Go to page of
Similar user manuals
-
Printer
Toshiba TEC B-670 SERIES
35 pages 0.8 mb -
Printer
Toshiba e-STUDIO 332S
137 pages 14.93 mb -
Printer
Toshiba B-880-QQ SERIES
34 pages 0.73 mb -
Printer
Toshiba EO1-33027E
122 pages 2.27 mb -
Printer
Toshiba B-EP4DL
28 pages 0.77 mb -
Printer
Toshiba e-studio 351c
426 pages -
Printer
Toshiba B-852-TS12-QQ
118 pages 2.2 mb -
Printer
Toshiba e-STUDIO 383p
77 pages 3.57 mb
A good user manual
The rules should oblige the seller to give the purchaser an operating instrucion of Toshiba B-SX4T-GS20-QM-R, along with an item. The lack of an instruction or false information given to customer shall constitute grounds to apply for a complaint because of nonconformity of goods with the contract. In accordance with the law, a customer can receive an instruction in non-paper form; lately graphic and electronic forms of the manuals, as well as instructional videos have been majorly used. A necessary precondition for this is the unmistakable, legible character of an instruction.
What is an instruction?
The term originates from the Latin word „instructio”, which means organizing. Therefore, in an instruction of Toshiba B-SX4T-GS20-QM-R one could find a process description. An instruction's purpose is to teach, to ease the start-up and an item's use or performance of certain activities. An instruction is a compilation of information about an item/a service, it is a clue.
Unfortunately, only a few customers devote their time to read an instruction of Toshiba B-SX4T-GS20-QM-R. A good user manual introduces us to a number of additional functionalities of the purchased item, and also helps us to avoid the formation of most of the defects.
What should a perfect user manual contain?
First and foremost, an user manual of Toshiba B-SX4T-GS20-QM-R should contain:
- informations concerning technical data of Toshiba B-SX4T-GS20-QM-R
- name of the manufacturer and a year of construction of the Toshiba B-SX4T-GS20-QM-R item
- rules of operation, control and maintenance of the Toshiba B-SX4T-GS20-QM-R item
- safety signs and mark certificates which confirm compatibility with appropriate standards
Why don't we read the manuals?
Usually it results from the lack of time and certainty about functionalities of purchased items. Unfortunately, networking and start-up of Toshiba B-SX4T-GS20-QM-R alone are not enough. An instruction contains a number of clues concerning respective functionalities, safety rules, maintenance methods (what means should be used), eventual defects of Toshiba B-SX4T-GS20-QM-R, and methods of problem resolution. Eventually, when one still can't find the answer to his problems, he will be directed to the Toshiba service. Lately animated manuals and instructional videos are quite popular among customers. These kinds of user manuals are effective; they assure that a customer will familiarize himself with the whole material, and won't skip complicated, technical information of Toshiba B-SX4T-GS20-QM-R.
Why one should read the manuals?
It is mostly in the manuals where we will find the details concerning construction and possibility of the Toshiba B-SX4T-GS20-QM-R item, and its use of respective accessory, as well as information concerning all the functions and facilities.
After a successful purchase of an item one should find a moment and get to know with every part of an instruction. Currently the manuals are carefully prearranged and translated, so they could be fully understood by its users. The manuals will serve as an informational aid.
Table of contents for the manual
-
Page 1
TOSHIBA Bar Code Printer B-SX4T Series, B-SX5T Series External Equipment Interface Specification First Edition: November 18, 2002 2nd Edition: February 21, 2003 3rd Edition: June 6, 2003 4th Edition: August 22, 2003 5th Edition: February 27, 2004 6th Edition: January 14, 2005 7th Edition: February 8, 2005 8th Edition: May 9, 2005 9th Edition: April[...]
-
Page 2
i TABLE OF CONTENTS Page 1. SCOPE ....................................................................................................................... ................ 1 2. GENERAL D ESCRIPTION......................................................................................................... 1 3. INTE RFACE ................................[...]
-
Page 3
ii Page 6.3.21 2-BYTE WRITABLE CHARACTER CODE RANGE COMMAND .................................... 197 6.3.22 BIT MAP WRITABLE CHARACT ER COMMAND ([ESC ] XD) ......................................... 198 6.3.23 BIT MAP WRITABLE CHARA CTER COMMAND ([ ESC] XA) ......................................... 199 6.3.24 GRAPHIC COMMAND ........................[...]
-
Page 4
iii Page 9. STATUS RESPONSE ............................................................................................................. ... 267 9.1 FUNCT IONS .................................................................................................................. ........ 267 9.1.1 STATUS FORMAT .........................................[...]
-
Page 5
- 1 - 1. SCOPE This specification applies to the external equi pment interface for use with the B-SX4T-GS10/20- QQ/QP/CN/QQ-US and B-SX4T-GS10- QQ-CCS (hereinafter referred to as “B-SX4T”) and B-SX5T- TS12/22-QQ/QP/CN/QQ-US (hereinafter referred to as “B-SX5T”) industrial high-performance class general-purpose bar code printers. 2. GENERAL [...]
-
Page 6
- 2 - The following table shows the combination of t he main program and the boot program. As shown below, some combinations disable the proper printer operation. Boot program Main program V1.0 V1.1 V1.1A V2.0 V2.0A V2.0B V2.0E V3.0 V1.0 { { X X X X X X V1.0A { { X X X X X X V1.0B { { X X X X X X V1.0C { { X X X X X X V1.0D { { X X X X X X V1.1 { {[...]
-
Page 7
- 3 - Boot program Main program V1.0 V1.1 V1.1A V2.0 V2.0A V2.0B V2.0E V3.0 V5.4 X5.4 X X X X X X X X X X X X X X { { V5.5 X X X X X X X { { : This combination enables the proper printer operation. X: This combination disables the proper printer operation. NOTES: 1. Some program versi ons are not released actually. 2. Boot programs V1.1A and V2.0A [...]
-
Page 8
- 4 - Main PC board MAIN4-R or greater MAIN3-R or earlier Boot program earlier than V3.0 When the boot program is sent to the printer by the downloader, the printer shows “MODEL TYPE ERROR” on the LCD and results in an error. When the COM is used as the interface, the downloader shows “Check Sum Error”. (Then, the printer is forcibly shut d[...]
-
Page 9
- 5 - The model configuration and the differences betw een the models of the B-SX series are described below. Model B-SX4T-GS10/20- QQ/QQ-US, B-SX4T- GS10-QQ-CCS B-SX4T-GS10/20-QP B-SX4T-GS10/20-CN Flash ROM 4 MB × 1 = 4 MB Memory Whole 8 MB × 1 = 8 MB SDRAM Image buffer of whole SDRAM 1.2 MB (Label length: 1500 mm) When the SNMP function is enab[...]
-
Page 10
- 6 - Model B-SX5T-TS12/22-QQ B-SX5T -TS 12/22-QP B-SX5T-TS12/22-CN Flash ROM 4 MB × 1 = 4 MB Memory Whole 16 MB × 1 = 16 MB SDRAM Image buffer of whole SDRAM 3.3 MB (Label length: 1500 mm) When the SNMP function is enabled: 1.65 MB (Label length: 750 mm) Chinese ROM None Standard RS-232C Standard Centronics Standard USB board Option 100BASE LAN [...]
-
Page 11
- 7 - Available PCMCIA cards • LAN card SCCE589ET series only, manufactured by 3COM • ATA card ATA flash card using flash memory manufactured by SanDisk or HITACHI. • Flash memory card Capacity Manufacturer Item Code Device Code Manufacturer’s Code Operation 1 MB Maxell EF-1M-TB AA D0H 1CH Read only Mitsubishi MF81M1-GBDAT01 4 MB Maxell EF-[...]
-
Page 12
- 8 - 3. INTERFACE 3.1 SERIAL INTERFACE (1) Type: Conforming to RS-232C (2) Mode of Communication: Full duplex (3) Transmission Speed: 2400 bps 4800 bps 9600 bps 19200 bps 38400 bps 115200 bps (4) Synchronization Method: Start-stop synchronization (5) Start Bit: 1 bit (6) Stop Bit: 1 bit 2 bits (7) Data Length: 7 bits 8 bits (8) Parity: None Even O[...]
-
Page 13
- 9 - (13) Transmission Control: XON/XOFF (DC1/DC3) Protocol READY/BUSY (DTR) Protocol XON/XOFF (DC1/DC3) Protocol + READY/BUSY (DTR) Protoc ol READY/BUSY (RTS) Protocol c XON/XOFF (DC1/DC3) Protocol z When initialized after the power is turned on, this printer becomes ready to receive data and sends an XON code (11H). (Transmissi on or non-transmi[...]
-
Page 14
- 10 - e XON/XOFF (DC1/DC3) Protocol + READY/BUSY (DTR) Protocol z When initialized after the power is turned on, this printer becomes ready to receive data and turns the DTR signal to “High” level (READY). The printer also sends an XON code (11H). z When the blank positions in the receive buffe r become 10 Kbytes or less, the printer turns the[...]
-
Page 15
- 11 - (14) Input/Output Signals (15) Connector Pin Assignment and Signal Description Pin No. Signal Name Function Signal Direction 1 FG z Ground line for circuit protection 2 RD z Line for data which the printer receives from the host. z Logic 1 is a Low level, while logic 0 is a High level. z It is in the Low (Mark) state when no transmission is [...]
-
Page 16
- 12 - RD CTS DSR SN75189 or equivalent SN75188 or equivalent TD RTS DTR (16) Interface Circuit z Input Circuit z Output Circuit z Signal Levels Input Voltage H ...... +3 ~ +15 V L ....... -3 ~ -15 V Output Voltage H ...... +6 ~ +13 V L ....... -6 ~ -13 V[...]
-
Page 17
- 13 - 3.2 PARALLEL INTERFACE (1) Type: Centronics (2) Mode: Conforms to IEEE1284 Compat ibility mode, Nibble mode, and ECP mode (3) Data Input Method: Parallel 8 bits (DATA1 ~ 8) (4) Control Signals: Compatibility mode Nibble mode ECP mode nStrobe HostClk HostClk nAck PrtClk PeriphClk Busy PtrBusy PeriphAck PError AckDataReq nAckReverse Select Xfl[...]
-
Page 18
- 14 - (7) Input/Output Circuit Configur ation and Input/Output Conditions: Signal Configuration DATA1 ~ 8 Logic level Input nStrobe/HostClk/HostClk nInit/nInit/ nReverseRequest nAutoFd/HostBusy/ HostAck nSelectIn/IEEE1284Active/ IEEE1284Active (Input) “1” = 2 ~ 5 V “0” = 0 ~ 0.4 V Outpu t Busy/PtrB usy/PeriphAck nFault/nDataAvail/ nPeriphR[...]
-
Page 19
- 15 - (9) Connector Pin Diagram (IEEE1284-B Connector): Pin Signal Name No. Compatibility Mode Nibble mode ECP mode 1 nStrobe HostClk HostClk 2 Data 1 Data 1 Data 1 3 Data 2 Data 2 Data 2 4 Data 3 Data 3 Data 3 5 Data 4 Data 4 Data 4 6 Data 5 Data 5 Data 5 7 Data 6 Data 6 Data 6 8 Data 7 Data 7 Data 7 9 Data 8 Data 8 Data 8 10 nAck PtrClk PeriphCl[...]
-
Page 20
- 16 - (10) Input/Output Signals : Compatibility mode c Data 1 ~ 8 (Printer ← Host) z Input data signals for the 1st to 8th bits. z Logic 1 is “High” level. z Min. data pulse width of 2.5 µsec. d nStrobe (Printer ← Host) z Synchronizing signal for reading the above data. z Normally at “High” level. The data is read at the rise of the L[...]
-
Page 21
- 17 - g nInit (Printer ← Host) z Reset request signal from the host. z Normally at “High” level. A low on this i nput causes the printer to be initialized in the same manner as when the power is turned on. * When “Reset process when the nInit signal is ON” is set to “OFF” in the parameter setting in the system mode, the printer is no[...]
-
Page 22
- 18 - Nibble mode c PtrClk (Printer → Host) z Reverse data transfer phase: It is used for evaluating data sent to the host. z Reverse idle phase: When the printer changes the signal from Low to High, an interrupt informing the host that the data is available, occurs d PtrBusy (Printer → Host) z Reverse data transfer phase: Data bit 3 is used f[...]
-
Page 23
- 19 - ECP mode c Data 1 ~ 8 (Printer ← → Host) z Input/output data signals for the 1st to 8th bits. z Logic 1 is “High” level. d HostClk (Printer ← Host) z This signal is used with the PeriphAck signal for transferring data information or address information from the host to peripheral equipment when a closed loop and handshake are execu[...]
-
Page 24
- 20 - (11) Timing Chart c When receiving normal data: For the Compatibility mode, one of two types of timing for BUSY-ACK can be selected. a) Timing 1 (Default) z The USB board has not been installed. z The USB board has been installed. b) Timing 2 Data 1 ~ 8 (Host → Printer) nStrobe (Host → Printer) Busy (Host ← Printer) nAck (Host ← Prin[...]
-
Page 25
- 21 - d Receiving data in the Compatibility mode when t he blank positions in the receive buffer are 512 bytes or less: z When the blank positions in the receive buffe r become 512 bytes or less, the printer stores all of the already received data in the receive buffer, continues to be in a Busy state (Busy signal at “High” level) for 10 secon[...]
-
Page 26
- 22 - Status to be returned immediately after [ESC ] WS [LF] [NUL] is received (13 bytes): SOX STX Status Remaining count ETX EOT CR LF 01H 02H 3XH 3XH 3XH 3XH 3XH 3XH 3XH 03H 04H 0DH 0AH (13) Status with the receive buffer free space information The printer should return a status with the re ceive buffer free space information to the Nibble mode [...]
-
Page 27
- 23 - 3.3 USB INTERFACE (1) Standard: Conforming to USB Standard Rev. 1.1 (2) Data Transfer Type: Cont rol transfer, Bulk transfer (3) Transfer Rate: Full speed (12 Mbps) (4) Transfer Control Method: Same as the transfe r control method described in “(13) Data transfer in ECP mode” of section 3.2 “PARALLEL INTERFACE” 3.4 NETWORK INTERFACE [...]
-
Page 28
- 24 - 4. KEY OPERATION FUNCTIONS 4.1 SYSTEM MODE FUNCTIONS The system mode has the following functions for t he printer self-test and setting various parameters. For details, refer to Key Operation Specification (TAA-1379). (1) Self-test • Maintenance counter/various parameters printouts • Automatic self-test • Head broken dots check (2) Var[...]
-
Page 29
- 25 - (3) Various parameters settings • Feed fine adjustment • Cut (strip) position fine adjustment • Back feed fine adjustment • X-coordinate fine adjustment • Print density fine adjustment (Thermal transfer print mode) • Print density fine adjustment (Direct thermal print mode) • Ribbon motor drive voltage fine adjustment (Rewind) [...]
-
Page 30
- 26 - (9) RFID setting • RFID module type selection RFID module’s destination code setting • RFID tag type selection Password to protect error tag detection • RFID error tag detection Access password setting • Max. number of RFID issue retries Automatic unlock function setting • Max. number of RFID read retries • RFID read retry time[...]
-
Page 31
- 27 - Parameter Initial Value Print density fine adjustment (Direct thermal print mode) (Key) 0 Ribbon motor drive voltage fine adjustment (Rewind) (Key) 0 Ribbon motor drive voltage fine adjustment (Back tension) (Key) 0 X-coordinate fine adjustment (Key) 0 mm Transmissive sensor manual threshold fine adjustment value 1.4 V Reflective sensor manu[...]
-
Page 32
- 28 - Parameter Initial Value Centronics operation mode SPP Plug-and-play operation mode OFF Label end/ribbon end process setting TYPE1 Pre-peel-off process setting OFF Back feed speed 3”/sec MaxiCode specification setting TYPE1 B-SX4 V2 type: TPH104R7 Print head type setting B-SX5 V2 type: TPH128R5 Status response ON Label pitch 76.2 mm Effecti[...]
-
Page 33
- 29 - Parameter Initial Value LAN enable/disable setting OFF XML specification setting STD (V4.4A and Xx.x only) Z-MODE enable/disable setting OFF (C5.3 or greater, Cx.x only) • The total label distance covered, sensor adjustment values (system mode <5>), IP address setting, socket communication number setting, and dat a of flash memory (f[...]
-
Page 34
- 30 - 5. TRANSMISSION SEQUENCE This section describes the out line of the transmission sequence. 5.1 INITIALIZATION Writable characters, logo, and PC interface commands must be stored before the label issue operation. (1) Storing writable characters and logo NOTES: (1) The storage of writable characters or l ogos is only performed if it is require[...]
-
Page 35
- 31 - (2) Storing PC interface commands NOTES: (1) The storage of PC commands is only performed if it is required. (2) When the flash memory card is used, and the Format Com mand is not sent before storing already stored PC interface comm ands , memory will be taken up with every such storing. (3) When the flash memory card is used, and another op[...]
-
Page 36
- 32 - 5.2 LABEL ISSUE OPERATION An example of the label issue operation is described below. (1) Where the Saved Data Call Command is not used: NOTES: (1) When placing new paper, the Label Size Set Comm and and the Feed Command must always be sent. When using the same paper after the power is turned off and on, the Label Size Set Command and the Fe[...]
-
Page 37
- 33 - (2) Where the Saved Data Call Command is used: NOTES: (1) When placing new paper, the Feed Command must always be sent. When using the same paper after the power is turned off and on, the Feed Command m ay be omitted. (2) If the option for “automatic call at power on” for the Saved Data Call Comm and has previously been selected, the Sav[...]
-
Page 38
- 34 - 6. INTERFACE COMMANDS 6.1 OUTLINE OF COMMANDS (1) Format of Interface command z The length from [ESC] to [LF] [NUL] must be as specified by each command. z There are the following three kinds of control codes: c ESC (1BH), LF (0AH), NUL (00H) d { (7BH), | (7CH), } (7DH) e Code set in the system mode (2) How to use reference Function Describe[...]
-
Page 39
- 35 - 6.2 LIST OF COMMANDS (1) Commands related to setting Label Size Set Co mmand [ESC ] D ...................................... 37 (2) Commands related to fine adjustment Position Fine Adjust Command [ ESC] AX .................................... 43 Print Density Fine Adju st Command [ ESC] AY.................................... 51 Ribbon Motor[...]
-
Page 40
- 36 - (10) Commands related to check Head Broken Dots Che ck Command [ ESC] HD ................................. 223 (11) Commands related to display Message Display Co mmand [ESC ] XJ .................................. 224 (12) Commands related to control Reset Command [ESC] WR ................................ 226 Batch Reset Co mmand [ESC ] Z0 .[...]
-
Page 41
- 37 - 6.3 COMMANDS FOR CREATING APPLICATION 6.3.1 LABEL SIZE SET COMMAND [ESC] D Function Sets the size of a label or tag. Format [ESC] Daaaa, bbbb, cccc (, dddd) [LF] [NUL] Term aaaa: Pitch length of the label or tag 4 and 5 digits (in 0.1 mm units) 4 digits: 0100 (10.0 mm) to 9999 (999.9 mm) 5 digits: 00100 (10.0 mm) to 15000 (1500.0 mm) bbbb: E[...]
-
Page 42
- 38 - [Setting range] [Labels] [Tags] Black mark (Back side of print) Paper feed direction B E A G D C H Ori g in c Origin d I Cut position Stop p osition I Stop position H G C F A Tag Origin c Origin d Cut p osition Origin of coordinates (0, 0) [Tags] Tag Paper feed direction 0 X Y Tag pitch Black mark (Back side of print) Origin of coordinates ([...]
-
Page 43
- 39 - [mm] Model B-SX4T B-SX5T Cut Cut Swing Rotary cutter Swing Rotary cutter Issue mode Item Batch Strip cutter Head-up operation not performed Head-up operation performed Batch Strip cutter Head-up operation not performed Head-up operation performed Thermal head dot density 8 dots/mm (203 dpi) 12.05 dots/mm (306 dpi) Thermal head width 104.0 mm[...]
-
Page 44
- 40 - B-SX4T: (*1): When a cut issue is performed at 3 ips by using the rotary cutter, label length B should be as follows: Label length B ≥ 91.0 mm - (*2): When a cut issue is performed at 6 ips by using the rotary cutter, label length B should be as follows: Label length B ≥ 103.0 mm - (*3): When a cut issue is performed by using the swing c[...]
