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Citizen CBM1000 Bedienungsanleitung
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Citizen CBM1000 Bedienungsanleitung

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  • Seite 2: Declaration Of Conformity

    : Japan CBM Corporation Manufacturer’s Address : CBM Bldg., 5-68-10, Nakano, Nakano-ku Tokyo, 164-0001, Japan Declare the Product Product Name Line Thermal Printer Model Number(s) CBM1000 Series (CBM1000RF/PF) (S.No.9990001 - ) Conform to the following Standards : EN60950 : A11: 1997 : EN55022...

  • Seite 3: Important Safety Instructions

    IMPORTANT SAFETY INSTRUCTIONS • Read all of these instructions and save them for future reference. • Follow all warnings and instructions marked on the product. • Unplug this product from the wall outlet before cleaning. Do not use liquid or aerosol cleaners.

  • Seite 4: Wichtige Sicherheitsanweisungen

    WICHTIGE SICHERHEITSANWEISUNGEN • Lesen Sie die nachfolgenden Anweisungen sorgfältig durch und bewahren Sie sie auf. • Befolgen Sie alle auf dem Drucker vermerkten Hinweise und Anweisungen. Vor dem Reinigen grundsätzlich Stecker aus der Steckdose ziehen. Keine Flüssigkeiten oder Aerosolreiniger benutzen. Nut mit einem feuchten Tuch abwischen. •...
  • Seite 5 IMPORTANT: This equipment generates, uses, and can radiate radio frequency energy and if not installed and used in accordance with the instruction manual, may cause interference to radio communications. It has been tested and found to comply with the limits for a Class A computing device pursuant to Subpart J of Part 15 of FCC Rules, which are designed to provide reasonable protection against such interference when operated in a commercial environment.

  • Seite 6: General Precautions

    GENERAL PRECAUTIONS • Prior to using the CBM1000 Printer, be sure to read this User’s Manual thoroughly. Please keep it handy so that you can refer to it whenever necessary. • The information contained herein may be changed without prior notice.

  • Seite 7: Safety Precautions

    User’s Manual to indicate important items to be strictly observed. • The following describes the degrees of hazards and damages that can occur if the CBM1000 Printer is incorrectly operated without observing the instructions indicated by the warning symbols. WARNING Negligence of the precautions indicated by this symbol may result in death or serious injuries.
  • Seite 8 WARNING Never handle the CBM1000 Printer in the manners descried below; otherwise, it may be damaged, get out of order or overheated, possibly causing smoke, fire or electric shock. If the printer is damaged or breaks down, be sure to turn off the power, disconnect the power plug from the wall outlet, and contact your CBM dealer.

  • Seite 9: Precautions For Installation

    PRECAUTIONS FOR INSTALLATION • Do not use or store the CBM1000 Printer in a place exposed to heat of fire, moisture or direct sunlight, or in a place where the prescribed operating temperature and humidity are not met, or in a place exposed to oily mist, iron powder or dust;...
  • Seite 10 PRECAUTIONS FOR HANDLING Observe the following precautions to use the CBM1000 Printer correctly and avoid troubles from occurring. • Do not use any other power supply than the specified AC adapter. • Do not allow the printer to start printing when there is no recording paper installed.
  • Seite 11 In the position indicated below, a label is provided to alert your attention. Read the cautionary information on it, and handle the printer properly. This label alerts you to the print head as it becames HOT, and if you touch it, you may get burnt.

  • Seite 12: Daily Maintenance

    DAILY MAINTENANCE • Prior to start maintenance work, be sure to turn off the printer. • When cleaning the platen, use a cotton swab applied with ethyl alcohol and wipe off stains. Platen CAUTION: Avoid cleaning the print head immediately after printing is finished. The print head is HOT.
  • Seite 13 DAILY MAINTENANCE Cleaning the print head 1 Turn off the power of the printer. 2 Open the printer cover. 3 Using a gauze impregnated with a small amount of alcohol, wipe off stains and dust on the heat-emitting surface of the head. Print head Print head CAUTION:...

