30
0.25 mm
(10 mils)
-40
-50
-60
-70
0.38 mm
-80
(15 mils)
-90
Reading Diagram TC1100-0200 (PDF417)
Figure 35 - TC1100 Scan Engine Reading diagrams
45
TC1100
5
mm
160
0
20
40
60
80
100 120
140
160 180
200 220
240 260
280 300
320
140
120
100
0.20 mm
80
60
40
20
0
-20
-40
-60
-80
-100
-120
-140
-160
0.13 mm
0.20 mm
0.30 mm
0.50 mm
(5 mils)
(8 mils)
(12 mils)
(20 mils)
Reading Diagram TC1100-1100 (code 39)
mm
0
10
20
30
40
50
60
70
80
90
100 110 120 130 140 150 160 170 180
90
80
70
60
50
40
0.17 mm
30
(6.6 mils)
20
10
0
-10
-20
-30
0.25 mm
(10 mils)
-40
-50
-60
-70
0.38 mm
-80
(15 mils)
-90
Reading Diagram TC1100-1200 (PDF417)
Figure 36 - TC1100 Scanner Reading diagrams
46
CODE IDENTIFIER TABLE
A
A
CODE
2/5 interleaved
2/5 industrial
2/5 normal 5 bars
2/5 matrix 3 bars
EAN 8
EAN 13
UPC A
UPC E
EAN 8 with 2 ADD ON
EAN 8 with 5 ADD ON
EAN 13 with 2 ADD ON
EAN 13 with 5 ADD ON
UPC A with 2 ADD ON
UPC A with 5 ADD ON
UPC E with 2 ADD ON
UPC E with 5 ADD ON
Code 39
Code 39 Full ASCII
CODABAR
ABC CODABAR
Code 128
EAN 128
ISBT 128
Code 93
CIP/39
CIP/HR
Code 32
Codablock-A
Codablock-F Std
Codablock-F EAN
MSI
Plessey Standard
Plessey Anker
Telepen
Delta IBM
Code 11
Code 16K
Code 49
PDF417
AIM STANDARD
]Iy
]Xy
]Sy
]Xy
]E4
]E0
]Xy
]Xy
]E5
]E6
]E1
]E2
]Xy
]Xy
]Xy
]Xy
]Ay
]Ay
]Fy
]Xy
]Cy
]Cy
] C4
]Gy
]Xy
]Xy
]Xy
]O6
]O4
]O5
]My
]P0
]P1
]X0
]X0
]Hy
]K0
]Ty
]L0
DATALOGIC STANDARD
Custom
N
P
O
Q
A
B
C
D
J
K
L
M
F
G
H
I
V
W
R
S
T
k
f
U
Y
e
X
n
l
m
Z
a
o
d
c
b
p
q
r
47
TC1100
B
B
HEX/NUMERIC TABLE
CHARACTER TO HEX CONVERSION TABLE
48
char
hex
char
hex
char
hex
NUL
SOH
STX
ETX
EOT
ENQ
ACK
BEL
BS
HT
LF
VT
FF
CR
SO
SI
DLE
DC1
DC2
DC3
DC4
NAK
SYN
ETB
CAN
EM
SUB
ESC
FS
GS
RS
US
SPACE
!
"
#
$
%
&
'
(
)
00
01
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08
09
0A
0B
0C
0D
0E
0F
10
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18
19
1A
1B
1C
1D
1E
1F
20
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28
29
*
+
,
.
/
0
1
2
3
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9
:
;
<
=
>
?
@
A
B
C
D
E
F
G
H
I
J
K
L
M
N
O
P
Q
R
S
T
2A
2B
2C
2D
2E
2F
30
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39
3A
3B
3C
3D
3E
3F
40
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46
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49
4A
4B
4C
4D
4E
4F
50
51
52
53
54
U
V
W
X
Y
Z
[
\
]
^
_
`
a
b
c
d
e
f
g
h
i
j
k
l
m
n
o
p
q
r
s
t
u
v
w
x
y
z
{
|
}
~
DEL
55
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5A
5B
5C
5D
5E
5F
60
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6A
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70
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79
7A
7B
7C
7D
7E
7F
DATALOGIC S.p.A.,
Via Candini, 2
40012 - Lippo di Calderara
Bologna - Italy
dichiara che
declares that the
déclare que le
bescheinigt, daß das Gerät
declare que el
TC1100-XXXX Compact CCD Reader
e tutti i suoi modelli
and all its models
et tous ses modèles
und seine modelle
y todos sus modelos
sono conformi alle Direttive del Consiglio Europeo sottoelencate:
are in conformity with the requirements of the European Council Directives listed below:
sont conformes aux spécifications des Directives de l'Union Européenne ci-dessous:
den nachstehenden angeführten Direktiven des Europäischen Rats:
cumple con los requisitos de las Directivas del Consejo Europeo, según la lista siguiente:
89/336/EEC EMC Directive
e
and
et
und
y
92/31/EEC, 93/68/EEC
emendamenti successivi
further amendments
ses successifs amendements
späteren Abänderungen
succesivas enmiendas
Basate sulle legislazioni degli Stati membri in relazione alla compatibilità elettromagnetica ed alla sicurezza
dei prodotti.
On the approximation of the laws of Member States relating to electromagnetic compatibility and product
safety.
Basées sur la législation des Etates membres relative à la compatibilité électromagnétique et à la sécurité
des produits.
Über die Annäherung der Gesetze der Mitgliedsstaaten in bezug auf elektromagnetische Verträglichkeit und
Produktsicherheit entsprechen.
Basado en la aproximación de las leyes de los Países Miembros respecto a la compatibilidad
electromagnética y las Medidas de seguridad relativas al producto.
Questa dichiarazione è basata sulla conformità dei prodotti alle norme seguenti:
This declaration is based upon compliance of the products to the following standards:
Cette déclaration repose sur la conformité des produits aux normes suivantes:
Diese Erklärung basiert darauf, daß das Produkt den folgenden Normen entspricht:
Esta declaración se basa en el cumplimiento de los productos con las siguientes normas:
EN 55022, August 1994:
LIMITS AND METHODS OF MEASUREMENTS OF RADIO DISTURBANCE
CHARACTERISTICS OF INFORMATION TECHNOLOGY EQUIPMENT (ITE)
EN 55024, September 1998:
INFORMATION TECHNOLOGY EQUIPMENT. IMMUNITY CHARACTERISTICS.
METHODS OF MEASUREMENTS
EN 61000-6-2, April 1999:
ELECTROMAGNETIC COMPATABILITY (EMC).
PART 6-2: GENERIC STANDARDS  IMMUNITY FOR INDUSTRIAL ENVIRONMENTS
LIMITS AND
Ruggero Cacioppo
Lippo di Calderara, 21.03.2002
Quality Assurance Supervisor

TC1100 - Treiber Handbuch Software

Transcription

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