-
Page 45
- 41 - Notes (1) Before changing the label size or type of sensor, the Label Size Set Command must first be transmitted. (2) The Label Size Set Command is protected in memory (even if the power is turned off). (3) After sending the Label Size Set Co mmand, one sheet of paper must be fed by the Feed Command ([ESC] T) and must be aligned with the fir[...]
-
Page 46
- 42 - Examples (1) Labels (2) Tags [ESC] D0508, 0760, 0468, 0820 [LF] [NUL ] [ESC] D0762, 0996, 0722 [LF] [NUL] [ESC] T20C30 [LF] [NUL] [ESC] T10C30 [LF] [NUL] 46.8 mm 50.8 mm 76.0 mm Effective print area Label Backing paper 72.2 mm 76.2 mm 99.6 mm Effective print area Tag Black mark (Back side of print) 82.0 mm[...]
-
Page 47
- 43 - 6.3.2 POSITION FINE ADJUST COMMAND [ESC] AX Function c Adjusts the feed value so that the label will be shifted forward or backward from the automatically set first print start position. d Adjusts the cut position so that the label will be cut at a position shifted forward or backward from the automatically set cut positi on, or adjusts the [...]
-
Page 48
- 44 - Explanation [Feed Length Fine Adjustment] (To finely adj ust the feed for shifting backward or forward) [Cut Position Fine Adjustment] (To finely adjust the cut position for shifting backward or forward) 0.0 mm +3.0 mm -3.0 mm First print position Paper feed direction One label One label One label First print position First print position 0.[...]
-
Page 49
- 45 - [Strip Position Fine Adjustment] Printing in strip issue mode is stopped at the position where the distance from the middle point of the label-to-label gap to the end of the strip shaft is 4 mm, since the label-to-label gap is assumed to be 2 mm. When the print stop position is not proper, the print stop position should be adjusted using the[...]
-
Page 50
- 46 - Notes (1) If the feed value fine adjustment, cut position (or strip position) fine adjustment or back feed value fine adjustment has been se t in the system mode (key operation on the printer), the fine adjustment value will be the sum of the fine adjustment by this command and the fine adjustment in the system mode. The max. fine adjustment[...]
-
Page 51
- 47 - NOTES: 1. If the head is being lifted when the edge of the label which is being ejected passes the paper feed roller, the sensor may not be able to detect an error even if it occurs (a feed cannot be performed). 2. If the head-up solenoid temperature is high when a cut issue is about to be performed with the head lifted, the head may not be [...]
-
Page 52
- 48 - (b) Operation example Issue count: 2, Cut interval = 1 A B A (1) Idling Head position Cut position A (5) Completes printing the second label (B). (9) Feeds the label to the cut position, then cuts the gap at the front of label C B C (2) Completes printing the first label (A). (3) Feeds the label to the cut position, then cuts the gap at the [...]
-
Page 53
- 49 - (7) Procedure for label having less than the minimum label pitch for each issue speed when the rotary cutter is used: When the following conditions are all met, the cut operation for the last label to be cut is as follows. Forward feed to the cut position → Cut with feeding → Feed stops → Head lifted → Reverse feed to the home positi[...]
-
Page 54
- 50 - Examples (1) Cut issue [ESC] AX; +020, +035, +10 [LF] [NUL] [ESC] T21C30 [LF] [NUL] (2) Strip issue [ESC] AX; +010, +020, +00 [LF] [NUL] [ESC] T20D30 [LF] [NUL] Cut 2.0 mm 2.0 mm 3.5 mm 3.0 mm Cut Paper feed direction Preprinted z Finely adjust the print position by +2.0 mm. z Finely adjust the cut position by +3.5 mm. z Finely adjust the ba[...]
-
Page 55
- 51 - 6.3.3 PRINT DENSITY FINE ADJUST COMMAND [ESC] AY Function Adjusts the automatically set print density. Format [ESC] AY; abb, c [LF] [NUL] Term a: Indicates whether to increase or decrease the density. +: Increase (darker) -: Decrease (lighter) bb: Print density fine adjustment value 00 to 10 (in units of 1 step) c: Indicates the mode for fin[...]
-
Page 56
- 52 - 6.3.4 RIBBON MOTOR DRIVE VOLTAGE FINE ADJUST COMMAND [ESC] RM Function Finely adjusts the drive voltage of the ribbon motor. Format [ESC] RM; abbcdd [LF] [NUL] Term a: Fine adjustment dire ction of the ribbon rewind motor -: Negative (The voltage is lowered.) bb: Fine adjustment value for the ribbon rewind motor 00 to 15 (in units of 1 step)[...]
-
Page 57
- 53 - 6.3.5 IMAGE BUFFER CLEAR COMMAND [ESC] C Function Clears the image buffer for drawi ng characters, lines, bar codes, and graphics. Format [ESC] C [LF] [NUL] Explanation (1) After changing the label size, the image buffer must be cleared. (2) The increment/decrement designati on (described later) is valid until the Image Buffer Clear Command [...]
-
Page 58
- 54 - 6.3.6 CLEAR AREA COMMAND [ESC] XR Function Clears the designated area or reverses the white/black dot pattern in the designated area in the drawing area. Format [ESC] XR; aaaa, bbbb, cccc, dddd, e [LF] [NUL] Term aaaa: Designated area start point X-coordinate Fixed as 4 digits (in 0.1 mm units) bbbb: Designated area start point Y-coordinate [...]
-
Page 59
- 55 - [Effective print area] [mm] Model B-SX4T B-SX5T Cut Cut Swing Rotary cutter Swing Rotary cutter Issue mode Item Batch Strip cutter Head-up operation not performed Head-up operation performed Batch Strip cutter Head-up operation not performed Head-up operation performed Effective print width Min. 10.0 10.0 Max. 104.0 128.0 Effective print len[...]
-
Page 60
- 56 - 6.3.7 LINE FORMAT COMMAND [ESC] LC Function Sets the line format and draws the line. Format [ESC] LC; aaaa, bbbb, cccc, dddd, e, f (, ggg) (, h)[LF] [NUL] Term aaaa: Start point X-coordinate Fixed as 4 digits (in 0.1 mm units) bbbb: Start point Y-coordinate 4 or 5 digits (in 0.1 mm units) cccc: End point X-coordinate Fixed as 4 digits (in 0.[...]
-
Page 61
- 57 - [Line] (1) Horizontal line (In the case of |Y 2 - Y 1 | = 0) (2) Vertical line (In the case of |X 2 - X 1 | = 0) (3) Slant line A ( |X 2 - X 1 | ≤ |Y 2 - Y 1 | ) (4) Slant line B ( |X 2 - X 1 | > |Y 2 - Y 1 | ) (X 1 ,Y 1 ) (X 2 ,Y 2 ) Line width (X 1 ,Y 1 ) (X 2 ,Y 2 ) Line width (X 1 ,Y 1 ) (X 2 ,Y 2 ) (X 1 ,Y 1 ) (X 2 ,Y 2 ) Line widt[...]
-
Page 62
- 58 - [Rectangle] (1) Radius of rounded corners = 000 or parameter omitted (2) Radius of rounded corners ≠ 000 Notes (1) In line designation, a horizontal line, vertical line, or slant line A/B is drawn according to the start and end point coordinates. (2) The result is the same even if t he start and end point coordinates are reversed. (3) The [...]
-
Page 63
- 59 - (4) Programming the radius of the rounded corner is effective only when the type of line is 1 (rectangle). When the type of li ne is 0, designation of the radius is ignored. When the type of line is 1, and the radius of the rounded corner is 000 or omitted, a rectangle is printed. (5) A circle is assumed when: [Effective print area] [mm] Mod[...]
-
Page 64
- 60 - 6.3.8 BIT MAP FONT FORMAT COMMAND [ESC] PC Function Sets the format indicating the position on the label at which the bit map font is to be printed and how it is to be printed. Format c [ESC] PCaaa; bbbb, cccc, d, e, ff (, ghh), ii, j (, Jkkll) (, Mm) (, noooooooooo) (, Zpp) (, Pq) (=rrr------rrr) [LF] [NUL] d [ESC] PCaaa; bbbb, cccc, d, e, [...]
-
Page 65
- 61 - N: Letter Gothic (Medium) 14.3 point 9.5 point O: Prestige Elite (Medium) 10.5 point 7 point P: Prestige Elite (Bold) 15 point 10 point Q: Courier (Medium) 15 point 10 point R: Courier (Bold) 18 point 12 point S: OCR-A 12 point 12 point T: OCR-B 12 point 12 point a: (Reserved) b: (Reserved) c: (Reserved) d: (Reserved) e: (Reserved) f: (Reser[...]
-
Page 66
- 62 - ii: Rotational angles of a character and character string 00: 0° (char.) 0° (char.-string) 11: 90° (char.) 90° (char.-string) 22: 180° (char.) 180° (char.-string) 33: 270° (char.) 270° (char.-string) 01: 0° (char.) 90° (char.-string) 12: 90° (char.) 180° (char.-string) 23: 180° (char.) 270° (char.-string) 30: 270° (char.) 0° [...]
-
Page 67
- 63 - noooooooooo: Increment and decrement (Omissible. If omitted, increment ing/decrementing is not performed.) n: Designates whether to increment or decrement. +: Increment - : Decrement oooooooooo: Skip value 0000000000 to 9999999999 Zpp: Zero suppression (Omissible. If omitted, the zero suppression process is not performed.) pp: No. of zeros t[...]
-
Page 68
- 64 - Explanation (1) Character string number When drawing by the Data Command ([ESC] RC), the format designated by the character string number is selected. (2) Print origin of coordinates [Printing direction: Printing bottom firs t] [Printing direction: Printing top first] The print origin of coordinates must be set so t hat the character drawing[...]
-
Page 69
- 65 - [Effective print area] [mm] Model B-SX4T B-SX5T Cut Cut Swing Rotary cutter Swing Rotary cutter Issue mode Item Batch Strip cutter Head-up operation not performed Head-up operation performed Batch Strip cutter Head-up operation not performed Head-up operation performed Effective print width Min. 10.0 10.0 Max. 104.0 128.0 Effective print len[...]
-
Page 70
- 66 - Char. height Char. width Point of origin Horizontal spacing/ proportional spacing Left offset Point of origin of next char. Enlar g e Char. height × Vertical magnification Char. Width × Horizontal magnification (Horizontal spacing/ proportional spacing) × Horizontal magnification Point of ori g in Point of origin of next char. [Relationsh[...]
-
Page 71
- 67 - q: Gothic725 Black : r: Chinese (24×24 dots) : To print font “r”, the Chinese ROM is required. (5) Fine adjustment of c haracter-to-character space If no character-to-character space is s pecified or the number of space dots between characters is 0, drawing will take place a ccording to the horizontal spacing/proportional spacing determ[...]
-
Page 72
- 68 - (7) Selection of character attribution (8) Bold character designation (9) Check digit to be attached When Modulus 10 or Modulus 43 is selected, the check digit of a data row is calculated and attached to the data row for drawing. When modulus 10 is designated and the data includes any data other than the numerals, the data row will not be dr[...]
-
Page 73
- 69 - (10) Increment/decrement Printing is performed while the data is incr emented or decremented every time a label is issued. Where the data row exceeds the ma ximum number of digits (40), the data row will not be drawn. When the font type is r, 51, 52, 53, 54, or 55, the incrementing/decrementing cannot be designated. (If it is designated, it [...]
-
Page 74
- 70 - (12) Alignment If characters are not placed on one line when equal space and automatic line feed is designated, the following steps should be performed. Decrease the value of the character-to-char acter space. When characters are not placed on one line if the value is set to 0, return the value to its default, and then reduce the horizontal [...]
-
Page 75
- 71 - (14) Link field No. The link field No. can be programmed by designat ing it after the symbol “;”. After the link field No. is designated using the Format Comm and, the data strings ar e linked by the Link Field Data Command to draw an image. Up to 20 fields can be linked. The following shows an example of linked fields on the two continu[...]
-
Page 76
- 72 - Notes (1) The check digit attachment, increment/decrement, and zero suppress processes are performed according to the following priority. If any of the conditions are improper, no drawing will take place. For example, the zero(s) is replac ed by a space(s) as a result of zero suppression but the modulus 10 designated to be attached cannot be[...]
-
Page 77
- 73 - (3) The Bit Map Font Format Command ma y be connected to the Outline Font Format Command when transmitted. [ESC] P C001; 0100, 0150, 1, 1, A, 00, B [LF] C002; 0350, 0180, 1, 1, A, 00, B [LF] C005; 0200, 0300, 25, 2, C, +05, 00, B, +0000000001 [LF] V01; 0500, 0400, 0100, 0100, A, 00, B [LF] [NUL] (4) When the drawing data is changed per label[...]
-
Page 78
- 74 - Examples [ESC] C [LF] [NUL] [ESC] PC000; 0200, 0300, 1, 1, A, 00, B=ABCD [LF] [NUL] [ESC] PC001; 0200, 0125, 1, 1, C, 00, B [LF] [NUL] [ESC] PC002; 0650, 0550, 2, 2, G, 33, B, +0000000001 [LF] [NUL] [ESC] RC001; Sample [LF] [NUL] [ESC] RC002; 001 [LF] [NUL] [ESC] XS; I, 0002, 0002C3000 [LF] [NUL] 12.5 mm S a m p l e 55.0 mm 20.0 mm 65.0 mm E[...]
-
Page 79
- 75 - [ESC] C [LF] [NUL] [ESC] PC001; 0200, 0300, 1, 1, C, 00, B; 01, 02 [LF] [NUL] [ESC] PV01; 0650, 0550, 0200, 0150, B, 33, B; 02 [LF] [NUL] [ESC] XB01; 0200, 0550, 3, 1, 03, 03, 08, 08, 03, 0, 0150; 01, 02 [LF] [NUL] [ESC] RC; S [LF] 001 [LF] [NUL] [ESC] XS; I, 0002, 0002C3000 [LF] [NUL] 30.0 mm 55.0 mm 20.0 mm 65.0 mm Effective print area Ori[...]
-
Page 80
- 76 - [ESC] C [LF] [NUL] [ESC] PC000; 0200, 0125, 1, 1, W, 00, B [LF] [NUL] [ESC] PC001; 0200, 0300, 1, 1, W, 01, B [LF] [NUL] [ESC] RC000; AB [LF] [NUL] [ESC] RC001; AB [LF] [NUL] [ESC] XS; I, 0002, 0002C3000 [LF] [NUL] 12.5 mm 30.0 mm 20.0 mm Effective print area Origin (0, 0) (3)[...]
-
Page 81
- 77 - 6.3.9 OUTLINE FONT FORMAT COMMAND [ESC] PV Function Sets the format to indicate the positi on on the label, at which the outline font is to be printed and how it is to be printed. ~ Fonts other than TrueType font Format c [ESC] PVaa; bbbb, cccc, dddd, eeee, f (, ghhh), ii, j (, Mk) (, lmmmmmmmmmm) (, Znn) (, Po) (=ppp------ppp) [LF] [NUL] d [...]
-
Page 82
- 78 - j: Character attribution B: Black character W (aabb): Reverse character aa: No. of dots from the c haracter string to the end of the black background in the horizontal direction. bb: No. of dots from the c haracter string to the end of the black background in the vertical direction. aa: 01 to 99 (in units of dots) bb: 01 to 99 (in units of d[...]
-
Page 83
- 79 - Po: Alignment (Omis sible. If omitted, the alignment is s et to the left.) o: Designates the character position. 1: Left 2: Center 3: Right 4aaaa: Equal space aaaa: X direction of character string area 0050 to 1040 (in 0.1 mm units) B-SX4 0050 to 1280 (in 0.1 mm units) B-SX5 ppp------ppp: Data string to be printed (Omissible) Max. 255 digits[...]
-
Page 84
- 80 - ~ TrueType font Format [ESC] PVaa; bbbb, cccc, dddd, eeee, ff, g (, hiii), jj, k (=ppp ------ ppp) [LF] [NUL] Term aa: Character string number 00 to 99 bbbb: Print origin of X-coor dinate of the character string Fixed as 4 digits (in 0.1 mm units) cccc: Print origin of Y-coordinate of the charact er string 4 or 5 digits (in 0.1 mm units) ddd[...]
-
Page 85
- 81 - g: Drive Indicates where the TrueTy pe font files are stored. 0: Flash ROM on the CPU board 1: Slot 1 on the PCMCIA board (Option) 2: Slot 2 on the PCMCIA board (Option) * “0” cannot be specified for the font types from 21 to 25. hiii: Fine adjustment of character-to-character space (Omissible. If omitted, space is adjus ted according to[...]
-
Page 86
- 82 - Explanation (1) Character string number When drawing by the Data Command ([ ESC] RV), the format designated by the character string number is selected. (2) Print origin of coordinates • The print origin of coordinates must be set so the character drawing result will be within the effective print area set by the Label Size Set Command ([ESC[...]
-
Page 87
- 83 - [Effective print area] [mm] Model B-SX4T B-SX5T Cut Cut Swing Rotary cutter Swing Rotary cutter Issue mode Item Batch Strip cutter Head-up operation not performed Head-up operation performed Batch Strip cutter Head-up operation not performed Head-up operation performed Effective print width Min. 10.0 10.0 Max. 104.0 128.0 Effective print len[...]
-
Page 88
- 84 - (4) Type of font A: TEC FONT1 (Helvetica [bold]) B: TEC FONT1 (Helvetica [bold] proportional) E: Price font 1 (POP font)[...]
-
Page 89
- 85 - F: Price font 2 (POP font) G: Price font 3 (POP font) H: DUTCH801 Bold (Times Roman Proportional)[...]
-
Page 90
- 86 - I: BRUSH 738 Regular (Pop Proportional) J: GOTHIC725 Black (5) Fine adjustment of c haracter-to-character space If no character-to-character space is specified or the number of space dots between characters is 0, drawing will ta ke place according to the horizontal spacing/proportional spacing determined fo r each character. If character-to-[...]
-
Page 91
- 87 - (6) Rotational angles of a character and character string (7) Selection of character attribution (8) Check digit to be attached When Modulus 10 or Modulus 43 is sele cted, the check digit of a data row is calculated and attached to the data row for drawing. When modulus 10 is designated and the data includes any data ot her than the numerals[...]
-
Page 92
- 88 - (9) Increment/decrement Printing is performed while the data is in cremented or decremented each time a label is issued. Where the data row exceeds the ma ximum number of digits (40), the data row will not be drawn. Initial value 0000 0000 0000 0000 999999 INC/DEC +10 +10 +10 +10 +1 Zero suppression Not designated 5 3 0 3 1st label 0000 0000[...]
-
Page 93
- 89 - (13) Link field No. The link field No. can be programmed by designat ing it after the symbol “;.” After the link field No. is designated using the Format Comm and, the data strings ar e linked by the Link Field Data Command to draw an image. Up to 20 fields can be linked. The following shows an example of linked fields on the two continu[...]
-
Page 94
- 90 - [Examples] 1) Format Command (Increment character string No. 01 (+1)) 2) Format Command (No incrementing for character string No. 02) 3) Format Command (Increment character string No. 03 (+2)) 4) Image Buffer Clear Command 5) Data Command (Character string No. 01 “0001”) 6) Data Command (Character string No. 02 “AB-”) 7) Data Command[...]
-
Page 95
- 91 - (4) When the drawing data is changed per label issue during printing, the drawing data field for the previous label is autom atically cleared using the character string number, then the next drawing data is print ed. Therefore, the character string number which differs according to the drawing fields should be designated. Since the automatic[...]
-
Page 96
- 92 - Examples [ESC] C [LF] [NUL] [ESC] PV00; 0200, 0300, 0080, 0080, B, 00, B=ABCD [LF] [NUL] [ESC] PV01; 0200, 0125, 0100, 0100, B, 00, B [LF] [NUL] [ESC] PV02; 0650, 0550, 0200, 0150, B, 33, B, +0000000001 [LF] [NUL] [ESC] RV01; Sample [LF] [NUL] [ESC] RV02; 001 [LF] [NUL] [ESC] XS; I, 0002, 0002C3000 [LF] [NUL] Origin (0, 0) 12.5 mm S a m p l [...]