  • Seite 14: Inhaltsverzeichnis

    THE TABLE OF CONTENTS 1. GENERAL OUTLINE ..............1 1.1 Features ..................... 1 1.2 Unpacking ....................2 2. BASIC SPECIFICATIONS ............3 2.1 Model Classification .................. 3 2.2 Basic Specifications .................. 4 2.3 Print Paper Specifications ................ 5 2.3.1 Recommended Paper ............... 5 2.3.2 Print Position and Barcode Printing ..........
  • Seite 15 6. PARALLEL INTERFACE ............. 25 6.1 Bidirectional Parallel Interface (IEEE1284) ..........25 6.1.1 Compatibility Mode (Host → Printer communication : Centronics compliant) ..............25 6.1.2 Reverse Mode (Printer → Host communication) ......25 6.1.3 Connector Pin Configuration ............26 6.2 Description of Input and Output Signals ..........27 6.2.1 Input and Output Signals ...............
  • Seite 16 11. CHARACTER CODES TABLE ..........139 11.1 Code page .................... 139 11.1.1 Codepage 00H to 7FH & PC437 (USA, European Standard) ..139 11.1.2 Codepage Katakana (Japanese) ..........140 11.1.3 Codepage PC850 (Multilingual) ..........141 11.1.4 Codepage PC860 (Portuguese) ..........142 11.1.5 Codepage PC863 (Canadian-French) .........
  • Seite 17 <<< German >>> INHALT 4. BETRIEB .................. 178 4.1 Anschließen des Netzteils und Netzkabels ......... 178 4.2 Anschließen der Schnittstellenkabel ........... 180 4.3 Anschließen des Drawer Kickout-Steckers ......... 181 4.4 Einlegen / Auswechseln von Papierrollen ........... 182 4.5 Justieren des Papierende-Sensors ............184 4.6 Verwenden von 58 mm breiten Papierrollen ........
  • Seite 18 8.1.3 Belegung der Anschlußstifte ............205 8.1.4 Treiberschaltung ................206 8.2 Technische Daten des Stromanschlusses ........... 206 9. WARTUNG UND KUNDENDIENST ........207 Note: Citizen,Citizen logo are registered trademark of Citizen Watch Co.,Ltd. Windows codepage is a registered trademark of Microsoft Corporation. — xvii —...

  • Seite 19: General Outline

    1. GENERAL OUTLINE The CBM1000 is a compact-sized, line thermal printer developed for a variety of applications. It has abundant built-in features, and can be used as a data communication terminal, pos terminal, kitchen terminal and for other applications. 1.1 Features •...

  • Seite 20: Unpacking

    1.2 Unpacking When unpacking the printer, confirm that the following are provided: • Printer .................... 1 unit • Partition (For 58 mm wide paper roll) ......... 1 piece • AC adapter (Provided with the A type only) ....... 1 piece •...

  • Seite 21: Basic Specifications

    2. BASIC SPECIFICATIONS 2.1 Model Classification The printer models are classified by the following designation method: CBM1000 - R F 120 S Model Name Power supply S: Standard type (Power supply build-in) A: AC adapter type D: DC Input type...

  • Seite 22: Basic Specifications

    2.2 Basic Specifications Model CBM1000-RF120S/A CBM1000-RF230S/A CBM1000-RF024D Item CBM1000-PF120S/A CBM1000-PF230S/A CBM1000-PF024D Print method Line thermal dot print method Print width 72 mm/576 dots, (54 mm/432 dots)* 8 × 8 dots/mm (203 dpi) Dot density Print speed 100 mm/sec (Fastest, print density level 2), (800 dot lines/sec) Font A: 48/42/36/30 columns (12 ×...

  • Seite 23: Print Paper Specifications

    2.3 Print Paper Specifications 2.3.1 Recommended Paper • Type: Heat sensitive paper • Paper width: 80 + 0/– 1 mm; 58 + 0/– 1 mm • Paper thickness: 65 ± 5 µm φ 83 mm or less • Roll diameter: •...

  • Seite 24: Print Position And Barcode Printing

    2.3.2 Print Position and Barcode Printing Roll paper width 80 mm provided: Paper width 80 mm applies to printing area 72 mm (576 dots), and both left and right margins each ca. 4 mm. Paper width 80 mm 0.125 mm Print area 72 (63) mm The values in ( ) are for when the...

  • Seite 25: Cutter Position

    2.3.3 Cutter Position Manual cutting position Auto cutting position Top print line — 7 —...

  • Seite 26: Outer Appearance And Component Parts

    3. OUTER APPEARANCE AND COMPONENT PARTS 3.1 CBM1000S Printer cover Ejector Top cover Power box Power switch POWER lamp ERROR lamp FEED switch Drawer Kick-Out Connector Grounding terminal Inlet Interface connector — 8 —...

  • Seite 27: Cbm1000A / Cbm1000D

    3.2 CBM1000A / CBM1000D Printer cover Ejector Top cover Power switch POWER lamp ERROR lamp FEED switch Drawer Kick-Out Connector Grounding terminal Power connector Interface connector — 9 —...

  • Seite 28: Operation

    4. OPERATION 4.1 Connecting the AC Adapter and AC Power Cord Turn off the power of the printer. CBM1000S (Standard type) For the AC adapter type only: With the flat side of the AC adapter’s cable connector facing upward, insert the cable connector into the Inlet power connector on the back side of the printer.

  • Seite 29: Connecting Interface Cables

    CAUTION: • Do not use any AC adapter other than specified. • When connecting or disconnecting the cable connector of the AC adapter, always pull on the connector, not on the cable. • The AC power cord should be connected to a wall outlet separated from others used by other equipment which tend to emit noise.

  • Seite 30: Connecting The Drawer Kick-Out Connector

    4.3 Connecting the Drawer Kick-Out Connector Turn off the power of the printer. Drawer Kick-Out Connector Orienting the Drawer Kick-Out Cable Connector correctly, insert it into the Drawer Kick-Out Connector on the back of the printer. Fasten the ground wire to the ground connector on the printer with a screw.

  • Seite 31: Setting / Replacing Paper Rolls

    4.4 Setting / Replacing Paper Rolls Printer cover Turn on the printer. Push the ejector in the direction shown to unlock the printer cover. Placing your hands on both sides of the printer cover, open it until it comes to a stop. Ejector Check the winding direction of the Tear bar...
  • Seite 32 Remove an excess length of paper with the tear bar. (Manual cutter) CAUTION: • Always use the specified types of paper roll. • Use of other types of paper roll may not be able to guarantee the specified print quality or service life of the printer. •...

  • Seite 33: Adjusting The Paper Near-End Sensor

    4.5 Adjusting the Paper Near-end Sensor Open the printer cover. Sensor knob Push the sensor knob in the 4 3 2 1 Arrow 1 direction of arrow 1 to disengage its Adjustment position claw (Or unlock the sensor unit), and Arrow 2 then adjust the sensor unit to a desired paper remaining position...

  • Seite 34: Using 58 Mm Wide Paper Rolls

    4.6 Using 58 mm Wide Paper Rolls Turn off the power of the printer. Partition Open the printer cover. Fit the partition supplied into the position shown. Refer to “5. SETTING DIP SWITCHES”, change a DIP switch to the setting for using 58 mm wide paper rolls.

  • Seite 35: Cleaning The Print Head

    4.8 Cleaning the Print Head Turn off the power of the printer. Print head Open the printer cover. Wipe off stains, such as dust and the Paper roll like, on the heating element of the head using a cotton swab impregnated with ethyl alcohol.

  • Seite 36: Operation Panel And Error Indication

    4.9 Operation Panel and Error Indication POWER lamp (Green) Lights when the power is turned on. It blinks when a memory check error has occurred. ERROR lamp (Red) Lights or blinks to show different error states. It also blinks while the printer is waiting for a macro to be executed.
  • Seite 37 Description of errors Cover open: When you open the printer cover, the cover open sensor is activated, causing the ERROR LED to light and the printing operation to stop. Head overheat: To protect the print head from being overheated, the head temperature sensor is activated if the head temperature rises over approx.