-
Page 97
- 93 - [ESC] C [LF] [NUL] [ESC] PC001; 0200, 0300, 1, 1, C, 00, B; 01, 02 [LF] [NUL] [ESC] PV01; 0650, 0550, 0200, 0150, B, 33, B; 02 [LF] [NUL] [ESC] XB01; 0200, 0550, 3, 1, 03, 03, 08, 08, 03, 0, 0150; 01, 02 [LF] [NUL] [ESC] RV; S [LF] 001 [LF] [NUL] [ESC] XS; I, 0002, 0002C3000 [LF] [NUL] (2) 30.0 mm 55.0 mm 20.0 mm 65.0 mm Effective print area[...]
-
Page 98
- 94 - 6.3.10 BAR CODE FORMAT COMMAND [ESC] XB Function Sets the format to indicate the posit ion on the label, at which the bar code is to be printed and how it is to be printed. ~ In the case of WPC, CODE 93, CODE128, UCC/EAN128, Customer bar code, POSTNET, RM4SCC, KIX CODE (WPC is the generic name for bar codes of JAN, EAN and UPC.) Format c [ES[...]
-
Page 99
- 95 - e: Type of check digit 1: Without attaching check digit 2: Check digit check WPC Modulus 10 CODE93 Modulus 47 CODE128 PSEUDO 103 3: Check digit auto attachment (1) WPC Modulus 10 CODE93 Modulus 47 CODE128 PSEUDO 103 UCC/EAN128 Modulus 10 + Modulus 103 Customer code Special check digit POSTNET Special check digit RM4SCC Special check digit 4:[...]
-
Page 100
- 96 - qq: No. of zeros to be suppressed (Omissible. If omitted, the zero suppression process is not performed.) 00 to 20 sss ------ sss: Data string to be printed (Omissible) Max. 126 digits. However, it varies depending on the type of bar code. tt 1 , tt 2 , tt 3 , ------. tt 20 : Link field No. (Omissible) 01 to 99 (1 to 99 can also be used.) Up[...]
-
Page 101
- 97 - ~ In the case of MSI, Interleaved 2 of 5, CODE39, NW7, Industrial 2 of 5, MATRIX 2 of 5 for NEC Format c [ESC] XBaa; bbbb, cccc, d, e, ff, gg, hh, ii, jj, k, llll (, mnnnnnnnnnn, p, qq) (, r) (=sss------sss) [LF] [NUL] d [ESC] XBaa; bbbb, cccc, d, e, ff, gg, hh, ii, jj, k, llll (, mnnnnnnnnnn, p, qq) (, r) (; tt 1 , tt 2 , tt 3 , ------, tt [...]
-
Page 102
- 98 - ii: Wide space width 01 to 99 (in dots) * In the case of industrial 2 of 5, the value is fixed to 00. jj: Character-to-character space width 01 to 99 (in dots) * In the case of MSI and ITF, charac ter-to-character space width is set to 00. k: Rotational angle of bar code 0: 0° 1: 90° 2: 180° 3: 270° llll: Height of the bar code 0000 to 1[...]
-
Page 103
- 99 - ~ In the case of GS1 DataBar Format c [ESC] XBaa; bbbb, cccc, d, e, ff, g, hhhh (, ijjjjjjjjjj, kk) (, Sll) (= sss ------ sss) [LF] [NUL] d [ESC] XBaa; bbbb, cccc, d, e, ff, g, hhhh (, ijjjjjjjjjj, kk) (, Sll) (; tt 1 , tt 2 , tt 3 , ------, tt 20 ) [LF] [NUL] Term aa: Bar code number 00 to 31 bbbb: Print origin of X-coordinate of the bar co[...]
-
Page 104
- 100 - sss ------ sss: Data string to be printed (Omissible) Max. 126 digits. However, it varies depending on the type of bar code. tt 1 , tt 2 , tt 3 , ------. tt 20 : Link field No. (Omissible) 01 to 99 (1 to 99 can also be used.) Up to 20 fields can be designated using commas.[...]
-
Page 105
- 101 - ~ In the case of Data Matrix (Two-dimensional code) Format c [ESC] XBaa; bbbb, cccc, d, ee, ff, gg, h (, Ciiijjj) (, Jkkllmmmnnn) (= ooo ------ooo) [LF] [NUL] d [ESC] XBaa; bbbb, cccc, d, ee, ff, gg, h (, Ciiijjj) (, Jkkllmmmnnn) (; pp 1 , pp 2 , pp 3 , ------, pp 20 ) [LF] [NUL] Term aa: Bar code number 00 to 31 bbbb: Print origin of X-coo[...]
-
Page 106
- 102 - h: Rotational angle of bar code 0: 0° 1: 90° 2: 180° 3: 270° Ciiijjj: No. of cells (Omissible. If omitted, it is automatically set.) iii: No. of cells in the X direction 000 to 144 jjj: No. of cells in the Y direction 000 to 144 * Cell setting varies according to the ECC type. ECC0 to ECC140 ECC200 No. of cells to be designated Odd numb[...]
-
Page 107
- 103 - ~ In the case of PDF417 (Two-dimensional code) Format c [ESC] XBaa; bbbb, cccc, d, ee, ff, gg, h, iiii (=jjj------jjj) [LF] [NUL] d [ESC] XBaa; bbbb, cccc, d, ee, ff, gg, h, iiii (; kk 1 , kk 2 , kk 3 , ------, kk 20 ) [LF] [NUL] Term aa: Bar code number 00 to 31 bbbb: Print origin of X-coordinate of the bar code Fixed as 4 digits (in 0.1 m[...]
-
Page 108
- 104 - ~ In the case of MicroPDF417 (Two-dimensional code) Format c [ESC] XBaa; bbbb, cccc, d, ee, ff, gg, h, iiii (=jjj------jjj) [LF] [NUL] d [ESC] XBaa; bbbb, cccc, d, ee, ff, gg, h, iiii (; kk 1 , kk 2 , kk 3 , ------, kk 20 ) [LF] [NUL] Term aa: Bar code number 00 to 31 bbbb: Print origin of X-coordinate of the bar code Fixed as 4 digits (in [...]
-
Page 109
- 105 - The maximum number of columns and rows for the MicroPDF417 Parameter (gg) No. of columns No. of rows Max. number of digits for binary mode Max. number of digits for upper case letter/space mode Max. number of digits for numeric mode 00 – – 150 250 366 01 1 – 22 38 55 02 2 – 43 72 105 03 3 – 97 162 237 04 4 – 150 250 366 05 11 3 [...]
-
Page 110
- 106 - ~ In the case of QR code (Two-dimensional code) Format c [ESC] XBaa; bbbb, cccc, d, e, ff, g, h (, Mi) (, Kj) (, Jkkllmm) (= nnn --- nnn) [LF] [NUL] d [ESC] XBaa; bbbb, cccc, d, e, ff, g, h (, Mi) (, Kj) (, Jkkllmm) (; oo 1 , oo 2 , oo 3 ------ oo 20 ) [LF] [NUL] Term aa: Bar code number 00 to 31 bbbb: Print origin of X-coordinate of the ba[...]
-
Page 111
- 107 - ~ In the case of MaxiCode Code (Two-dimensional code) Format c [ESC] XBaa; bbbb, cccc, d (, e) (, Jffgg) (, Zh) [LF] [NUL] Term aa: Bar code number 00 to 31 bbbb: Print origin of X-coordinate of the bar code Fixed as 4 digits (in 0.1 mm units) cccc: Print origin of Y-coordinate of the bar code 4 or 5 digits (in 0.1 mm units) d: Type of bar [...]
-
Page 112
- 108 - ~ In the case of CP code (Two-dimensional code) Format c [ESC] XBaa; bbbb, cccc, d, e, ff, g, h (, Ciijj) (= kkkk --- kkk) [LF] [NUL] d [ESC] XBaa; bbbb, cccc, d, e, ff, g, h (, Ciijj) (; ll 1 , ll 2 , ll 3 , --- ll 20 ) [LF] [NUL] Term aa: Bar code number 00 to 31 bbbb: Print origin of X-coordinate of the bar code Fixed as 4 digits (in 0.1[...]
-
Page 113
- 109 - ~ In the case of RFID (Data write) Function Writes a specified data onto an RFID tag. When the feed amount has been set by the RFID Tag Position Adjustment Command ([ESC] @003) for adjusting an RFID tag position, the specified amount of the media is fed forward or backward before writing data. Format c [ESC]XBaa; bbbb, cccc, d (,Aeee) (,Mg)[...]
-
Page 114
- 110 - 15: C210 16: C240 17: C320 21: EPC Class 0 22: EPC Class 1 23: ISO 18000-6B 24: EPC Class 1 Generation 2 Designates the type of RFID tag onto which data is to be written. When omitted, the tag type set in the system mode will be designated. In accordance with the tag type designated by this setting, the tag type set in the system mode chang[...]
-
Page 115
- 111 - can be designated by the parameters of RFID data write start point designation for on-the-fly issue and RF ID data write end point designation for on-the-fly issue, respectively. Smmmm: RFID data write start point des ignation for on-the-fly issue (Omissible) 4 or 5 digits (in 0.1 mm units) When omitted, 0 mm will be designated. Ennnn: RFID[...]
-
Page 116
- 112 - 33 Permanent lock Unlocked Unlocked Unlocked Unlocked 34 Unlocked Permanent lock Unlocked Unlocked Unlocked 35 Permanent lock Permanent lock Unlocked Unlocked Unlocked 36 Unlocked Unlocked Permanent lock Unlocked Unlocked 37 Permanent lock Unlocked Permanent lock Unlocked Unlocked 38 Unlocked Permanent lock Permanent lock Unlocked Unlocked [...]
-
Page 117
- 113 - This parameter is effective only fo r EPC Class1 Generation 2 tag type. When a format is designated, th is parameter is ignored. When the RFID module type is the U1, the EPC area and user area are effective. Hxyyyyyyyy: User blo ck password setting (Effective only when the Hibiki tag is used for the B-SX704-RFID-U2-R.) Designates a password[...]
-
Page 118
- 114 - f: User block password read/write permanent lock designation (Effective to Bank4 to Bank8 only) 0: Disabled 1: Enabled NOTES: 1. Once a permanent lock is enabled for parameter b, d, or f, any subsequent change is disabled. 2. When read/write permanent lock is se lected, a read/write lock state is retained. To permanently prohibi t reading/w[...]
-
Page 119
- 115 - ~ In the case of RFID (Data read) Function Reads an RFID tag which is posit ioned above the antenna. When the feed amount has been set by the RFID Tag Position Adjustment Command ([ESC] @003) for adjusting an RFID tag position, the specifi ed amount of the media is fed forward or backward before reading the RFID data. The read RFID data is [...]
-
Page 120
- 116 - Ih: RFID read mode (Omissible) 1: Only user data is read. 2: Only tag ID is read. 3: Both tag ID and user data are read. When omitted, only user data will be read. When the tag type is Gen2, user data equals to TID bank + user bank, and tag ID equals to EPC bank. Jiiiiiiii: Access to the passwor d-protected tags (Omissible) Fixed to 8-digit[...]
-
Page 121
- 117 - Explanation (1) The parameter, “Number of byte s to be read”, is effective only when RFID read mode is set to 1 or 3, as this paramet er is intended for reading user data. When reading tag ID, this parameter is ignored. (2) When the value exceeding the maximu m number of bytes storable in a tag is designated for “Number of bytes to be[...]
-
Page 122
- 118 - Explanation (1) Bar code number When drawing by the Data Command ([ ESC] RB), the format designated by the bar code number is selected. (2) Print origin of coordinates The print origin of coordinates must be se t so that the bar code drawing result will be within the effective print area set by the Label Size Set Command ([ESC] D). [Effecti[...]
-
Page 123
- 119 - (3) Type of bar code 0: JAN8, EAN8 1: MSI 2: Interleaved 2 of 5 3: CODE39 (standard) 4: NW7 5: JAN13, EAN13 6: UPC-E 7: EAN13 + 2 digits 8: EAN13 +5 digits 9: A: CODE128 B: CODE39 (Full ASCII) C: CODE93 G: UPC-E + 2 digits H: UPC-E + 5 digits I: EAN8 + 2 digits J: EAN8 + 5 digits K: UPC-A L: UPC-A + 2 digits[...]
-
Page 124
- 120 - M: UPC-A + 5 digits N: UCC/EAN128 O: Industrial 2 of 5 P: PDF417 Q: Data Matrix R: Customer bar code S: Highest priority customer bar code T: QR code U: POSTNET V: RM4SCC W: KIX code X: MicroPDF417 Y: CP Code Z: MaxiCode[...]
-
Page 125
- 121 - b: GS1 DataBar family GS1 DataBar Omnidirectional GS1 DataBar Stacked GS1 DataBar Truncated GS1 DataBar Stacked Omnidirectional GS1 DataBar Limited GS1 DataBar Expanded (4) Type of check digit c Where no check digit is attached, the bar code of the data row will be drawn. d In the case of the check digit check, if each check digit checked a[...]
-
Page 126
- 122 - [Example of setting] B-SX4T: Type of bar code 1 module 2 modules 3 modules 4 modules 5 modules 6 modules Bar Space Bar Space Bar Space Bar Space Bar Space Bar Space JAN, EAN, UPC 3 6 9 12 - - CODE93 2 4 6 8 - - CODE128, EAN128 2 4 6 8 - - PDF417 2 4 6 8 10 12 MicroPDF417 2 4 6 8 10 12 Type of bar code Narrow Wide Character-to-character Bar [...]
-
Page 127
- 123 - In the case of QR code When the 1-cell width is 0, a two-dimensi onal code is not drawn. However, the bar code printed on the previous label is cleared. In the case of a postal code (6) Rotational angle of bar code 0° 90° 180° 270° 0° 90° 180° 270° 1-cell width 1-cell width 1-module width Point of origin Point of origin[...]
-
Page 128
- 124 - (7) Bar code height [PDF417, MicroPDF417] [Postal code] [GS1 DataBar Omnidirectional/GS1 DataBar Truncated] [GS1 DataBar Stac ked] [GS1 DataBar Stacked Omnidirectional] Height Height Height Height Height (The height of the bottom row is the same as the specified height.) Height Height Height (The height of the bottom ro w is 7/5 of the spec[...]
-
Page 129
- 125 - [GS1 DataBar Limited] [GS1 DataBar Expanded] When the bar code height is 0000, bar code (including guard bars) and numerals under bars are not drawn. However, the bar code printed on the previous label is cleared. (8) Length of guard bar The length of guard bar is valid only when the type of bar code is WPC. It is ignored in all other cases[...]
-
Page 130
- 126 - d In the c ase of UPC (Example) UPC-A + 2 digits (Example) UPC-E e In the case of bar codes other than JAN, EAN, and UPC (Example) CODE39 (Example) UCC/EAN128 (10) Start/Stop Code y This parameter is valid only when t he type of bar code is CODE39 and NW7. y Where the parameter is designated, the pr ogram will not check if the stop code and[...]
-
Page 131
- 127 - (11) Increment/decrement Printing is performed while the data is incr emented or decremented every time a label is issued. Where the data row exceeds the ma ximum number of digits (40), the data row will not be drawn. When CODE128 (without auto code selection) is used, the number of the start code (code A, code B, and code C) digits is rega[...]
-
Page 132
- 128 - (12) Zero suppression No. of zeros to be suppressed 0 1 2 2 3 4 5 Data 0000 0000 0000 0A12 0123 0123 0123 Print 0000 0 00 A12 123 0123 0123 The leading zero(s) in a data row is replac ed by a space(s) according to the designated number of digits. However, if the number of digits to be suppressed is greater than the data row, the data row wi[...]
-
Page 133
- 129 - [Data Command] [ESC] RB; A [LF] B [LF] ABCD [LF] 001 [LF] [NUL] Link field No. 4 Link field No. 3 Link field No. 2 Link field No. 1 (15) Explanation for Data Matrix c ECC type Data Matrix contains a function to correct a code reading error using an error correction code (ECC) and restore normal dat a. Since there are several ECCs. ECC shoul[...]
-
Page 134
- 130 - e Maximum number of digits The maximum number of digits varies according to the ECC type or format ID. Since each Kanji character uses 2 bytes, the maximum number of digits for it becomes half of the following values. ECC0 ECC50 ECC80 ECC100 ECC140 Format ID 1 500 457 402 300 144 Format ID 2 452 333 293 218 105 Format ID 3 394 291 256 190 9[...]
-
Page 135
- 131 - Cell size and the effective data capacity ECC000 ECC050 ECC080 ECC100 ECC140 Symbol size Num eric capacity Alphanum capacity 8-bit byte Numeric capacity Alphanum capacity 8-bit byte Numeric capacity Alphanum capacity 8-bit byte Numeric capacity Alphanum capacity 8-bit byte Numeric capacity Alphanum capacity 8-bit byte Row Col capacity capac[...]
-
Page 136
- 132 - ECC200 Symbol size Numeric capacity Alphanum capacity 8-bit byte Row Col capacity 10 10 6 3 1 12 12 10 6 3 14 14 16 10 6 16 16 24 16 10 18 18 36 25 16 20 20 44 31 20 22 22 60 43 28 24 24 72 52 34 26 26 88 64 42 32 32 124 91 60 36 36 172 127 84 40 40 228 169 112 44 44 288 214 142 48 48 348 259 172 52 52 408 304 202 64 64 560 418 278 72 72 73[...]
-
Page 137
- 133 - (16) Explanation for the PDF417 and MicroPDF417 c Security level The PDF417 contains a function to correct a code reading error using an error correcting code word and restore normal data. The security level should be designated according to usage to perfo rm the error correction function. For the MicroPDF417, the printer se ts the security[...]
-
Page 138
- 134 - d 1-cell width When the 1-cell width is 0, a two-dimensional code is not drawn. However, the two- dimensional code printed on the previous label is cleared. e Selection of mode All codes including alphanumerics, symbol s, and Kanji can be used in one QR code. Manual mode or automatic mode can be selected to perform the operation. f Selectio[...]
-
Page 139
- 135 - (19) Explanation for CP code c ECC (Error Correction Code) level The CP code contains a function to correct a code reading error using an error correcting code word and restore normal data. The error correction level should be selected according to usage to perform the error correction function. The higher the percentage of the error co rre[...]
-
Page 140
- 136 - e Writing binary data on RFID tags When writing binary data on RFID tags, the data is specified by attaching a ‘>’. Or, the data is converted to binary format w hen “conversion to binary” is designated for the data type, and converted to hexadec imal format when “conversion to hexadecimal” is designated for t he data type. In[...]
-
Page 141
- 137 - i Designation of access password regi stration and kill password registration When registration of access password or kill password fails, a registration error will result and the printer prints the void pattern. This setting is effective only for the EPC Class 1 Generation 2 tag type and is ignored for other tag types. This setting may not[...]
-
Page 142
- 138 - Notes (1) The check digit attachment, increment/decrement, and zero suppress processes are performed according to the following priority . If any of the conditions is improper, no drawing will take place. For example, the zero(s) is replaced by a space(s) as a result of zero suppression but the modulus 10 designated to be attached cannot be[...]
-
Page 143
- 139 - (3) More than one Bar Code Format Command can be connected when transmitted. [ESC] XB01; 0100, 0150, 3, 1, 02, 02, 06, 06, 02, 0, 0150 [LF] B02; 0350, 0150, 3, 1, 02, 02, 06, 06, 02, 0, 0150 [LF] [NUL] (4) When the drawing data is changed per label i ssue during printing, the field of the drawing data for the previous label is automatically[...]
-
Page 144
- 140 - Examples [ESC] C [LF] [NUL] [ESC] XB01; 0200, 0125, 3, 1, 03, 03, 08, 08, 03, 0, 0150=12345 [LF] [NUL] [ESC] XB02; 0830, 0550, 3, 1, 02, 04, 07, 08, 04, 3, 0150, +0000000000, 1, 00, N [LF] [NUL] [ESC] RB02; *ABC* [LF] [NUL] [ESC] XS; I, 0002, 0002C3000 [LF] [NUL] 12.5 mm 55.0 mm 20.0 mm 83.0 mm Effective print area Origin (0, 0) 15.0 mm 15.[...]
-
Page 145
- 141 - [ESC] C [LF] [NUL] [ESC] PC001; 0200, 0300, 1, 1, C, 00, B; 01, 02 [LF] [NUL] [ESC] PV01; 0650, 0550, 0200, 0150, B, 33, B; 02 [LF] [NUL] [ESC] XB01; 0200, 0550, 3, 1, 03, 03, 08, 08, 03, 0, 0150; 01, 02 [LF] [NUL] [ESC] RB; S [LF] 001 [LF] [NUL] [ESC] XS; I, 0002, 0002C3000 [LF] [NUL] Effective print area 30.0 mm 55.0 mm 20.0 mm 65.0 mm Or[...]
-
Page 146
- 142 - [ESC] C [LF] [NUL] [ESC] XB01; 0200, 0125, P, 04, 02, 03, 0, 0010 [LF] [NUL] [ESC] XB02; 0830, 0550, Q, 08, 03, 05, 3 [LF] [NUL] [ESC] RB01; PDF417 [LF] [NUL] [ESC] RB02; Data Matrix [LF] [NUL] [ESC] XS; I, 0002, 0002C3000 [LF] [NUL] Effective print area 20.0 mm Origin (0, 0) (3) 12.5 mm 55.0 mm 83.0 mm[...]
-
Page 147
- 143 - 6.3.11 BIT MAP FONT DATA COMMAND [ESC] RC Function Provides data for the bit map font row. Format c [ESC] RCaaa; bbb ------ bbb [LF] [NUL] d Link Field Data Command [ESC] RC; ccc ------ ccc [LF] ddd ------ ddd [LF] ------ [LF] xxx ------ xxx [LF] [NUL] Term aaa: Character string number 000 to 199 (Two digits, 00 to 99, also acceptable.) bbb[...]
-
Page 148
- 144 - (2) Data string of Kanji code • When the font type is r, Chines e Kanji is used. GB18030 can be printed. (3) Kanji code selection • The character code is automatica lly selected in the manner described below. c GB18030 (Chinese characters) ~ 20h to A0h: Half-width character Other codes: GB18030 A : K a n j i [ ] [D6h] [D0h] [B9h] [FAh] [...]
-
Page 149
- 145 - Examples [ESC] C [LF] [NUL] [ESC] PC001; 0200, 0125, 1, 1, C, 00, B [LF] [NUL] [ESC] PC002; 0650, 0550, 2, 2, G, 33, B, +0000000001 [LF] [NUL] [ESC] RC001; Sample [LF] [NUL] [ESC] RC002; 001 [LF] [NUL] [ESC] XS; I, 0002, 0002C3000 [LF] [NUL] 55.0 mm 12.5 mm 20.0 mm 65.0 mm Origin (0, 0) Effective print area Sample (1)[...]
-
Page 150
- 146 - [ESC] C [LF] [NUL] [ESC] PC001; 0200, 0300, 1, 1, C, 00, B; 01, 02 [LF] [NUL] [ESC] PV01; 0650, 0550, 0200, 0150, B, 33, B; 02 [LF] [NUL] [ESC] XB01; 0200, 0550, 3, 1, 03, 03, 08, 08, 03, 0, 0150; 01, 02 [LF] [NUL] [ESC] RC; S [LF] 001 [LF] [NUL] [ESC] XS; I, 0002, 0002C3000 [LF] [NUL] Effective print area (2) 30.0 mm 55.0 mm 20.0 mm 65.0 m[...]
-
Page 151
- 147 - [ESC] C [LF] [NUL] [ESC] PC000; 0200, 0125, 1, 1, X, 00, B [LF] [NUL] [ESC] PC001; 0200, 0300, 1, 1, X, 01, B [LF] [NUL] [ESC] RC000; AB [LF] [NUL] [ESC] RC001; AB [LF] [NUL] [ESC] XS; I, 0002, 0002C3000 [LF] [NUL] 12.5 mm 30.0 mm 20.0 mm Effective print area Origin (0, 0) (3)[...]
-
Page 152
- 148 - 6.3.12 OUTLINE FONT DATA COMMAND [ESC] RV Function Provides data fo r the outline font row. Format c [ESC] RVaa; bbb ------ bbb [LF] [NUL] d Link Field Data Command [ESC] RV; ccc ------ ccc [LF] ddd ------ ddd [LF] ------ [LF] xxx ------ xxx [LF] [NUL] Term aa: Character string number 00 to 99 bbb ------ bbb: Data string to be printed Max. [...]
-
Page 153
- 149 - Examples [ESC] C [LF] [NUL] [ESC] PV01; 0200, 0125, 0100, 0100, B, 00, B [LF] [NUL] [ESC] PV02; 0650, 0550, 0200, 0150, B, 33, B, +0000000001 [LF] [NUL] [ESC] RV01; Sample [LF] [NUL] [ESC] RV02; 001 [LF] [NUL] [ESC] XS; I, 0002, 0002C3000 [LF] [NUL] 55.0 mm 12.5 mm 20.0 mm 65.0 mm Origin (0, 0) Effective print area Sample (1)[...]
-
Page 154
- 150 - [ESC] C [LF] [NUL] [ESC] PC001; 0200, 0300, 1, 1, C, 00, B; 01, 02 [LF] [NUL] [ESC] PV01; 0650, 0550, 0200, 0150, B, 33, B; 02 [LF] [NUL] [ESC] XB01; 0200, 0550, 3, 1, 02, 02, 06, 06, 02, 0, 0150; 01, 02 [LF] [NUL] [ESC] RC; S [LF] 001 [LF] [NUL] [ESC] XS; I, 0002, 0002C3000 [LF] [NUL] 30 . 0 mm 55.0 mm 20.0 mm 65.0 mm Effective print area [...]
-
Page 155
- 151 - 6.3.13 BAR CODE DATA COMMAND [ESC] RB Function Provides data for the bar code. Format c [ESC] RBaa; bbb ------ bbb [LF] [NUL] d Link Field Data Command [ESC] RB; ccc ------ ccc [LF] ddd ------ ddd [LF] ------ [LF] xxx ------ xxx [LF] [NUL] Term aa: Bar code number 00 to 31 bbb ------ bbb: Data string to be printed The maximum number of digi[...]
-
Page 156
- 152 - The maximum number of digits for Data Matrix varies according to the settings for ECC type, format ID, and the cell size. In the case of Kanji, the maximum number of digits is half those of the values described below since a Kanji character occupies 2 bytes. Max number of digits for Data Matrix ECC0 ECC50 ECC80 ECC100 ECC140 Format ID 1 500[...]
-
Page 157
- 153 - ECC200 Symbol size Numeric capacity Alphanum capacity 8-bit byte Row Col capacity 10 10 6 3 1 12 12 10 6 3 14 14 16 10 6 16 16 24 16 10 18 18 36 25 16 20 20 44 31 20 22 22 60 43 28 24 24 72 52 34 26 26 88 64 42 32 32 124 91 60 36 36 172 127 84 40 40 228 169 112 44 44 288 214 142 48 48 348 259 172 52 52 408 304 202 64 64 560 418 278 72 72 73[...]
-
Page 158
- 154 - When PDF417 or MicroPDF417 is used, the number of symbol characters called code words is limited to 928 or less. Moreover, the data compression rate varies according to the contents of data. T herefore, the maximum number of digits according to modes is as follows. When letters and numerics are mixed in data in EXC mode, for example, the ma[...]
-
Page 159
- 155 - The maximum number of columns and rows for the MicroPDF417 Parameter (gg) No. of columns No. of rows Max. number of digits for binary mode Max. number of digits for upper case letter/space mode Max. number of digits for numeric mode 00 – – 150 250 366 01 1 – 22 38 55 02 2 – 43 72 105 03 3 – 97 162 237 04 4 – 150 250 366 05 11 3 [...]
-
Page 160
- 156 - (3) CODE128 code selection In the case of CODE128 (with auto code selection), code selection is performed in the following manner. (Conforming to USS-128 APPENDIX-G) c Determining the start character (a) If the data begins with four or more consecutive numerals, the start code to be used is (CODE C). (b) In any case other than (a) in c , if[...]
-
Page 161
- 157 - (4) CODE128 code selection check Check if selection of (CODE A), (CODE B), or (CODE C) of CODE128 has been set correctly. If an error is found, the bar code will not be drawn. [Conditions causing an error] c No start code is designated. d A small letter (including { , | , } , ~, _ ) is found in (CODE A). e A control character is found in (C[...]
-
Page 162
- 158 - (7) When manual mode is selected in the Format Command for a QR code c Numeric mode, alphanumeric and symbol mode, Kanji mode Mode selection Data to be printed d Binary mode Mode selection No. of data strings (4 digits) Data to be printed e Mixed mode Data “,” (comma) Data “,” (comma) Data The QR code can handle all codes in cluding[...]
-
Page 163
- 159 - (10) Transfer code for QR code 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 NUL DLE SP 0 @ P ` p 1 SOH DC1 ! 1 A Q a q 2 STX DC2 ” 2 B R b r 3 ETX DC3 # 3 C S c s 4 EOT DC4 $ 4 D T d t 5 ENQ NAK % 5 E U e u 6 ACK SYN & 6 F V f v 7 BEL ETB ’ 7 G W g w 8 BS CAN ( 8 H X h x 9 HT EM ) 9 I Y i y A LF SUB * : J Z j z B VT ESC + ; K [ k { C FF FS , &[...]
-
Page 164
- 160 - (12) MaxiCode data For mode 2 or 3: [ESC] RBaa; bbbbbbbbbcccdddeeeee --- eeeee [LF] [NUL] For mode 4 or 6: [ESC] RBaa; fffffffffggggg --- ggggg [LF] [NUL] c bbbbbbbbb: Postal code Fixed as 9 digits • Mode 2: b1b2b3b4b5: Zip code Fixed as 5 digits (Numerics) b6b7b8b9: Zip code extension Fi xed as 4 digits (Numerics) • Mode 3: b1b2b3b4b5b[...]
-
Page 165
- 161 - Examples [ESC] C [LF] [NUL] [ESC] XB01; 0200, 0125, 3, 1, 02, 02, 06, 06, 02, 0, 0150 [LF] [NUL] [ESC] XB02; 0830, 0550, 3, 1, 02, 04, 07, 08, 04, 3, 0150, +0000000000, 1, 00, N [LF] [NUL] [ESC] RB01; 12345 [LF] [NUL] [ESC] RB02; * ABC * [LF] [NUL] [ESC] XS; I, 0002, 0002C3000 [LF] [NUL] 20.0 mm 15.0 mm 55.0 mm 12.5 mm 63.0 mm 15.0 mm Origi[...]
-
Page 166
- 162 - [ESC] C [LF] [NUL] [ESC] PC001; 0200, 0300, 1, 1, C, 00, B; 01, 02 [LF] [NUL] [ESC] PV01; 0650, 0550, 0200, 0150, B, 33, B; 02 [LF] [NUL] [ESC] XB01; 0200, 0550, 3, 1, 02, 02, 06, 06, 02, 0, 0150; 01, 02 [LF] [NUL] [ESC] RB; S [LF] 001 [LF] [NUL] [ESC] XS; I, 0002, 0002C3000 [LF] [NUL] Effective print area 30.0 mm 55.0 mm 20.0 mm 65.0 mm Or[...]
-
Page 167
- 163 - [ESC] C [LF] [NUL] [ESC] XB01; 0200, 0125, P, 04, 02, 03, 0, 0010 [LF] [NUL] [ESC] XB02; 0830, 0550, Q, 08, 03, 05, 3 [LF] [NUL] [ESC] RB01; PDF417 [LF] [NUL] [ESC] RB02; Data Matrix [LF] [NUL] [ESC] XS; I, 0002, 0002C3000 [LF] [NUL] Effective print area 20.0 mm Origin (0, 0) (3) 12.5 mm 55.0 mm 83.0 mm[...]
-
Page 168
- 164 - 6.3.14 ISSUE COMMAND [ESC] XS Function Issues labels according to the print conditions programmed. Format [ESC] XS; I, aaaa, bbbcdefgh [LF] [NUL] Term aaaa: Number of labels to be issued 0001 to 9999 bbb: Cut interval. Designates the num ber of pieces to be printed before the backing paper is cut. 000 to 100 (no cut when 000) c: Type of sen[...]
-
Page 169
- 165 - Explanation (1) Number of labels to be issued c If increment/decrement is not specifi ed, the designated number of pieces with the same drawing data will be issued. d If increment/decrement is specified, the designated number of pieces will be issued while incrementing/decrementing the piece of the designated drawing area. * The increment/d[...]
-
Page 170
- 166 - g Reflective sensor (when usi ng a manual threshold value) Printing takes place according to the parameters designat ed by the Label Size Set Command. However, the black ma rk provided on the back of the tag paper is automatically sensed by the re flective sensor and the paper position is finely adjusted for every piece, accord ing to the v[...]
-
Page 171
- 167 - [C: Batch mode (Cut in terval: 1, Issue count: 2)] • “Automatic forward feed standby” is set to OFF in the system mode. • The swing cutter is used. (1) Idling A A A B Head position Cut position (2) Completes printing the 1st label (A). (3) Feeds the 1st label (A) to the cut position. (4) Cuts the 1st label (A). (6) Completes printin[...]
-
Page 172
- 168 - [C: Batch mode (Cut in terval: 1, Issue count: 2)] • “Automatic forward feed standby” is set to ON in the system mode. • The swing cutter is used. (1) Idling (during the forward feed standby) A A A B Head position Cut position (3) Completes printing the 1st label (A). (4) Feeds the 1st label (A) to the cut position. (5) Cuts the 1st[...]
-
Page 173
- 169 - [C: Batch mode (Cut in terval: 1, Issue count: 2)] • “Automatic forward feed standby” is set to OFF in the system mode. • The rotary cutter is used. (1) Idling (at the home position) A A B B A B Head position Cut position (2) Completes printing the 1st label (A). (3) Starts printing the 2nd label (B). (4) The 1st label (A) reaches t[...]
-
Page 174
- 170 - [C: Batch mode (Cut in terval: 1, Issue count: 2)] • “Automatic forward feed standby” is set to ON in the system mode. • The rotary cutter is used. (1) Idling (during the forward feed standby) A A B B A B Head position Cut position (3) Completes printing the 1st label (A). (4) Starts printing the 2nd label (B). (5) The 1st label (A)[...]
-
Page 175
- 171 - [D: Strip mode (Issue count: 3)] A B C Head position Strip position (1) Idling (3) Completes printing the 1st label (A). (4) Remove the 1st label (A). (6) Completes printing the 2nd label (B). (7) Remove the 2nd label (B). (9) Completes printing the 3rd label (C) * The next label is not printed until the printed label is removed. (2) Feeds [...]
-
Page 176
- 172 - [E: Strip mode (Issue mode: E)] The expansion I/O is installed: The strip sensor is ignored. An issue is performed by checking a PAUSE signal generated from the expansion I/O. A B C Head position Strip position (1) Idling The PAUSE signal generated from the expansion I/O, is turned ON. (3) Completes printing the 1st label (A). The PAUSE sig[...]
-
Page 177
- 173 - The expansion I/O is not installed: The strip sensor is ignored, an issue is performed. *1 Issue mode E is different from issue mode D. In issue mode E, a label is issued regardless of whether or not a label to be stripped is placed. *2 The peripheral device such as an applicator, must control the PAUSE signal generated from the expansion I[...]
-
Page 178
- 174 - (5) Issue speed • Printing takes place at the designated speed. However, the back feed speed in cut mode and strip mode is 3 ips. This back feed speed can be changed from 3 ips to 2 ips in the system mode. • For B-SX4T, the print speed “10 ips” is not supported for printing with the rotary cutter. If “10 ips” is specified when t[...]
-
Page 179
- 175 - Correction for the ribbon saving area (in case of TAG and solenoid TYPE 1): A B C D E A B C D E Printing area Printing area Correct so that the head is lowered to at least 50% of the label pitch length (Solenoid OFF). Correction Ribbon saving area Paper feed direction Ribbon saving area Correction Paper feed direction A B C D E Printing are[...]
-
Page 180
- 176 - (7) Tag rotation The origin of coordinates and printing direction vary according to the designation of tag rotation. c Printing bottom first d Printing top first Black mark (Back side of print) Origin of coordinates ( 0, 0 ) Effective print length Effective print width Tag pitch Tag Paper feed direction 0 X Y S a m p l e Effective print len[...]
-
Page 181
- 177 - e Mirror printing bottom first f Mirror printing top first Origin of coordinates (0, 0) Origin of coordinates ( 0, 0 ) Effective print length Effective print width Tag pitch Tag Paper feed direction 0 X Y Black mark (Back side of print) Label Backing paper Effective print width Label pitch Paper feed direction 0 X Y Effective print length [[...]
-
Page 182
- 178 - (8) Status response When the option with status respons e has been selected, a status response is made at the end of printing or if an error occurs. In the batch mode and the cut mode, the print end status response is made after printing on the designated number of labels. In the strip mode, the status res ponse is made after printing one l[...]
-
Page 183
- 179 - Notes ~ Explanation of processes involved to stop the label at the home position after the head-open state is detected: When the gap between labels (black mark ) is found after the head open state is detected, the value to stop at the hom e position of each label between the head and the sensor is set again. • The paper is moved in the ab[...]
-
Page 184
- 180 - 6.3.15 FEED COMMAND [ESC] T Function Feeds the paper. Format [ESC] Tabcde [LF] [NUL] Term a: Type of sensor 0: No sensor 1: Reflective sensor 2: Transmissive sensor (when using normal labels) 3: Transmissive sensor (when using preprinted labels) 4: Reflective sensor (when using a manual threshold value) b: Selects cut or non-cut 0: Non-cut [...]
-
Page 185
- 181 - f Transmissive sensor (when using preprinted labels): Feeding takes place according to the parameter designated by the Label Size Set Command. However, the label-to- label gap is automatically sensed by the transmissive sensor and the stop posit ion is finely adjusted according to the value set by the threshold set operation (key operation)[...]
-
Page 186
- 182 - [C: Batch (Cut)] • “Automatic forward feed standby” is set to ON in the system mode. • The swing cutter is used. [C: Batch (Cut)] • “Automatic forward feed standby” is set to OFF in the system mode. • The rotary cutter is used. (2) Completes a feed. (Completes feeding to the top of paper.) Head position Cut position (1) Plac[...]
-
Page 187
- 183 - [C: Batch (Cut)] • “Automatic forward feed standby” is set to ON in the system mode. • The rotary cutter is used. [D: Strip] Head position Strip position (1) Place paper. (2) Feeds back to the home position. * Even if a label is not removed, a feed is performed. (3) Starts a feed. (4) Completes a feed. (Completes feeding to the top [...]
-
Page 188
- 184 - [E: Strip (Feed mode: E)] Expansion I/O is installed: The strip sensor is ignored. A feed is performed by checking a PAUSE signal generated from the expansion I/O. Expansion I/O is not installed: The strip sensor is ignored. A feed is performed. *1 Feed mode E is different from feed mode D. In feed mode E, a label is fed, regardless of whet[...]
-
Page 189
- 185 - (4) Feed speed • A feed is performed at the designated speed. However, the back feed speed in the cut mode or the strip mode is 3 ips. This back feed speed can be changed from 3 ips to 2 ips in the system mode. • For B-SX4T, the print speed “10 ips” is not supported for printing with the rotary cutter. If “10 ips” is specified w[...]
-
Page 190
- 186 - Notes (1) If a change of label size or type of sensor, feed fine adjustment, cut position fine adjustment (or strip position fine adjus tment) or back feed fine adjustment is made, one label must be fed to adjust the first print position prior to printing. (2) The parameter of the Feed Command is pr otected in memory (even if the power is t[...]
-
Page 191
- 187 - 6.3.16 EJECT COMMAND [ESC] IB Function Ejects (cuts) the label presently remaining between the head and the cutter and returns to the original position. Format [ESC] IB [LF] [NUL] Notes If no subsequent command is received from the PC for 1 second after ejection, the printer automatically performs an appr oximately 13.7-mm forward feed when[...]
-
Page 192
- 188 - • The rotary cutter is used: [ESC] C [LF] [NUL] [ESC] PC001; 0200, 0125, 1, 1, A, 00, B [LF] [NUL] [ESC] RC001; A [LF] [NUL] [ESC] XS; I, 0001, 0001C3001 [LF] [NUL] [ESC] RC001; B [LF] [NUL] [ESC] XS; I, 0001, 0001C3001 [LF] [NUL] [ESC] RC001; C [LF] [NUL] [ESC] XS; I, 0001, 0001C3001 [LF] [NUL] [ESC] IB [LF] [NUL] Head position (1) Idlin[...]