  • Seite 38: Hexadecimal Dump

    4.10 Hexadecimal Dump Hexadecimal dump function allows data sent from the host computer to be printed in hexadecimal numbers as well as in characters corresponding to the numbers. Starting hexadecimal dump Open the top cover. While pressing the FEED switch, turn on the power of the printer “...

  • Seite 39: Setting Dip Switches

    5. SETTING DIP SWITCHES 5.1 Location of DIP Switches To access the DIP switches, follow these steps: Turn off the power of the printer. DIP switch cover Open the printer cover. Remove the paper roll. While pulling the tab of the DIP switch cover (To unlock it), lift out the cover.

  • Seite 40: Table For Setting Dip Switches

    5.2 Table for Setting DIP Switches DIP switch 1 Function Factory setting Auto cutter Available Not available Print mode High-quality High-speed Paper width 58 mm 80 mm 42(80 mm) columns 48(80 mm) columns Print columns * 30(58 mm) columns 36(58 mm) columns CR mode LF Operation Ignored...
  • Seite 41 DIP switch 2 Function Factory setting Character code OFF * Character code OFF * See the table below. Character code OFF * Character code OFF * JIS/Shift JIS Shift JIS • Off-line Condition for BUSY Reception • Reception to occur buffer full buffer full Unused...
  • Seite 42 DIP switch 3 Function Factory setting Bit length 7 bits 8 bits Parity Available Not available Odd /Even Even number Odd number Communication mode XON/XOFF DTR/DSR DIP switch 4 Function Factory setting Baud rate See the table below. Baud rate Reset INIT Reset...

  • Seite 43: Parallel Interface

    6. PARALLEL INTERFACE 6.1 Bidirectional Parallel Interface (IEEE1284) 6.1.1 Compatibility Mode (Host → Printer communication : Centronics compliant) • General description This printer provides Compatibility Mode, which specifies the Centronics interface conventionally used for a wide variety of applications. • Specifications Data transfer method: 8-bit parallel Synchronizing method:...

  • Seite 44: Connector Pin Configuration

    6.1.3 Connector Pin Configuration Source Compatibility Mode Nibble Mode Byte Mode Host nStrobe HostClk HostClk Host/Ptr Data0(LSB) Data0(LSB) Data0(LSB) Host/Ptr Data1 Data1 Data1 Host/Ptr Data2 Data2 Data2 Host/Ptr Data3 Data3 Data3 Host/Ptr Data4 Data4 Data4 Host/Ptr Data5 Data5 Data5 Host/Ptr Data6 Data6 Data6...

  • Seite 45: Description Of Input And Output Signals

    CAUTION: • The first letter “n” of each signal name indicates that the signal is active “L”. • If any one of the above signals is not available, bidirectional communication cannot be accomplished. • In interfacing signals, be sure to use twist-paired wires for signal lines, and the return side must be connected to signal ground level.

  • Seite 46: Electrical Characteristics

    6.2.2 Electrical Characteristics Input signal level (STB, DATA 1-8) All the input signals are at the C-MOS level. “HIGH” level: 4.0 V minimum “LOW” level: 0.9 V maximum Output signal level All the output signals are at the C-MOS level. “HIGH”...

  • Seite 47: Timing Chart (Compatibility Mode)

    6.2.3 Timing Chart (Compatibility Mode) Data input and print timing Power DATA nStrobe BUSY nAck T1, T2, T3: 0.5 µs MIN 270 ns MAX 2.3 µs TYP 500 ms MIN (At power- on) 6.2.4 Data Reception Control When the Busy signal is at “LOW”, the printer can receive data from the host computer, but when at “HIGH”, data reception is not possible.

  • Seite 48: Serial Interface

    7. SERIAL INTERFACE 7.1 Specifications (1) Synchronizing system Asynchronous (2) Baud rate 2400, 4800, 9600, or 19200 bps (User selectable) (3) Configuration of one word Start bit: 1-bit Data bits: 7 or 8-bits (User selectable) Parity bit: Odd, even, or none (User selectable) Stop bit: 1-bit or more (4) Signal polarity RS-232C...