-
Page 193
- 189 - 6.3.17 FORWARD/REVERSE FEED COMMAND [ESC] U1, [ESC] U2 Function After printing or feeding the paper, feeds the paper to the position at which a label can be cut manually. When issuing the next label, feeds the paper back to the first print position. Format Forward Feed [ESC] U1; aaaa (, b) [LF] [NUL] Reverse Feed [ESC] U2; aaaa (, b) [LF] [[...]
-
Page 194
- 190 - Examples [ESC] T20C30 [LF] [NUL] [ESC] U1; 0120 [LF] [NUL] Cut manually. [ESC] U2; 0120 [LF] [NUL] [ESC] RC001; A [LF] [NUL] [ESC] XS; I, 0003, 0002C3001 [LF] [NUL] [ESC] U1; 0120 [LF] [NUL] Cut manually. [ESC] U2; 0120 [LF] [NUL] [ESC] RC001; B [LF] [NUL] [ESC] XS; I, 0001, 0002C3001 [LF] [NUL] [ESC] U1; 0120 [LF] [NUL] Head position (2) F[...]
-
Page 195
- 191 - 6.3.18 STORAGE AREA ALLOCATE COMMAND [ESC] XF • For the firmw are before V5.0 Function Allocates the storage area in flash ROM on the CPU board. Format [ESC] XF; aa, bb, cc [LF] [NUL] Term aa: Size of the TrueType font storage area 00 to 14 (0 KB to 896 KB) (in units of 64 KB) bb: Size of bit map writable character storage area 00 to 14 ([...]
-
Page 196
- 192 - In case that the size of BASIC file storage area is set to “AA”: (9) When this command is received, t he BASIC file storage area is reserved and the other areas in flash ROM on the CPU board are cleared. (10) If this command is not sent, t he storage area in flash ROM on the CPU board cannot be used. If “AA” is set for the size of t[...]
-
Page 197
- 193 - • For the firmw are V5.0 or greater (MAIN 4-R or greater PC board is required.) Format [ESC] XF; aa, bb, cc [LF] [NUL] Term aa: Size of the TrueType font storage area 00 to 48 (0 KB to 3072 KB) (in units of 64 KB) bb: Size of bit map writable character storage area 00 to 48 (0 KB to 3072 KB) (in units of 64 KB) cc: Size of BASIC file stor[...]
-
Page 198
- 194 - In case that the size of BASIC file storage area is set to “AA”: (9) When this command is received, t he BASIC file storage area is reserved and the other areas in flash ROM on the CPU board are cleared. (10) If this command is not sent, t he storage area in flash ROM on the CPU board cannot be used. If “AA” is set for the size of t[...]
-
Page 199
- 195 - 6.3.19 FLASH MEMORY FORMAT COMMAND [ESC] J1 Function Formats (initializes) the flash memory card or flash ROM on the CPU board for storage. Format [ESC] J1; a (, b) [LF] [NUL] Term a: Formatting (initializing) range A: All area of flash memory B: PC save area of flash memory C: Writable character storage area of flash memory b: Drive (Omiss[...]
-
Page 200
- 196 - 6.3.20 ATA CARD FORMAT COMMAND [ESC] JA Function Formats (initializes) the ATA card for storage. Format [ESC] JA; a [LF] [NUL] Term a: Drive 1: Slot 1 on the PCMCIA board (Option) 2: Slot 2 on the PCMCIA board (Option) Explanation (1) Only up to 128-MB ATA cards manuf actured by SanDisk or Hitachi, can be used. (2) When performing the label[...]
-
Page 201
- 197 - 6.3.21 2-BYTE WRITABLE CHARACTER CODE RANGE COMMAND [ESC] XE Function Sets the code range when a 2-byte writ able character code is stored in flash ROM on the CPU board. Format [ESC] XE; a 1 a 1 a 1 a 1 , b 1 b 1 b 1 b 1 , a 2 a 2 a 2 a 2 , b 2 b 2 b 2 b 2 ------, a n a n a n a n , b n b n b n b n [LF] [NUL] Term aaaa: First character code [...]
-
Page 202
- 198 - 6.3.22 BIT MAP WRITABLE CHARACTER COMMAND (For Flash Memory) [ESC] XD Function Writes writable characters and logos in the flash memory card or flash ROM on the CPU board. Format [ESC] XD; (Sj, ) aa, b, ccc, ddd, eee, fff, ggg, h, iii ------ iii [LF] [NUL] Term Sj: Drive in which writabl e characters or logos are stored (Omissible. If omitt[...]
-
Page 203
- 199 - 6.3.23 BIT MAP WRITABLE CHARACTER COMMAND (For ATA Card) [ESC] XA Function Writes writable characters and logos in the ATA card. Format [ESC] XA, j, aa, b(b), ccc(c), ddd(d), eee(e), fff(f), ggg(g), h, iii ------ iii [LF] [NUL] Term j: Drive 1: Slot 1 on the PCMCIA board (Option) 2: Slot 2 on the PCMCIA board (Option) aa: Writable character[...]
-
Page 204
- 200 - Explanation (1) Type of writable character Up to 44 and 49 writable character sets can be stored for the flash card and the ATA card, respectively. However, the maximum number of characters varies depending on the writable character size and number of characters because of the limited memory capacity. For writabl e character sets 41 to 44, [...]
-
Page 205
- 201 - 1-byte writable character W/C = Writable character ATA card GAIJI 0100 01000020. UDF (W/C file for character code 20H) (W ritable character 01) 01000021. UDF (W/C file for character code 21H) 0101 Each W/C file 01000022. UDF (W/C file for character code 22H) (Writable character 02) 0102 Each W/C file 010000FD. UDF (W/C file for character co[...]
-
Page 206
- 202 - (6) (7) Writable character set: 01 to 40, 51 to 55 Nibble mode 1 30H 2 30H 3 30H 4 3FH 5 3CH 6 30H 7 30H 8 30H 9 3FH 10 3CH 11 37H • • • • • • • 240 30H 241 3FH 242 3FH 243 3FH 244 3CH 245 30H 246 30H 247 30H 248 30H Hex. mode 1 00H 2 0FH 3 C0H 4 00H 5 FCH 6 7FH • • • • • • • • 120 00H 121 FFH 122 FCH 123 00H 1[...]
-
Page 207
- 203 - [Nibble mode] (1) The writable character data to be stored is separated into four dot units and sent in the following order ( 1 → 248 ). (High order digit: “3”) (2) The data of writable characters to be stored is 30H to 3FH. (3) The minimum unit in the X direction is 8 dots. Dots with no data are transmitted as data 0. (4) The data co[...]
-
Page 208
- 204 - (8) Writable character set: 41 (16×16 dots ) Nibble mode 1 30H 2 30H 3 30H 4 30H 5 30H 6 31H 7 38H • • • 58 31H 59 38H 60 30H 61 30H 62 30H 63 30H 64 30H Hex. mode 1 00H 2 00H 3 01H 4 80H 5 01H 6 80H 7 01H • • • 26 80H 27 01H 28 80H 29 01H 30 80H 31 00H 32 00H [Nibble mode] (1) The writable character data to be stored is separa[...]
-
Page 209
- 205 - (9) Writable character set: 42 (24×24 dots ) Nibble mode 1 30H 2 30H 3 30H 4 30H 5 30H 6 30H 7 30H 8 30H 9 33H • • • • • 137 30H 138 30H 139 30H 140 30H 141 30H 142 30H 143 30H 144 30H Hex. mode 1 00H 2 00H 3 00H 4 00H 5 3CH 6 00H • • • • 67 00H 68 3CH 69 00H 70 00H 71 00H 72 00H [Nibble mode] (1) The writable character d[...]
-
Page 210
- 206 - (10) Writable character set: 43 (32×32 dots) Nibble mode 1 30H 2 30H 3 30H 4 30H 5 30H 6 30H 7 30H 8 30H 9 30H 10 30H 11 30H 12 37H • • • • • 248 30H 249 30H 250 30H 251 30H 252 30H 253 30H 254 30H 255 30H 256 30H Hex. mode 1 00H 2 00H 3 C0H 4 00H 5 00H 6 07H 7 C0H • • • • 123 C0H 124 00H 125 00H 126 00H 127 00H 128 00H [[...]
-
Page 211
- 207 - (11) Writable character set: 44 (48×48 dots) Nibble mode 1 30H 2 30H 3 30H 4 30H 5 30H 6 30H 7 30H 8 30H 9 30H 10 30H • • • • • 569 30H 570 30H 571 30H 572 30H 573 30H 574 30H 575 30H 576 30H Nibble mode 1 00H 2 00H 3 00H 4 00H 5 00H 6 00H 7 00H 8 00H 9 07H 10 E0H • • • • • 281 00H 282 00H 283 00H 284 00H 285 00H 286 00[...]
-
Page 212
- 208 - Notes (1) No matter what character set or character code is selected, no memory will be wasted. (2) When a new writable character is stored, the Flash Memory Format Command ([ESC] J1) or the ATA Card Format Command ([ESC] JA) must be transmitted. (3) A character code already stored can be stored in the flash memory card again if the Bit Map[...]
-
Page 213
- 209 - Examples Writable character set: 03 Writable character code: 70H [ESC] J1; C [LF] [NUL] [ESC] XD; 03, p, 002, 022, 026, 031, 030, 0, 000?<000?<7??800?<???<00?=?03>001? <00?001?8007001?0007801>0003801>0003<01<0001<01<0001< 01<0001<01<0001<01<0001<01> 0001<01>0003<01>0003[...]
-
Page 214
- 210 - 6.3.24 GRAPHIC COMMAND [ESC] SG Function Draws graphic data. Format [ESC] SG; aaaa(D), bbbb(D), cccc, dddd, e, ggg --- ggg [LF] [NUL] or [ESC] SG0; aaaa(D), bbbb(D), cccc, dddd, e, ffff, ggg --- ggg [LF] [NUL] Term aaaa(D): Print origin of X- coordinate for drawing graphic data Fixed as 4 digits (in 0.1 mm units) * If “D” is attached af[...]
-
Page 215
- 211 - ffff: Data count (Effective only for [ESC] SG0; -- command) Fixed as 4 digits Represents the total number of bytes for the compressed graphic data by 32 bits in Hex. Range: 0 to 4,294,967,295 bytes (00H, 00H, 00H, 00H to FFH, FFH, FFH, FFH) ggg --- ggg: Graphic data Explanation (1) When the graphic data “0 ”, “1”, “2”, “3”, [...]
-
Page 216
- 212 - Nibble mode 1 30H 2 30H 3 33H 4 30H 5 30H 6 30H 7 30H 8 30H • • • • • • • • 126 30H 127 33H 128 3FH 129 30H 130 30H 131 30H 132 30H Hex. mode 1 00H 2 30H 3 00H 4 00H 5 38H • • • • • 63 00H 64 3FH 65 00H 66 00H [Nibble mode] (1) The graphic data is separated into four dot units and sent in the following order ( 1 ?[...]
-
Page 217
- 213 - [When TOPIX compression mode is selected] (1) Length: Total number of byte s of the graphic data (0001H ~ ) Ex. Length = 20 bytes: (2) L1 parameter: Shows in which large blo ck (512 dots/block) the changed data is contained. (3) L2 parameter: Shows in which medium bl ock (64 dots/block) the changed data is contained (of the L1 large block).[...]
-
Page 218
- 214 - [When the printer driver compression mode is selected] (1) For the [ESC] SG0; -- command, only “A: Pr inter driver compression mode” can be selected for the type of graphic data. The parameter for the data count is attached after the parameter for the type of graphic data. W hen the total number of data cannot be provided by the printer[...]
-
Page 219
- 215 - Notes (1) The print origin of coordinates mu st be set so that the result of drawing the graphic data will be within the effective print area set by the Label Size Set Command ([ESC] D). (2) The number of graphic width dots and the number of graphic height dots must also be set so that the result of drawi ng the graphic data will be within [...]
-
Page 220
- 216 - Examples [ESC] C [LF] [NUL] [ESC] SG; 0100, 0240, 0019, 0022, 0, 003000003800003<00003>000037000033800031 <00030<00030>00030600030>00030<00031<00033800?33003??0007??000???000?? >000??>0007? <0003?0000 [LF] [NUL] [ESC] XS; I, 0001, 0002C3000 [LF] [NUL] * 30H = “0” 38H = “8” 31H = “1” 39H = “9”[...]
-
Page 221
- 217 - [TOPIX compression mode] [ESC] SG; 0100, 0240, 0019, 0300, 3, 00 5C 80 80 40 30 Length L1 L2 L3 Data (1st line) 80 80 40 08 80 80 40 04 80 80 40 02 80 80 40 09 (2nd line) (3rd line) (4th line) (5th line) 80 80 60 04 80 80 80 60 02 40 80 80 40 01 80 80 20 20 (6th line) (7th line) (8th line) (9th line) 80 80 20 80 80 80 20 80 80 80 20 20 80 8[...]
-
Page 222
- 218 - 6.3.25 SAVE START COMMAND (For Flash Memory) [ESC] XO Function Declares the start of saving PC interface commands. (Places the printer in the mode where PC interface commands are written in flash memory.) Format [ESC] XO; aa, (Sb, ) c [LF] [NUL] Term aa: Identification number to be used for saving in flash memory or calling 01 to 99 Sb: Dri[...]
-
Page 223
- 219 - 6.3.26 SAVE START COMMAND (For ATA Card) [ECS] XV Function Declares the start of saving PC interface commands. (Places the printer in the mode where PC interface commands are written in the ATA card.) Format [ESC] XV; dddddddd, b, c [LF] [NUL] Term dddddddd: Identifier to be used for saving in the ATA card or calling File name using from 1 [...]
-
Page 224
- 220 - 6.3.27 SAVE TERMINATE COMMAND [ESC] XP Function Declares the termination of saving PC interface commands. Format [ESC] XP [LF] [NUL] Note If the storing operation is not continued after the PC interface command is stored, the printer enters the online mode (label issue operation) after about 10 seconds. In this case, the image buffer will b[...]
-
Page 225
- 221 - 6.3.28 SAVED DATA CALL COMMAND (For Flash Memory) [ESC] XQ Function Calls PC interface co mmands saved in flash memory. Format [ESC] XQ; aa, (Sb,) c , d [LF] [NUL] Term aa: Identification number of the file to be called from the flash memory card 01 to 99 Sb: Drive from which the command is called (Omissible. If omitted, flas h ROM on the C[...]
-
Page 226
- 222 - 6.3.29 SAVED DATA CALL COMMAND (For ATA Card) [ESC] XT Function Calls PC interface commands saved in the ATA card. Format [ESC] XT; dddddddd, b, c, d [LF] [NUL] Term dddddddd: Identifier for the file to be called from the ATA card File name within 8 characters b: Drive 1: Slot 1 on the PCMCIA board (Option) 2: Slot 2 on the PCMCIA board (Op[...]
-
Page 227
- 223 - 6.3.30 HEAD BROKEN DOTS CHECK COMMAND [ESC] HD Function Checks the thermal head for broken dots. Format [ESC] HD001 (, a) [L F] [NUL]................. All br oken dots check [ESC] HD003, s 1 s 1 s 1 s 1 , e 1 e 1 e 1 e 1 , s 2 s 2 s 2 s 2 , e 2 e 2 e 2 e 2 ,--- s 8 s 8 s 8 s 8 , e 8 e 8 e 8 e 8 (, a) [LF] [NUL] .............................[...]
-
Page 228
- 224 - 6.3.31 MESSAGE DISPLAY COMMAND [ESC] XJ Function Displays the message on the upper line of the LCD. Format [ESC] XJ; aaa ------ aaa [LF] [NUL] Term aaa ------ aaa: Display data (16 digits) Explanation When the printer receives the Message Display Command, it displays the message on the upper line of the LCD then enters a pause state after p[...]
-
Page 229
- 225 - Examples c Load paper. d Feed one label. e Issue 4 labels. f Message “Please set [Tag]” is displayed. g Change paper. h Press the [RESTART] key. i Feed one label. j Issue 2 labels. [ESC] D0762, 0820, 0732 [LF] [NUL] [ESC] T11C30 [LF] [NUL] [ESC] C [LF] [NUL] [ESC] PC001; 0150, 0410, 1, 1, A, 00, B [LF] [NUL] [ESC] RC001; Sample [LF] [NU[...]
-
Page 230
- 226 - 6.3.32 RESET COMMAND [ESC] WR Function Returns the printer to its initial state. Format [ESC] WR [LF] [NUL] Explanation The printer is returned to the same state as when the power is turned on. When the printer receives this command during printing, it returns to its initial state after issuing the label which is being printed. The next com[...]
-
Page 231
- 227 - 6.3.33 STATUS REQUEST COMMAND [ESC] WS Function Sends the printer status to the host computer. Format [ESC] WS [LF] [NUL] Explanation This command makes the printer send it s status regardless of the setting of “status response/no status response.” The status to be transmitted is the current printer status, and indicates the latest stat[...]
-
Page 232
- 228 - 6.3.34 RECEIVE BUFFER FREE SPACE ST ATUS REQUEST COMMAND [ESC] WB Function Sends information on the printer status and the free space of the receive buffer to the host. Format [ESC] WB [LF] [NUL] Explanation (1) This command makes the printer s end information on its status and free space of the receive buffer regardless of the setting of ?[...]
-
Page 233
- 229 - 6.3.35 VERSION INFORMATION ACQUIRE COMMAND [ESC] WV Function Sends information such as the program version of the printer. Format [ESC] WV [LF] [NUL] Explanation (1) The format of the program version data (total 27 bytes of data) to be returned to the host is as follows. SOH 01H STX 02H “0” 30H “1” 31H “N” 48H “O” 49H Creati[...]
-
Page 234
- 230 - 6.3.36 ATA CARD INFORMATION ACQUIRE COMMAND [ESC] WI Function Sends information regarding t he use of the ATA card to the host. Format [ESC] WI; a, b [LF] [NUL] Term a: Drive 1: Slot 1 ATA card 2: Slot 2 ATA card b: Information to be acquired A: Free space B: Writable character list C: Stored PC command save file Explanation (1) The format [...]
-
Page 235
- 231 - C: Stored PC command save file SOH STX “C” Slot Stored PC command save file name ETX EOT CR LF 01H 02H 43H xxH File name 1 00H File name 2 00H ··· File name n 00H 03H 04H 0DH 0AH In the following cases, 1 byte of “00H ” is returned as the stored PC command save file name. c There is no file. d The ATA card has not been inserted i[...]
-
Page 236
- 232 - 6.3.37 ATA CARD WRITABLE CHARACTER INFORMATION ACQUIRE COMMAND [ESC] WG Function Sends the writable character inform ation stored in the ATA card to the host. Format [ESC] WG; a, bb, cc [LF] [NUL] Term a: Drive 1: Slot 1 ATA card 2: Slot 2 ATA card bb: Writable character set 01 to 44, 51 to 55 cc: Writable character code If there is a 1-byt[...]
-
Page 237
- 233 - 6.3.38 PRINTER OPTION STATUS ACQUIRE COMMAND [ESC] WN Function Sends the information what opti onal devices are installed, to the host. Format [ESC] WN [LF] [NUL] Explanation (1) The format of information to be returned to the host is as follows: SOH STX “E” Option status ETX EOT CR LF 01H 02H 45H 30H 30H 30H 30H 30H 30H 30H 30H 30H 03H[...]
-
Page 238
- 234 - 6.3.39 IP ADDRESS SET COMMAND [ESC] IP Function Sets the IP address to be required for the network connection. Format [ESC] IP; a, bbb, ccc, ddd, eee [LF] [NUL] Term a: IP address to be set 2: Printer IP address (Initial value: 192.168.10.20) 3: Gateway IP address (Initial value: 0.0.0.0) 4: Subnet mask (Initial value: 255.255.255.0) bbb: F[...]
-
Page 239
- 235 - 6.3.40 SOCKET COMMUNICATION PORT SET COMMAND [ESC] IS Function Enables or disables the socket communication, and sets the communication port number to be used. Format [ESC] IS; a, bbbbb [LF] [NUL] Term a: 0: Socket communication is disabled. 1: Socket communication is enabled. bbbbb: Port number (It must be set in 5 digits.) 00000 to 65535 [...]
-
Page 240
- 236 - 6.3.41 DHCP FUNCTION SET COMMAND [ESC] IH Function Enables or disables the DHCP function, and sets the DHCP client ID. Format [ESC] IH; a, bbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbb [LF] [NUL] Term a: 0: DHCP function is disabled. 1: DHCP function is enabled. bbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbb: DHCP client ID (16 bytes of data should be described in 32[...]
-
Page 241
- 237 - 6.3.42 PASS-THROUGH COMMAND [ESC] @002 Function Passes the serial interface data th rough the internal serial interface (CN14). Format [ESC] @002; aaa, bbb --- bbb [LF] [NUL] Term aaa: Number of bytes to be passed through 001 to 999 bbb --- bbb: Binary data to be passed through Explanation This command is used for making a seri al communica[...]
-
Page 242
- 238 - 6.3.43 INTERNAL SERIAL INTERFACE PARAMETER SET COMMAND [ESC] IZ Function Sets communication parameters for the internal serial interface. Format [ESC] IZ; a, b, c , d [LF] [NUL] Term a: Communication speed 0: 2400 bps 1: 4800 bps 2: 9600 bps 3: 19200 bps b: Data length 0: 7 bits 1: 8 bits c: Stop bit length 0: 1 bit 1: 2 bits d: Parity 0: N[...]
-
Page 243
- 239 - 6.4 COMMANDS FOR SYSTEM ADMINISTRATOR 6.4.1 PARAMETER SET COMMAND [ESC] Z2; 1 Function Sets each parameter on the printer. Format [ESC] Z2; 1, abcdefghijkklm nooppqqrstuuvwxyzABCDEFGHIJK [LF] [NUL] Term a: Character code selection 0: PC-850 1: PC-852 2: PC-857 3: PC-8 4: PC-851 5: PC-855 6: PC-1250 7: PC-1251 8: PC-1252 9: PC-1253 A: PC-125[...]
-
Page 244
- 240 - g: RS-232C transmission control 0: XON/XOFF protocol (No XON output when the power is turned on, no XOFF output when the power is turned OFF) 1: READY/BUSY (DTR) protocol (No XON output when the power is turned on, no XOFF output when the power is turned OFF) 2: XON/XOFF + READY/BUSY (DTR) protocol: (XON output when the power is tur ned on,[...]
-
Page 245
- 241 - oo: 1st byte code of the control code (*2) “00” to “FF” (Specify the hex code in 2 bytes of ASCII code.) (*3) pp: 2nd byte code of the control code (*2) “00” to “FF” (Specify the hex code in 2 bytes of ASCII code.) (*3) qq: 3rd byte code of the control code (*2) “00” to “FF” (Specify the hex code in 2 bytes of ASCII [...]
-
Page 246
- 242 - C: Plug-and-play operation mode setting 0: OFF (Plug-and-play operation is disabled.) 1: ON (Plug-and-play operation is enabled.) D: Label end/ribbon end process setting 0: TYPE1 (When the label end state is detected, the printer stops even if it is printing a label.) 1: TYPE2 (When the label end state is detected, the printer stops after i[...]
-
Page 247
- 243 - 6.4.2 FINE ADJUSTMENT VALUE SET COMMAND [ESC] Z2; 2 Function Sets various fine adjus tment values on the printer. Format [ESC] Z2; 2, abbbcdddeffghhhijjkllmnnoppqqrr [LF] [NUL] Term a: Indicates the direction, forward or backward, in which a feed length fine adjustment is to be made. +: Backward -: Forward bbb: Feed length fine adjustment v[...]
-
Page 248
- 244 - o: Fine adjustment direction fo r the ribbon back tension motor voltage -: Negative (The voltage is lowered.) pp: Fine adjustment value for the ribbon back tension motor voltage 00 to 15 (in units of 1 step) qq: Reflective sensor manual threshold fine adjustment value 00 to 40 (in units of 0.1 V) rr: Transmissive sensor manual threshold fin[...]
-
Page 249
- 245 - 6.4.3 RFID PARAMETER SET COMMAND [ESC] Z2; 3 Function Sets RFID related parameters on the printer. Format [ESC] Z2; 3, abbcdddeeeffggghhijjkkkllmnnooppq [LF] [NUL] Term a: RFID module type selection 0: Not installed. 1: H1 (B-9704-RFID-H1-QM) 2: U1 (B-9704-RFID-U1-US/EU(-R)) 3: H2 (B-SX704-RFID-H2) 4: U2 (B-SX704-RFID-U2-EU/US/CN/AU-R) bb: [...]
-
Page 250
- 246 - ll: RFID AGC threshold setting 00 to 15 m: RFID channel setting 0: AUTO 1: 2CH 2: 3CH 3: 4CH 4: 5CH 5: 6CH 6: 7CH 7: 8CH nn: Q value 00 to 15 oo: AGC threshold for data write 00 to 15 pp: AGC threshold lower limit for retry 00 to 15 q: Hibiki tag multi-word write setting 0: Disabled 1: Enabled Explanation (1) This command is not executed un[...]
-
Page 251
- 247 - 6.4.4 BATCH RESET COMMAND [ESC] Z0 (zero) Function Resets the printer. Format [ESC] Z0 [LF] [NUL] Explanation • This command is not execut ed until the printer enters an idle state. • Some values in the Parameter Set Command ([ESC] Z2;1) and the Fine Adjustment Value Set Command ([ESC Z2;2]), will take effe ct when the printer is initia[...]
-
Page 252
- 248 - 6.5 EXPLANATION OF THE RFID RELATED COMMANDS 6.5.1 RFID TAG POSITION ADJUSTMENT COMMAND [ESC] @003 Function Sets the feed amount to adjust the RF ID tag position before writing data onto it. If the RFID tag is not positioned just abov e the RFID antenna when the paper is at the print start position, the printer automatically feeds the paper[...]
-
Page 253
- 249 - When print data for several labels is trans mitted to the printer, how the printer performs printing and data write is expl ained for each of the offset printing parameter options using the above illustration, as follows. [0:Offset printing is not performed. (Normal operation)] (When two labels are issued.) (1) The printer feeds the labels [...]
-
Page 254
- 250 - 6.5.2 RFID TAG READ COMMAND [ESC] WF Function Reads the data stored on the RFID t ag which is positioned just above the antenna. Format [ESC] WF (;) (Naaaa) (,Abbb) (, Tcc) (,Id) (,Jeeeeeeee) (,Xfgggggggg…) [LF] [NUL] Term Naaaa: Number of bytes to be read (Omissible) 0001 to 4096 When omitted, the number of bytes s pecified for the tag t[...]
-
Page 255
- 251 - Xfgggggggg: User block access password ex ecution setting (Effective only when the Hibiki tag is used for the B-SX704-RFID-U2-R.) Designates a password to access and read a tag of which user block is read-locked. Up to five user blocks can be specified continuously. For example: X4AABBCCDD,X5BBCCDDEE,X6CCDDEEFF f: Designates a user area ban[...]
-
Page 256
- 252 - Supplemental explanation of parameter “I” When Gen2 tag is used, options for the parameter “I” are as follows: I1: TID & User area data I2: EPC data I3: EPC data + TID & User area data As the readability of the TID & User area differs depending on the tag manufacturers, refer to the memory map of each tag. Example) • I[...]
-
Page 257
- 253 - Example Examples of the status to be retu rned are shown below. (The number of bytes to be read is omitted.) [When a reading failed.] Header “F” Tag type Footer 01H 02H 46H 30H 30H 03H 04H 0DH 0AH [When a reading succeeded. (When RFID read mode=1 or omitted.)] Header “F” Tag type User data (32 by tes) Footer 01H 02H 46H 32H 33H 41H [...]
-
Page 258
- 254 - 6.5.3 RFID VOID PATTERN PRINT COMMAND [ESC] @006 Func tion Prints the void pattern to indicate an RFID tag error. Format [ESC] @006 [LF] [NUL] Explanation (1) The void patter is printed a ccording to the currently set label size. (2) After the void pattern is printed, the print data image is still retained. (3) This void pattern is printed [...]
-
Page 259
- 255 - 6.5.4 RFID DATA WRITE COMMAND [ESC] @012 Function Writes a specified data onto an RFID tag. No printing is performed. The result of a data write is notifi ed by returning a detailed status. Format [ESC]@012;a (,Abbb) (,Mc) (,Pd) (,Fe) (,Tff) (,Dgg) (,Gh) (, Riiiiiiii) (,Kjjjjjjjj) (,Lkk) (,Jllllllll) (,Vm) (,Bnn) (,Hopppppppp · · ·) (,Qq[...]
-
Page 260
- 256 - Dgg: EPC format (Omissible) 00: No format (When omitted) 10: GID-96 11: SGTIN-64 12: SGTIN-96 13: SSCC-64 14: SSCC-96 15: SGLN-64 16: SGLN-96 17: GRAI-64 18: GRAI-96 19: GIAI-64 20: GIAI-96 21: DoD-64 22: DoD-96 23:SGTIN-198 24:SGLN-195 25:GRAI-170 26:GIAI-202 Gh: Data type (Omissible) 0: No conversion of data (Default) 1: Conversion to bin[...]
-
Page 261
- 257 - 20 Unlocked Unlocked Locked Unlocked Locked 21 Locked Unlocked Locked Unlocked Locked 22 Unlocked Locked Locked Unlocked Locked 23 Locked Locked Locked Unlocked Locked 24 Unlocked Unlocked Unlocked Locked Locked 25 Locked Unlocked Unlocked Locked Locked 26 Unlocked Locked Unlocked Locked Locked 27 Locked Locked Unlocked Locked Locked 28 Unl[...]
-
Page 262
- 258 - when “0” (Verification disabled) is selected. Bnn: Designates the area where the data is written (Omissible) 00: Blank0 (Reserved area) 01: Blank1 (EPC area) (When omitted) 02: Blank2 (TID area) 03: Blank3 (User area) 04: Bank4 (User block 1) 05: Bank5 (User block 2) 06: Bank6 (User block 3) 07: Bank7 (User block 4) 08: Bank8 (User bloc[...]
-
Page 263
- 259 - Qqrstuvw: Area lock designation (Effective only when the Hibiki tag is used for the B- SX704-RFID-U2-R. Designates an area lock type. Area lock type can be specified for up to eight areas continuously. For example: Q1100000,Q4101010,Q 5100010, which indicates: Bank1:Read lock, Bank4:Read lock, Wri te lock, Password read/write lock Bank5:Rea[...]
-
Page 264
- 260 - Xxyyyyyyyy: User blo ck access password execution se tting (Effective only when the Hibiki tag is used for the B-SX704-RFID-U2-R.) Designates a password to access and write a tag of which user block is write-locked. Up to five user blocks can be specified continuously. For example: X4AABBCCDD,X5BBCCDDEE,X6CCDDEEFF x: Designates a user area [...]
-
Page 265
- 261 - 7. CONTROL CODE SELECTION (1) Automatic Selection This printer automatically selects [ESC] (1BH). [L F] (0AH). [NUL] (00H) or {(7BH). | (7CH).} (7DH) as an interface command control code. After the power is turned on, the program checks the data from the host for [ESC] and { and assumes the data whichever has been sent first to be a control[...]
-
Page 266
- 262 - 8. ERROR PROCESSING If the printer detects any of the following errors, it will display the error message (LCD, LED), makes status response (serial interface, para llel interface), and stops its operation. 8.1 COMMUNICATION ERRORS (1) Command Errors An error results if a command length erro r, command transmission sequence error, command fo[...]
-
Page 267
- 263 - (2) Cutter Error • Rotary cutter When the cutter does not move from the cutter home position 40 msec or more after the cutter solenoid is driven, an error will result. The cutter moves from the home position, however , it does not return to the home position after 150 msec. • Swing cutter When the cutter home position sensor does not de[...]
-
Page 268
- 264 - (5) Head Open Error c If the head open sensor detects the open state in 5 mm continuously, an error will result. d If the head open sensor detects the open state when an issue, a feed, or an ejection is attempted in a printer stop state, an error will result. e If the head-up sensor detects the head-up state in 5 mm continuously, an error w[...]
-
Page 269
- 265 - 8.3 ERRORS IN WRITABLE CHARACTER AND PC COMMAND SAVE MODES (1) Write Error • An error has occurred in writing in flash memory for storage. (2) Format Error • An erase error has occurred in formatting flash memory for storage. (3) Memory Full • Storing is impossible because of the insufficient flash memory for storage. * At the moment [...]
-
Page 270
- 266 - 8.6 RFID ERROR (1) RFID Write Error If writing data onto the RFID tag continuously failed for the maximum number of RFID write retries, an RFID write error will result. (The maximum number of RFID write retries can be set in the system mode.) * When an error has occurred, the printer show s an error message, sends a status response, and the[...]
-
Page 271
- 267 - 9. STATUS RESPONSE 9.1 FUNCTIONS There are three kinds of status response functions. (1) Status transmission function at the end of a normal transmission and the occurrence of an error (auto status transmission) This function is available for the RS-232C interface and for the mail function. If the option for “status response” has been s[...]
-
Page 272
- 268 - 9.1.1 STATUS FORMAT SOH STX Status Remaining count ETX EOT CR LF 01H 02H 3XH 3XH 3XH 3XH 3XH 3XH 3XH 03H 04H 0DH 0AH Remaining count • 0000 ~ 9999 (Fixed as 0000 in the save mode) Type of status • “1” (31H) (Status Request Command) • “2” (32H) (Auto status transmission) • “3” (33H) (Receive buffer free space status reque[...]
-
Page 273
- 269 - 9.1.2 DETAIL STATUS Detail Status LCD Message of Upper Line (English) Printer Status Auto Status Transmission Status Request Command ON LINE The head was closed with the head open. 00 00 HEAD OPEN The head was opened in the online mode. 01 01 ON LINE Operating (Analyzing command, drawing, printing, feeding) – 02 PAUSE **** In a pause stat[...]
-
Page 274
- 270 - Detail Status LCD Message of Upper Line (English) Printer Status Auto Status Transmission Status Request Command EEPROM ERROR An EEPROM for back up cannot be read/written properly. – – SYSTEM ERROR (a) A command has been fetched from an odd address. (b) Word data has been accessed from a place other than the boundary of the word data. ([...]
-
Page 275
- 271 - 9.1.3 SUMMARY OF STATUS RESPONSE Interface Status transmission timing Status size RS-232C Automatic status transmission 13 bytes Reception of [ESC] WS [LF] [NUL] 13 bytes Reception of [ESC] WB [LF] [NUL] 23 bytes Centronics System SPP Automatic status transmission N/A mode setting Nibble mode negotiation immediately after [ESC] WS [LF] [NUL[...]
-
Page 276
- 272 - 9.2 PARALLEL INTERFACE SIGNALS 9.2.1 COMPATIBILITY MODE LCD Messages Printer Status Output Signal of Upper Line (English) Busy Select nFault PError ON LINE In the online mode L H H L ON LINE In the online mode (communicating) L, H H H L HEAD OPEN The head was opened in the online mode. H L L L PAUSE **** In a pause state H L L L ON LINE Dat[...]
-
Page 277
- 273 - LCD Messages Printer Status Output Signal of Upper Line (English) Busy Select nFault PError EEPROM ERROR An EEPROM for back-up cannot be read/written properly. H L L L SYSTEM ERROR (a) A command has been fetched from an odd address. (b) Word data has been accessed from a place other than the boundary of the word data. (c) Long word data has[...]
-
Page 278
- 274 - 10. LCD MESSAGES AND LED INDICATIONS The model and the firmware version are displayed on the lower line of the LCD. LED Indication No. LCD Messages of Upper line (English) POWER ON LI NE ERROR Printer Status Restoration by the [RESTART] key Yes/No Acceptance of Status Request Reset Command Yes/No 1 ON LINE { { z In the online mode - Yes ON [...]
-
Page 279
- 275 - LED Indication No. LCD Messages of Upper line (English) POWER ON LI NE ERROR Printer Status Restoration by the [RESTART] key Yes/No Acceptance of Status Request Reset Command Yes/No 18 Display of error command (See NOTE 1 .) { z { A command error has occurred in analyzing the command. Yes Yes 19 POWER FAILURE { z { A momentary pow er interr[...]
-
Page 280
- 276 - LED Indication No. LCD Messages of Upper line (English) POWER ON LI NE ERROR Printer Status Restoration by the [RESTART] key Yes/No Acceptance of Status Request Reset Command Yes/No 25 RFID WRITE ERROR { z { Writing data onto the RFID tag continuously failed for the maximum number of RFID write retries. Yes Yes 26 RFID ERROR { z { The print[...]
-
Page 281
- 277 - NOTE 3: { : ON : Blinking z : OFF ****: Remaining number of labels to be printed to 9999 (in units of 1 label/tag) %%%%%%%: Remaining memory capacity for ATA card 0 to 9999999 (in units of 1 K byte) * Firmware V4.x, X4.x, or C4.x (MAIN3 PC board) ###: Remaining memory capacity of PC save area of the flash memory card: 0 to 895 (in K byt[...]
-
Page 282
- 278 - 11. LCD MESSAGES IN DIFFERENT LANGUAGES (UPPER LINE OF LCD) No. ENGLISH No. GERMAN No. FRENCH 1 ON LINE 1 ON LINE 1 PRETE 2 HEAD OPEN 2 KOPF OFFEN 2 TETE OUVERTE 3 PAUSE **** 3 PAUSE **** 3 PAUSE **** 4 COMMS ERROR 4 UEBERTR.-FEHLER 4 ERR. COMMUNICAT. 5 PAPER JAM **** 5 PAPIERSTAU **** 5 PB. PAPIER **** 6 CUTTER ERROR**** 6 MESSERFEHL. ****[...]
-
Page 283
- 279 - No. DUTCH No. SPANISH No. JAPANESE 1 IN LIJN 1 ON LINE 1 2 KOP OPEN 2 CABEZAL ABIERTO 2 3 PAUZE **** 3 PAUSA **** 3 4 COMM. FOUT 4 ERROR COMUNICACI 4 5 PAPIER VAST **** 5 ATASCO PAPEL**** 5 6 SNIJMES FOUT**** 6 ERROR CORTAD**** 6 7 PAPIER OP **** 7 SIN PAPEL **** 7 8 LINT OP **** 8 SIN CINTA **** 8 9 KOP OPEN **** 9 CABEZA ABIER**** 9 10 PR[...]
-
Page 284
- 280 - No. Italian 1 PRONTA 2 TESTA APERTA 3 PAUSA **** 4 ERR. COMUNICAZ. 5 CARTA INCEP.**** 6 ERR. TAGL. **** 7 NO CARTA **** 8 NO NASTRO **** 9 TESTA APERTA**** 10 ERROR TESTA 11 TEMP. TESTA ALTA 12 ERR. NASTRO **** 13 RIAVV.PIENO **** 14 SALVA #### &&&& SALVA %%%%%%% 15 ERR.SCRITT.CARD 16 ERR. FORMATTAZ. 17 MEM. CARD PIENA 18 PO[...]
-
Page 285
- 281 - 12. CHARACTER CODE TABLE The followings are the character code tables. Ho wever, the characters which can be printed are different according to the character type. 12.1 TIMES ROMAN, HELVET ICA, LETTER GOTHIC, PR ESTIGE ELITE, COURIER, GOTHIC725 BLACK (Bit map font type: A, B, C, D, E, F, G, H, I, J, K, L, N, O, P, Q, R, q) (1) PC-850 0 1 2 [...]
-
Page 286
- 282 - (3) PC-852 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 @ P ` p Ç É á C Ó - 1 ! 1 A Q a q ü í Ð ß 2 ” 2 B R b r é ó Ô 3 # 3 C S c s â ô ú Ë 4 $ 4 D T d t ä ö 5 % 5 E U e u Á § 6 & 6 F V f v Â Í ÷ 7 ’ 7 G W g w ç Î ¸ 8 ( 8 H X h x ° 9 ) 9 I Y i y ë Ö Ú ¨ A * : J Z j z Ü ¬ • B + ; K [ k { C , < L l | î ?[...]
-
Page 287
- 283 - (5) PC-851 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 @ P ` p Ç C 1 ! 1 A Q a q ü ± 2 ” 2 B R b r é 3 # 3 C S c s â ô 4 $ 4 D T d t ä ö 5 % 5 E U e u à § 6 & 6 F V f v û 7 ’ 7 G W g w ç ù ¸ 8 ( 8 H X h x ê ° 9 ) 9 I Y i y ë Ö ¨ A * : J Z j z è Ü B + ; K [ k { Ï ½ C , < L l | î £ D – = M ] m } E . > N ^ n [...]