  • Seite 49: Connector Pin Configuration

    7.2 Connector Pin Configuration Signal name Input/output Function — Grounding for safety Output Transferred data Input Received data Output Same as DTR Data set ready or reset Input (Selected with a DIP switch) — Ground for signals Output Printer Busy signal INIT Input Reset (Selected with a DIP switch)

  • Seite 50: Description Of Input And Output Signals

    7.3 Description of Input and Output Signals 7.3.1 Input and Output Signals (1) RD This is a serial reception data signal. When a framing error, overrun error or parity error occurs, the data containing the error is printed as a “?”. (2) DTR, RTS When this signal is Ready, you can write data or commands into the input buffer.

  • Seite 51: Error Detection

    7.3.2 Error Detection Detection of parity errors, framing errors, and overrun errors is provided with this printer. When an error is detected, the data containing the error is stored in the buffer as a “?”. (1) Framing error If a space state is detected at the timing of stop bit detection, this indicates that an error has occurred.

  • Seite 52: Electrical Characteristics

    7.3.5 Electrical Characteristics RS-232C circuit Input (RD, DSR, INIT) [Printer Side] [Host Side] Equivalent to MAX232 Output (DTR, TD, RTS) [Printer Side] [Host Side] Equivalent to MAX232 — 34 —...

  • Seite 53: Drawer Kick-Out Connector And Power Connector

    8. DRAWER KICK-OUT CONNECTOR AND POWER CONNECTOR 8.1 Specifications of Drawer Kick-Out Connector 8.1.1 Drawer Kick-Out drive signal A pulse specified by ESC p is output. In parallel interface mode, the SW(+) state can be confirmed at No. 34 pin of the interface connector or by the DLE EOT, GS a and GS r commands at the serial/parallel interface.

  • Seite 54: Drive Circuit

    8.1.4 Drive Circuit 8.2 Specifications of the Power Connector The following shows the power connector from the dedicated AC adapter. Pin configuration of Power connector (Pin number and function) Power connector: TCS7960-53-2010 (Hosiden) or equivalent Applicable connector: TCP8927-63-1100 (Hosiden) or equivalent TCP8927-53-1100 (Hosiden) or equivalent —...

  • Seite 55: Maintenance And Service

    9. MAINTENANCE AND SERVICE For the information on maintenance and service, please contact your CBM dealer or at the following addresses: Northern America Other Areas CBM America Corporation Japan CBM Corporation Service Center Information Systems Division 365 Van Ness Way CBM Bldg, 5-68-10, Nakano Suite 510 Nakano-ku, Tokyo 164-0001...

  • Seite 56: Print Control Functions

    10. PRINT CONTROL FUNCTIONS 10.1 Command List No. Command Function Mode Code Page Horizontal tab S.P. <09>H Printing and paper feed S.P. <0A>H Back to printing S.P. <0D>H Printing in PAGE MODE and returning to <0C>H STANDARD MODE Canceling print data in PAGE MODE <18>H DLE EOT Sending status in real-time S.P.
  • Seite 57 No. Command Function Mode Code Page Selecting the character printing direction 30 ESC T <1B>H<54>H<n> in PAGE MODE Specifying/Canceling 90°-right-turned 31 ESC V <1B>H<56>H<n> characters <1B>H<57>H<xL><xH> 32 ESC W Defining the print area in PAGE MODE <yL><yH><dxL><dxH> <dyL><dyH> 33 ESC \ Specifying the relative position S.P.
  • Seite 58 No. Command Function Mode Code Page <1D>H<57>H<nL> 54 GS W Setting the print area width S.P.* <nH> Specifying the relative vertical position <1D>H<5C>H<nL> 55 GS \ S.P.* of a character in PAGE MODE <nH> <1D>H<5E>H<n1> 56 GS ^ Executing the macro S.P.