-
Page 288
- 284 - (7) PC-1250 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 @ P ` p C 1 ! 1 A Q a q ± Á á 2 ” 2 B R b r  â 3 # 3 C S c s Ó ó 4 $ 4 D T d t ¤ ´ Ä Ô ä ô 5 % 5 E U e u µ 6 & 6 F V f v ¦ ¶ Ö ö 7 ’ 7 G W g w § · Ç × ç ÷ 8 ( 8 H X h x ¨ ¸ 9 ) 9 I Y i y © É é A * : J Z j z Ú ú B + ; K [ k { « » Ë ë C , < L l | [...]
-
Page 289
- 285 - (9) PC-1252 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 @ P ` p C À Ð à ð 1 ! 1 A Q a q ¡ ± Á Ñ á ñ 2 ” 2 B R b r ¢ ² Â Ò â ò 3 # 3 C S c s ƒ £ ³ Ã Ó ã ó 4 $ 4 D T d t ¤ ´ Ä Ô ä ô 5 % 5 E U e u ¥ µ Å Õ å õ 6 & 6 F V f v ¦ ¶ Æ Ö æ ö 7 ’ 7 G W g w § · Ç × ç ÷ 8 ( 8 H X h x ^ ˜ ¨ ¸ È Ø è ø [...]
-
Page 290
- 286 - (11) PC-1254 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 @ P ` p C À à 1 ! 1 A Q a q ¡ ± Á Ñ á ñ 2 ” 2 B R b r ¢ ² Â Ò â ò 3 # 3 C S c s ƒ £ ³ Ã Ó ã ó 4 $ 4 D T d t ¤ ´ Ä Ô ä ô 5 % 5 E U e u ¥ µ Å Õ å õ 6 & 6 F V f v ¦ ¶ Æ Ö æ ö 7 ’ 7 G W g w § · Ç × ç ÷ 8 ( 8 H X h x ^ ˜ ¨ ¸ È Ø è ø 9 ) 9[...]
-
Page 291
- 287 - (13) LATIN9 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 @ P ` p C À Ð à ð 1 ! 1 A Q a q ¡ ± Á Ñ á ñ 2 ” 2 B R b r ¢ ² Â Ò â ò 3 # 3 C S c s £ ³ Ã Ó ã ó 4 $ 4 D T d t C Ä Ô ä ô 5 % 5 E U e u ¥ µ Å Õ å õ 6 & 6 F V f v ¶ Æ Ö æ ö 7 ’ 7 G W g w § · Ç × ç ÷ 8 ( 8 H X h x È Ø è ø 9 ) 9 I Y i y © ¹ ?[...]
-
Page 292
- 288 - 12.2 PRESENTATION (Bit map font type: M) (1) PC-850, PC-857 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 @ P ` P C - 1 ! 1 A Q A Q 2 " 2 B R B R 3 # 3 C S C S 4 $ 4 D T D T 5 % 5 E U E U 6 & 6 F V F V 7 ' 7 G W G W 8 ( 8 H X H X 9 ) 9 I Y I Y A * :J Z J Z B + ; K [ K { C , < L L | D – = M ] M } E . > N ^ N ~ ¥ F / ? O _ O (2[...]
-
Page 293
- 289 - (3) PC-852 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 @ P ` P C - 1 ! 1 A Q A Q 2 " 2 B R B R 3 # 3 C S C S 4 $ 4 D T D T 5 % 5 E U E U 6 & 6 F V F V 7 ' 7 G W G W 8 ( 8 H X H X 9 ) 9 I Y I Y A * :J Z J Z B + ; K [ K { C , < L L | D – = M ] M } E . > N ^ N ~ F / ? O _ O (4) PC-851, PC-855, PC-1250, PC-1251, PC-1257, Arabic [...]
-
Page 294
- 290 - (5) PC-1252, PC-1254 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 @ P ` P C 1 ! 1 A Q A Q 2 " 2 B R B R 3 # 3 C S C S 4 $ 4 D T D T 5 % 5 E U E U ¥ 6 & 6 F V F V 7 ' 7 G W G W 8 ( 8 H X H X ^˜ 9 ) 9 I Y I Y A * :J Z J Z B + ; K [ K { C , < L L | D – = M ] M } E . > N ^ N ~ F / ? O _ O (6) PC-1253 0 1 2 3 4 5 6 7 8 9 A B C D[...]
-
Page 295
- 291 - (7) LATIN9 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 @ P ` P C 1 ! 1 A Q A Q 2 " 2 B R B R 3 # 3 C S C S 4 $ 4 D T D T C 5 % 5 E U E U ¥ 6 & 6 F V F V 7 ' 7 G W G W 8 ( 8 H X H X 9 ) 9 I Y I Y A * :J Z J Z B + ; K [ K { C , < L L | D – = M ] M } E . > N ^ N ~ F / ? O _ O When Japanese message is selected in the system mod[...]
-
Page 296
- 292 - 12.3 OCR-A (Bit map font type: S) (1) PC-850, PC-857 c B-SX4T 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 P - 1 1A Q 2 " 2B R 3 3C S 4 $ 4D T 5 5E U 6 6F V 7 7G W 8 8H X 9 9I Y A J Z B + K C <L D - M E . >N ¥ F / O d B-SX5T 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0@ P p - 1 ! 1 A Q a q 2 " 2 B R b r 3 # 3 C S c s 4 $ 4 D T d t 5 % 5 E U [...]
-
Page 297
- 293 - (2) PC-8 c B-SX4T 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 P 1 1A Q 2 " 2B R 3 3C S 4 $ 4D T 5 5E U 6 6F V 7 7G W 8 8H X 9 9I Y A J Z B + K C <L D - M ¥ E . >N F / O d B-SX5T 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0@ P p 1 ! 1 A Q a q 2 " 2 B R b r 3 # 3 C S c s 4 $ 4 D T d t 5 % 5 E U e u 6 & 6 F V f v 7 ' 7 G W g w 8 ( 8 H[...]
-
Page 298
- 294 - (3) PC-852 c B-SX4T 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 P - 1 1A Q 2 " 2B R 3 3C S 4 $ 4D T 5 5E U 6 6F V 7 7G W 8 8H X 9 9I Y A J Z B + K C <L D - M E . >N F / O d B-SX5T 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0@ P p - 1 ! 1 A Q a q 2 " 2 B R b r 3 # 3 C S c s 4 $ 4 D T d t 5 % 5 E U e u 6 & 6 F V f v 7 ' 7 G W g w 8 ( [...]
-
Page 299
- 295 - (4) PC-851, PC-855, PC-1250, PC-1251, PC-1257, Arabic c B-SX4T 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 P 1 1A Q 2 " 2B R 3 3C S 4 $ 4D T 5 5E U 6 6F V 7 7G W 8 8H X 9 9I Y A J Z B + K C <L D - M E . >N F / O d B-SX5T 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0@ P p 1 ! 1 A Q a q 2 " 2 B R b r 3 # 3 C S c s 4 $ 4 D T d t 5 % 5 E U e u 6 [...]
-
Page 300
- 296 - (5) PC-1252, PC-1254 c B-SX4T 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 P - 1 1A Q 2 " 2B R 3 3C S 4 $ 4D T 5 5E U ¥ 6 6F V 7 7G W 8 8H X ^˜ 9 9I Y A J Z B + K C <L D - M E . >N F / O d B-SX5T 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0@ P p - 1 ! 1 A Q a q 2 " 2 B R b r 3 # 3 C S c s 4 $ 4 D T d t 5 % 5 E U e u ¥ 6 & 6 F V f v 7 &[...]
-
Page 301
- 297 - (6) PC-1253 c B-SX4T 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 P - 1 1A Q 2 " 2B R 3 3C S 4 $ 4D T 5 5E U ¥ 6 6F V 7 7G W 8 8H X 9 9I Y A J Z B + K C <L D - M E . >N F / O d B-SX5T 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0@ P p - 1 ! 1 A Q a q 2 " 2 B R b r 3 # 3 C S c s 4 $ 4 D T d t 5 % 5 E U e u ¥ 6 & 6 F V f v 7 ' 7 G W g[...]
-
Page 302
- 298 - (7) LATIN9 c B-SX4T 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 P 1 1A Q 2 " 2B R 3 3C S 4 $ 4D T 5 5E U ¥ 6 6F V 7 7G W 8 8H X 9 9I Y A J Z B + K C <L D - M E . >N F / O d B-SX5T 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0@ P p 1 ! 1 A Q a q 2 " 2 B R b r 3 # 3 C S c s 4 $ 4 D T d t 5 % 5 E U e u ¥ 6 & 6 F V f v 7 ' 7 G W g w 8 [...]
-
Page 303
- 299 - 12.4 OCR-B (Bit map font type: T) (1) PC-850, PC-857 c B-SX4T 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 P 0 - 1 1A Q 1 2 " 2 B R 2 3 3C S 3 4 $ 4 D T 4 5 5E U 5 6 6F V 6 7 7G W 7 8 8H X 8 9 9I Y 9 A J Z B + K C <L D - M E . >N ¥ F / O The size of the numerals of codes 80h ~ 89h are reduced to 80%. d B-SX5T 0 1 2 3 4 5 6 7 8 9 A B C D [...]
-
Page 304
- 300 - (2) PC-8 c B-SX4T 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 P 0 1 1A Q 1 2 " 2 B R 2 3 3C S 3 4 $ 4 D T 4 5 5E U 5 6 6F V 6 7 7G W 7 8 8H X 8 9 9I Y 9 A J Z B + K C <L D - M ¥ E . >N F / O The size of the numerals of codes 80h ~ 89h are reduced to 80%. d B-SX5T 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 @ P ` p 0 1 ! 1 A Q a q 1 2 " 2 B[...]
-
Page 305
- 301 - (3) PC-852 c B-SX4T 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 P 0 - 1 1A Q 1 2 " 2 B R 2 3 3C S 3 4 $ 4 D T 4 5 5E U 5 6 6F V 6 7 7G W 7 8 8H X 8 9 9I Y 9 A J Z B + K C <L D - M E . >N F / O The size of the numerals of codes 80h ~ 89h are reduced to 80%. d B-SX5T 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 @ P ` p 0 - 1 ! 1 A Q a q 1 2 " [...]
-
Page 306
- 302 - (4) PC-851, PC-855, PC-1250, PC-1251, PC-1257, Arabic c B-SX4T 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 P 0 1 1A Q 1 2 " 2 B R 2 3 3C S 3 4 $ 4 D T 4 5 5E U 5 6 6F V 6 7 7G W 7 8 8H X 8 9 9I Y 9 A J Z B + K C <L D - M E . >N F / O The size of the numerals of codes 80h ~ 89h are reduced to 80%. d B-SX5T 0 1 2 3 4 5 6 7 8 9 A B C D E F [...]
-
Page 307
- 303 - (5) PC-1252, PC-1254, LATIN9 c B-SX4T 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 P 0 1 1A Q 1 2 " 2 B R 2 3 3C S 3 4 $ 4 D T 4 5 5E U 5 ¥ 6 6F V 6 7 7G W 7 8 8H X 8 ˜ 9 9I Y 9 A J Z B + K C <L D - M E . >N F / O The size of the numerals of codes 80h ~ 89h are reduced to 80%. d B-SX5T 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 @ P ` p 0 1 ! 1[...]
-
Page 308
- 304 - (6) PC-1253 c B-SX4T 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 P 0 1 1A Q 1 2 " 2 B R 2 3 3C S 3 4 $ 4 D T 4 5 5E U 5 ¥ 6 6F V 6 7 7G W 7 8 8H X 8 9 9I Y 9 A J Z B + K C <L D - M E . >N F / O The size of the numerals of codes 80h ~ 89h are reduced to 80%. d B-SX5T 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 @ P ` p 0 1 ! 1 A Q a q 1 2 " [...]
-
Page 309
- 305 - 12.5 TEC OUTLINE FONT 1 (Outline font type: A, B) (1) PC-850 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 @ P ` p Ç É á C - 1 ! 1 A Q a q ü æ í C ß ± 2 ” 2 B R b r é Æ ó 3 # 3 C S c s â ô ú 4 $ 4 D T d t ä ö ñ õ 5 % 5 E U e u à ò Ñ § 6 & 6 F V f v å û ª ã µ ÷ 7 ’ 7 G W g w ç ù º 8 ( 8 H X h x ê ÿ ¿ ° 9 ) 9 [...]
-
Page 310
- 306 - (3) PC-852 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 @ P ` p Ç É á C - 1 ! 1 A Q a q ü í C ß 2 ” 2 B R b r é ó 3 # 3 C S c s â ô ú 4 $ 4 D T d t ä ö 5 % 5 E U e u § 6 & 6 F V f v ÷ 7 ’ 7 G W g w ç 8 ( 8 H X h x ° 9 ) 9 I Y i y ë Ö A * : J Z j z Ü ¬ • B + ; K [ k { C , < L l | î D – = M ] m } E . > N ^ n ~[...]
-
Page 311
- 307 - (5) PC-851 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 @ P ` p Ç C 1 ! 1 A Q a q ü C ± 2 " 2 B R b r é 3 # 3 C S c s â ô 4 $ 4 D T d t ä ö 5 % 5 E U e u à § 6 & 6 F V f v û 7 ' 7 G W g w ç ù 8 ( 8 H X h x ê ° 9 ) 9 I Y i y ë Ö A * :J Z j z è Ü B + ; K [ k { Ï ½ C , < L l | î £ D – = M ] m } E . > N ^ n[...]
-
Page 312
- 308 - (7) PC-1250 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 @ P ` p C 1 ! 1 A Q a q C á 2 " 2 B R b r â 3 # 3 C S c s ó 4 $ 4 D T d t ¤ Ä ä ô 5 % 5 E U e u µ 6 & 6 F V f v Ö ö 7 ' 7 G W g w § ·Ç ç ÷ 8 ( 8 H X h x 9 ) 9 I Y i y É é A * : J Z j z ú B + ; K [ k { « » ë C , < L l | ¬ Ü ü D – = M ] m } Í E . >[...]
-
Page 313
- 309 - (9) PC-1252 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 @ P ` p C à 1 ! 1 A Q a q ¡ C Ñ á ñ 2 " 2 B R b r ¢ ² â ò 3 # 3 C S c s ƒ £ ã ó 4 $ 4 D T d t ¤ Ä ä ô 5 % 5 E U e u ¥ µ Å å õ 6 & 6 F V f v ÆÖ æ ö 7 ' 7 G W g w § ·Ç ç ÷ 8 ( 8 H X h x ^ ˜ Ø è ø 9 ) 9 I Y i y é ù A * :J Z j z ª ê ú B + ; K [[...]
-
Page 314
- 310 - (11) PC-1254 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 @ P ` p C à 1 ! 1 A Q a q ¡ C Ñ á ñ 2 " 2 B R b r ¢ ² â ò 3 # 3 C S c s ƒ £ ã ó 4 $ 4 D T d t ¤ Ä ä ô 5 % 5 E U e u ¥ µ Å å õ 6 & 6 F V f v ÆÖ æ ö 7 ' 7 G W g w § ·Ç ç ÷ 8 ( 8 H X h x ^ ˜ Ø è ø 9 ) 9 I Y i y É é ù A * :J Z j z ª º ê ú B [...]
-
Page 315
- 311 - (13) LATIN9 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 @ P ` p C à 1 ! 1 A Q a q ¡ C Ñ á ñ 2 " 2 B R b r ¢ ² â ò 3 # 3 C S c s £ ã ó 4 $ 4 D T d t ¤ Ä ä ô 5 % 5 E U e u ¥ µ Å å õ 6 & 6 F V f v ÆÖ æ ö 7 ' 7 G W g w § ·Ç ç ÷ 8 ( 8 H X h x Ø è ø 9 ) 9 I Y i y É é ù A * :J Z j z ª º ê ú B + ; K [ k[...]
-
Page 316
- 312 - 12.6 PRICE FONT 1, 2, 3 (Outline font type: E, F, G) (1) All types of character codes 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 - 1 1 2 2 3 3 4 $ 4 5 % 5 6 6 7 7 8 8 9 9 A B C , ¥ D – E . ~ F /[...]
-
Page 317
- 313 - 12.7 TEC OUTLINE FONT 2, 3, GOTHIC725 BLACK (Outline font type: H, I, J) (1) PC-850 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 @ P ` p Ç É á C ð Ó - 1 ! 1 A Q a q ü æ í Ð ß ± 2 ” 2 B R b r é Æ ó Ê Ô = 3 # 3 C S c s â ô ú Ë Ò ¾ 4 $ 4 D T d t ä ö ñ È õ ¶ 5 % 5 E U e u à ò Ñ Á Ì Õ § 6 & 6 F V f v å û ª Â ?[...]
-
Page 318
- 314 - ¨ Š ¸ ¸ Š Š Š Š Š Š Š Š Š Š Š Š Š ¨ ¨ å å Š Š Š Š Š ´ ‘ ‘ ‘ ‘ ‘ ´ ´ ´ ´ ´ ´ ´ ¸ ´ ´ ´ ¸ ¸ ¸ ´ ´ ´ ´ ´ ´ ´ ´ ´ ´ ´ ´ ´ ´ Š Š (3) PC-852 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 @ P ` p Ç É á C d Ó - 1 ! 1 A Q a q ü L í Ð ß 2 ” 2 B R b r é Í ó D Ô 3 # 3 C S c s â ô [...]
-
Page 319
- 315 - (5) PC-851 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 @ P ` p Ç C 1 ! 1 A Q a q ü ± 2 ” 2 B R b r é 3 # 3 C S c s â ô 4 $ 4 D T d t ä ö 5 % 5 E U e u à § 6 & 6 F V f v û 7 ’ 7 G W g w ç ù ¸ 8 ( 8 H X h x ê ° 9 ) 9 I Y i y ë Ö ¨ A * : J Z j z è Ü B + ; K [ k { ï ½ C , < L l | î £ D – = M ] m } E . > N ˆ n[...]
-
Page 320
- 316 - Š Š Š Š ¨ å Š ´ ´ ´ ´ ´ ¸ ¸ ¸ ¸ ¸ ´ ´ ´ ´ ´ ´ ´ ´ ´ ´ Š ´ ´ Š Š Š Š Š Š Š Š Š Š Š Š Š ¨ ‘ ‘ ‘ ‘ ´ ´ ´ ´ å (7) PC-1250 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 @ P ` p C R Ð r ð 1 ! 1 A Q a q ± Á N á n 2 ” 2 B R b r N â n 3 # 3 C S c s L l Ó ó 4 $ 4 D T d t ¤ ´ Ä Ô ä ô 5 % 5[...]
-
Page 321
- 317 - Š Š Š Š (9) PC-1252 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 @ P ` p C Ð à ð 1 ! 1 A Q a q ¡ ± Á Ñ á ñ 2 ” 2 B R b r ² Ò â ò 3 # 3 C S c s ƒ £ ³ Ó ó 4 $ 4 D T d t ¤ ´ Ä Ô ä ô 5 % 5 E U e u µ Å Õ å õ 6 & 6 F V f v ¦ ¶ Æ Ö æ ö 7 ’ 7 G W g w § Ç × ç ÷ 8 ( 8 H X h x ˆ ˜ ¨ ¸ È Ø è ø 9 ) 9 I [...]
-
Page 322
- 318 - Š Š ¸ ¸ ¨ ´ ´ ´ ´ ´ ´ ´ ´ Š ‘ ‘ ‘‘ ‘ Š Š Š Š ¨ Š Š (11) PC-1254 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 @ P ` p C à 1 ! 1 A Q a q ¡ ± Á Ñ á ñ 2 ” 2 B R b r ² Ò â ò 3 # 3 C S c s ƒ £ ³ Ó ó 4 $ 4 D T d t ¤ ´ Ä Ô ä ô 5 % 5 E U e u µ Å Õ å õ 6 & 6 F V f v ¦ ¶ Æ Ö æ ö 7 ’ 7 G W [...]
-
Page 323
- 319 - Š Š Š Š (13) LATIN9 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 @ P ` p C Ð à ñ 1 ! 1 A Q a q ¡ ± Á Ñ á ò 2 ” 2 B R b r ² Ò â ó 3 # 3 C S c s £ ³ Ó ô 4 $ 4 D T d t ð Z Ä Ô ä õ 5 % 5 E U e u µ Å Õ å ö 6 & 6 F V f v S ¾ Æ Ö æ ÷ 7 ’ 7 G W g w § Ç × ç ø 8 ( 8 H X h x s z È Ø è ù 9 ) 9 I Y i y ¹ É ?[...]
-
Page 324
- 320 - 12.8 GB18030 (CHINESE KANJI) (1) GB18030 (Chinese Kanji) 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 0 @ P ` p 1 ! 1 A Q a q 2 ” 2 B R b r 3 # 3 C S c s 4 $ 4 D T d t 5 % 5 E U e u 6 & 6 F V f v 7 ’ 7 G W g w 8 ( 8 H X h x 9 ) 9 I Y i y A * : J Z j z B + ; K [ k { C , < L ¥ l | D – = M ] m } E . > N ˆ n ~ F / ? O _ o[...]
-
Page 325
- 321 - (2) GB18030 code tables TBD[...]
-
Page 326
- 322 - TBD[...]
-
Page 327
- 323 - TBD[...]
-
Page 328
- 324 - TBD[...]
-
Page 329
- 325 - 12.9 TrueType FONT (1) PC-850 (2) PC-8[...]
-
Page 330
- 326 - (3) PC-852 (4) PC-857[...]
-
Page 331
- 327 - (5) PC-851 (6) PC-855[...]
-
Page 332
- 328 - (7) PC-1250 (8) PC-1251[...]
-
Page 333
- 329 - (9) PC-1252 (10) PC-1253[...]
-
Page 334
- 330 - (11) PC-1254 (12) PC-1257[...]
-
Page 335
- 331 - Š Š Š Š (13) LATIN9 2 3 4 5 6 7 8 9 A B C D E F 0 0 @ P ` p ° À Ð à ð 1 ! 1 A Q a q ¡ ± Á Ñ á ñ 2 " 2 B R b r ¢ ² Â Ò â ò 3 # 3 C S c s £ ³ Ã Ó ã ó 4 $ 4 D T d t C Z Ä Ô ä ô 5 % 5 E U e u ¥ µ Å Õ å õ 6 & 6 F V f v S ¶ Æ Ö æ ö 7 ' 7 G W g w § · Ç × ç ÷ 8 ( 8 H X h x s z È Ø è ?[...]
-
Page 336
- 356 - 13. BAR CODE TABLE (1) WPC (JAN, EAN, UPC) (2) CODE39 (Standard) ITF, MSI, UCC/EAN128, Industrial 2 of 5 GS1 DataBar Omnidirectional/GS1 DataBar Truncated GS1 DataBar Stacked GS1 DataBar Stacked Omnidirectional GS1 DataBar Limited 2 3 4 5 6 7 2 3 4 5 6 7 0 0 0 SP 0 P 1 1 1 1 A Q 2 2 2 2 B R 3 3 3 3 C S 4 4 4 $ 4 D T 5 5 5 % 5 E U 6 6 6 6 F [...]
-
Page 337
- 357 - (4) NW-7 2 3 4 5 6 7 0 SP 0 1 1 A a 2 2 B b 3 3 C c 4 $ 4 D d t 5 5 e 6 6 7 7 8 8 9 9 A * : B + C D – E • n F / (5) CODE93 [Transfer code] [Drawing code] 2 3 4 5 6 7 2 3 4 5 6 7 0 SP 0 @ P ` p 0 SP 0 %V P %W +P 1 ! 1 A Q a q 1 /A 1 A Q +A +Q 2 " 2 B R b r 2 /B 2 B R +B +R 3 # 3 C S c s 3 /C 3 C S +C +S 4 $ 4 D T d t 4 /D 4 D T +D +[...]
-
Page 338
- 358 - (6) CODE128 [Transfer code] – – 2 3 4 5 6 7 0 NUL DLE SP 0 @ P ` p 1 SOH DC1 ! 1 A Q a q 2 STX DC2 " 2 B R b r 3 ETX DC3 # 3 C S c s 4 EOT DC4 $ 4 D T d t 5 ENQ NAK % 5 E U e u 6 ACK SYN & 6 F V f v 7 BEL ETB ' 7 G W g w 8 BS CAN ( 8 H X h x 9 HT EM ) 9 I Y i y A LF SUB * : J Z j z B VT ESC + ; K [ k { C FF FS , < L l[...]
-
Page 339
- 359 - Value Code Table VALUE CODE A CODE B CODE C VALUE CODE A CODE B CODE C VALUE CODE A CODE B CODE C 0 SP SP 00 36 D D 36 72 BS h 72 1 ! ! 01 37 E E 37 73 HT i 73 2 " " 02 38 F F 38 74 LF j 74 3 # # 03 39 G G 39 75 VT k 75 4 $ $ 04 40 H H 40 76 FF l 76 5 % % 05 41 I I 41 77 CR m 77 6 & & 06 42 J J 42 78 SO n 78 7 ' &apos[...]
-
Page 340
- 360 - (7) Data Matrix The code to be used is designated using the format ID. Format ID Code Details 1 Numerics 0 to 9 space 2 Letters A to Z space 3 Alphanumerics, symbols 0 to 9 A to Z space . , - / 4 Alphanumerics 0 to 9 A to Z space 5 ASCII (7-bit) 00H to 7FH 6 ISO (8-bit) 00H to FFH (Kanji) [Transfer Code] 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 NU[...]
-
Page 341
- 361 - (8) PDF417 The following modes are automatically selected according to the code used. Mode Code Details EXC mode Alphanumerics, symbol 0 to 9 A to Z a to z space ! ” # $ % & ’ ( ) * + , - . / : ; < = > ? @ [ ] ^ _ ` { | } ~ C R H T Binary/ASCII Plus mode Binary International Character Set 00H to FFH (Kanji) Numeric Compactio[...]
-
Page 342
- 362 - (9) MicroPDF417 The following modes are automatically selected according to the code used. Mode Details Upper case letters, space A to Z, space Binary International Character Set 00H to FFH (Kanji) Numerics 0 to 9 [Transfer Code] 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 NUL DLE SP 0 @ P ` p 1 SOH DC1 ! 1 A Q a q 2 STX DC2 ” 2 B R b r 3 ETX DC3 #[...]
-
Page 343
- 363 - (10) QR code When manual mode is selected in the Format Command y Numeric mode, alphanumeric and symbol mode, Kanji mode Mode selection Data to be printed y Binary mode Mode selection No. of data strings (4 digits) Data to be printed y Mixed mode Data “,” (comma) Data “,” (comma) Data The QR code can handle all codes including al ph[...]
-
Page 344
- 364 - c How to send control code data: NUL (00H) → >@ (3EH, 40H) SOH (01H) → >A (3EH, 41H) STX (02H) → >B (3EH, 42H) t o GS (1DH) → >] (3EH, 5DH) RS (1EH) → >^ (3EH, 5EH) US (1FH) → >_ (3EH, 5FH) d How to send a special code: > (3EH) → >0 (3EH, 30H) e How to send a Kanji code: Shift JIS JIS hexadecimal (For d[...]
-
Page 345
- 365 - (11) Postal code Customer bar code POSTNET 2 3 4 5 6 7 2 3 4 5 6 7 0 0 P 0 0 1 1 A Q 1 1 2 2 B R 2 2 3 3 C S 3 3 4 4 D T 4 4 5 5 E U 5 5 6 6 F V 6 6 7 7 G W 7 7 8 8 H X 8 8 9 9 I Y 9 9 A J Z A B K B C L C D – M D E N E F O F RM4SCC KIX CODE 2 3 4 5 6 7 2 3 4 5 6 7 0 0 P 0 0 P p 1 1 A Q 1 1 A Q a q 2 2 B R 2 2 B R b r 3 3 C S 3 3 C S c s 4[...]
-
Page 346
- 366 - (12) MaxiCode Symbol Character Value Code Set A Code Set B Code Set C Code Set D Code Set E Decimal Binary Character Decimal Character Decimal C haracter Decimal Character Decimal Character Decimal 0 000000 CR 13 ‘ 96 À 192 à 224 NUL 0 1 000001 A 65 a 97 Á 193 á 225 SOH 1 2 000010 B 66 b 98 Â 194 â 226 STX 2 3 000011 C 67 c 99 Ã 19[...]
-
Page 347
- 367 - c How to send control code data: SOH (01H) → >A (3EH, 41H) STX (02H) → >B (3EH, 42H) t o GS (1DH) → >] (3EH, 5DH) RS (1EH) → >^ (3EH, 5EH) US (1FH) → >_ (3EH, 5FH) d How to send a special code: > (3EH) → >0 (3EH, 30H) e How to send a Kanji code: Shift JIS JIS hexadecimal (For details, refer to the section fo[...]
-
Page 348
- 368 - (13) CP code [Transfer Code] 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 NUL DLE SP 0 @ P ` p 1 SOH DC1 ! 1 A Q a q 2 STX DC2 ” 2 B R b r 3 ETX DC3 # 3 C S c s 4 EOT DC4 $ 4 D T d t 5 ENQ NAK % 5 E U e u 6 ACK SYN & 6 F V f v 7 BEL ETB ’ 7 G W g w 8 BS CAN ( 8 H X h x 9 HT EM ) 9 I Y i y A LF SUB * : J Z j z B VT ESC + ; K [ k { C FF FS , <[...]
-
Page 349
- 369 - (14) GS1 DataBar Expanded/GS1 DataBar Expanded Stacked [Transfer Code] 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 SP 0 P p 1 ! 1 A Q a q 2 ” 2 B R b r 3 FNC1 3 C S c s 4 4 D T d t 5 % 5 E U e u 6 & 6 F V f v 7 ’ 7 G W g w 8 ( 8 H X h x 9 ) 9 I Y i y A * : J Z j z B + ; K k C , < L l D – = M m E . > N n F / ? O _ o c Separator In the [...]
-
Page 350
- 370 - e Bar code height calculation method Example) In the following conditions: 203-dpi print head, Module width: 02, Recommended bar code height: 33x (25.4 m / 203 dpi) x 2 dots x 33x ≈ 8.25 m Since the height is specified in units of 0.1 mm, “0082” or “0083” is to be set as 8.25 mm. f Max. number of data digits Version of bar code Ma[...]
-
Page 351
- 371 - (15) RFID [Transfer Code] 0 1 2 3 4 5 6 7 8 9 A B C D E F 0 NUL DLE SP 0 @ P ` p 1 SOH DC1 ! 1 A Q a q 2 S T X D C 2 ” 2 B R b r 3 ETX DC3 # 3 C S c s 4 EOT DC4 $ 4 D T d t 5 ENQ NAK % 5 E U e u 6 ACK SYN & 6 F V f v 7 BEL ETB ’ 7 G W g w 8 B S C A N ( 8 H X h x 9 HT EM ) 9 I Y i y A LF (*) SUB * : J Z j z B VT ESC + ; K [ k { C FF [...]
-
Page 352
- 372 - 14. DRAWING OF BAR CODE DATA : Field to be incremented/decremented (The absence of a solid line inva lidates incrementing/decrementing.) : Field subject to printing numerals under bars. Type of Bar Code: JAN8, EAN8 (1) No affix No. of Input Digits 8 digits Input Data To be checked as modulus 10 C/D Drawing Data Other than 8 digits Not to be[...]
-
Page 353
- 373 - Type of Bar Code: JAN13, EAN13 (1) No affix No. of Input Digits 13 digits Input Data T o be checked as modulus 10 C/D Drawing Data Other than 13 digits Not to be drawn (2) Modulus 10 check No. of Input Digits 13 digits Input Data To be checked as modulus 10 C/D Drawing Data Other than 13 digits Not to be drawn (3) Auto affix of modulus 10 N[...]
-
Page 354
- 374 - Type of Bar Code: UPC-A (1) No affix No. of Input Digits 12 digits Input Data T o be checked as modulus 10 C/D Drawing Data Other than 12 digits Not to be drawn (2) Modulus 10 check No. of Input Digits 12 digits Input Data T o be checked as modulus 10 C/D Drawing Data Other than 12 digits Not to be drawn (3) Auto affix of modulus 10 No. of [...]
-
Page 355
- 375 - Type of Bar Code: UPC-E (1) No affix No. of Input Digits 7 digits Input Data To be checked as modulus 10 C/D Drawing Data Other than 7 digits Not to be drawn (2) Modulus 10 check No. of Input Digits 7 digits Input Data To be checked as modulus 10 C/D Drawing Data Other than 7 digits Not to be drawn (3) Auto affix of modulus 10 No. of Input [...]
-
Page 356
- 376 - Type of Bar Code: JAN8 + 2 digits, EAN8 + 2 digits (1) No affix No. of Input Digits 10 digits Input Data To be checked as modulus 10 C/D Drawing Data Other than 10 digits Not to be drawn (2) Modulus 10 check No. of Input Digits 10 digits Input Data To be checked as modulus 10 C/D Drawing Data Other than 10 digits Not to be drawn (3) Auto af[...]
-
Page 357
- 377 - Type of Bar Code: JAN8 + 5 digits, EAN8 + 5 digits (1) No affix No. of Input Digits 13 digits Input Data To be checked as modulus 10 C/D Drawing Data Other than 13 digits Not to be drawn (2) Modulus 10 check No. of Input Digits 13 digits Input Data To be checked as modulus 10 C/D Drawing Data Other than 13 digits Not to be drawn (3) Auto af[...]
-
Page 358
- 378 - Type of Bar Code: JAN13 + 2 digits, EAN13 + 2 digits (1) No affix No. of Input Digits 15 digits Input Data T o be checked as modulus 10 C/D Drawing Data Other than 15 digits Not to be drawn (2) Modulus 10 check No. of Input Digits 15 digits Input Data T o be checked as modulus 10 C/D Drawing Data Other than 15 digits Not to be drawn (3) Aut[...]
-
Page 359
- 379 - Type of Bar Code: JAN13 + 5 digits, EAN13 + 5 digits (1) No affix No. of Input Digits 18 digits Input Data T o be checked as modulus 10 C/D Drawing Data Other than 18 digits Not to be drawn (2) Modulus 10 check No. of Input Digits 18 digits Input Data T o be checked as modulus 10 C/D Drawing Data Other than 18 digits Not to be drawn (3) Aut[...]
-
Page 360
- 380 - Type of Bar Code: UPC-A + 2 digits (1) No affix No. of Input Digits 14 digits Input Data T o be checked as modulus 10 C/D Drawing Data Other than 14 digits Not to be drawn (2) Modulus 10 check No. of Input Digits 14 digits Input Data To be checked as modulus 10 C/D Drawing Data Other than 14 digits Not to be drawn (3) Auto affix of modulus [...]
-
Page 361
- 381 - Type of Bar Code: UPC-A + 5 digits (1) No affix No. of Input Digits 17 digits Input Data To be checked as modulus 10 C/D Drawing Data Other than 17 digits Not to be drawn (2) Modulus 10 check No. of Input Digits 17 digits Input Data To be checked as modulus 10 C/D Drawing Data Other than 17 digits Not to be drawn (3) Auto affix of modulus 1[...]
-
Page 362
- 382 - Type of Bar Code: UPC-E + 2 digits (1) No affix No. of Input Digits 9 digits Input Data To be checked as modulus 10 C/D Drawing Data Other than 9 digits Not to be drawn (2) Modulus 10 check No. of Input Digits 9 digits Input Data To be checked as modulus 10 C/D Drawing Data Other than 9 digits Not to be drawn (3) Auto affix of modulus 10 No[...]
-
Page 363
- 383 - Type of Bar Code: UPC-E + 5 digits (1) No affix No. of Input Digits 12 digits Input Data To be checked as modulus 10 C/D Drawing Data Other than 12 digits Not to be drawn (2) Modulus 10 check No. of Input Digits 12 digits Input Data To be checked as modulus 10 C/D Drawing Data Other than 12 digits Not to be drawn (3) Auto affix of modulus 1[...]
-
Page 364
- 384 - Type of Bar Code: MSI (1) No affix No. of Input Digits Max. 15 digits Input Data Not recognized as a check digit. Drawing Data 16 digits or more Not to be drawn (2) IBM modulus 10 check No. of Input Digits Min. 2 digits Max. 15 digits Input Data To be checked as IBM modulus 10 (including C/D) Drawing Data 1 digit 16 digits or more Not to be[...]
-
Page 365
- 385 - Type of Bar Code: Interleaved 2 of 5 (1) No affix No. of Input Digits Max. 126 digits Input Data Not recognized as a check digit. Drawing Data 127 digits or more Not to be drawn (2) Modulus 10 check No. of Input Digits Min. 2 digits Max. 126 digits Input Data T o be checked as modulus 10 C/D (including C/D) Drawing Data 1 digit 127 digits o[...]
-
Page 366
- 386 - Type of Bar Code: Industrial 2 of 5 (1) No affix No. of Input Digits Max. 126 digits Input Data Not recognized as a check digit. Drawing Data 127 digits or more Not to be drawn (2) Modulus check character check No. of Input Digits Min. 2 digits Max. 126 digits Input Data T o be checked as a modulus check character (including C/D) Drawing Da[...]
-
Page 367
- 387 - Type of Bar Code: CODE39 (Standard) (1) No affix No. of Input Digits Max. 123 digits Input Data Start code Stop code Not recognized as a check digit. Drawing Data 124 digits or more Not to be drawn (2) Modulus 43 check No. of Input Digits Min. 2 digits Max. 123 digits Input Data Start code Stop code T o be checked as modulus 43 C/D (includi[...]
-
Page 368
- 388 - Type of Bar Code: CODE39 (Full ASCII) (1) No affix No. of Input Digits Max. 60 digits Input Data Start code Stop code Not recognized as a check digit. Drawing Data 61 digits or more Not to be drawn (2) Modulus 43 check No. of Input Digits Min. 2 digits Max. 60 digits Input Data Start code Stop code T o be checked as modulus 43 C/D (includin[...]
-
Page 369
- 389 - Type of Bar Code: No auto selection of CODE128 (Character “>” to be also counted as a digit) (1) No affix PSEUDO103 check Auto affix of PSEUDO103 No. of Input Digits Min. 3 digits Max. 125 digits Input Data (including start code) Drawing Data Affix PSEUDO103 C/D. 2 digits or less 126 digits or more Not to be drawn NOTE: The following[...]
-
Page 370
- 390 - Type of Bar Code: CODE93 (1) No affix C/D check Auto affix of C/D No. of Input Digits Input Data Max. 60 digits Drawing Data Stop code Affix a modulus 47 “K” C/D. Start code Affix a modulus 47 “C” C/D. 61 digits or more Not to be drawn NOTE: Numerals under bars are not characters corres ponding to the bars but the characters of the [...]
-
Page 371
- 391 - Type of Bar Code: POSTNET (1) Auto affix of dedicated C/D No. of Input Digits Input Data 5 digits Drawing Data Start code Stop code Dedicated check digit Input Data 9 digits Drawing Data Start code Stop code Dedicated check digit Input Data 11 digits Drawing Data Start code F rame Frame Stop code Dedicated check digit Other than 5, 9, and 1[...]
-
Page 372
- 392 - Type of Bar Code: Customer bar code (1) Auto affix of dedicated C/D No. of Input Digits Input Data 20 digits Drawing Data Start code Dedicated check digit Stop code 21 digits or more Data of up to 20 digits is dr awn. Data of 21 digits or more is discarded. Type of Bar Code: Highest priority customer bar code (1) Auto affix of dedicated C/D[...]
-
Page 373
- 393 - 15. AUTOMATIC ADDING OF START/STOP CODES Type of Bar Code Designation of Start/Stop Codes Input Data Drawing Data 12345ABC Standard *12345ABC* Full ASCII *12345ABC* *12345ABC Standard *12345ABC* Full ASCII *12345ABC* 12345ABC* Standard *12345ABC* Full ASCII *12345ABC* *12345ABC* Standard *12345ABC* Omit Full ASCII *12345ABC* (No designation[...]
-
Page 374
- 394 - Type of Bar Code Designation of Start/Stop Codes Input Data Drawing Data 12345ABC Standard 12345ABC Full ASCII 12345ABC *12345ABC Standard *12345ABC Full ASCII *12345ABC 12345ABC* Standard 12345ABC* Full ASCII 12345ABC* *12345ABC* Standard *12345ABC* CODE 39 Start/stop code Full ASCII *12345ABC* not added 12345*ABC Standard 12345*ABC Full A[...]