  • Seite 59: Command Details

    10.2 Command Details 10.2.1 Descriptions of Each Item XXXX [Function] The name of a command. [Code] The string of codes comprising the command is represented by < >H for hexadecimal numbers, < >B for binary numbers, and < > for decimal numbers, [ ] k denotes the number of repetition of “k”...

  • Seite 60: Command Details

    10.2.2 Command Details [Function] Horizontal tab [Code] <09>H [Outline] Shifts the printing position to the next horizontal tab position. • Ignored when the next horizontal tab position has not been set. [Caution] • The horizontal tab position is set by ESC D. •...
  • Seite 61 [Function] Printing and paper feed [Code] <0A>H [Outline] Prints data inside the print buffer and feeds paper based on the line feed amount having been set. • The head of the line becomes the next print starting position. [See Also] ESC 2, ESC 3 [Sample Program] LPRINT “AAA”...
  • Seite 62 [Function] Back to printing [Code] <0D>H [Outline] 1) When DSW1-5 is OFF: This command is ignored. 2) When DSW1-5 is ON: With data held inside the internal print buffer, printing and line feed are performed. Without data inside the internal print buffer, however, only line feed is performed.
  • Seite 63 [Function] Printing in PAGE MODE and returning to STANDARD MODE [Code] <0C>H [Outline] Executes a batch printout of the data mapped in the entire print area, and then returns to STANDARD MODE. [Caution] • All mapped data is erased after printout. •...
  • Seite 64 [Function] Canceling print data in PAGE MODE [Code] <18>H [Outline] Erases all data contained in the currently effective print area in PAGE MODE. [Caution] • This command is only effective when PAGE MODE is selected. • If the previously established print area overlaps the currently effective print area, the overlapped data in the previously established area will be erased.
  • Seite 65 DLE EOT n [Function] Sending status in real-time [Code] <10>H<04>H<n> [Range] [Outline] Sends in real-time the status specified by “n”. n = 1: Printer status n = 2: Status caused by an offline condition n = 3: Status caused by an error n = 4: Continuous paper detector status [Caution] •...
  • Seite 66 (1) Printer status (When n = 1 is specified) Status Hex. Decimal Unused Unused Status of pin 3 of Drawer Kick-Out Connector = L Status of pin 3 of Drawer Kick-Out Connector = H Online status Offline status Unused Undefined —...
  • Seite 67 (3) Status caused by an error (when n = 3 is specified) Status Hex. Decimal Unused Unused Undefined — — Auto cutter error not occurred Auto cutter error occurred Unused Unrecoverable error not occurred Unrecoverable error occurred Auto recovery error not occurred Auto recovery error occurred Undefined Bit 3: If this error occurred because of a paper jam, for example,...
  • Seite 68 DLE ENQ n [Function] Real-time request to printer [Code] <10>H<05>H<n> [Range] [Outline] The printer responds in real-time to the request that the host specifies with number “n”. n = 1: After recovering from an error, the printer resumes printing from the beginning of the line where the error occurred.
  • Seite 69 DLE DC4 nmt [Function] Outputting specified pulse in real-time. [Code] <10>H<14>H<n><m><t> [Range] n=1, m=0,1 [Outline] A signal specified with “t” is output to the connector pin specified with “m”. Connector pin Pin No. 2 of drawer Kick-Out Connector Pin No. 5 of drawer Kick-Out Connector •...
  • Seite 70 ESC FF [Function] Printing data in PAGE MODE [Code] <1B>H<0C>H [Outline] Executes a batch printout of the data mapped in the entire print area in PAGE MODE. [Caution] • This command is only effective when PAGE MODE is selected. • Mapped data, as well as the ESC T and ESC W settings, and the character mapping position are held even after printing.
  • Seite 71 ESC SP n [Function] Setting the right spacing of the character [Code] <1B>H<20>H<n> [Range] Sets the right spacing of character to [n × basic calculation pitch] [Outline] inches. [Caution] • If the horizontal magnification of character is 2 or more, the right spacing increases with the magnification.
  • Seite 72 [Sample Program] LPRINT CHR$(&H1B) + “ ” + CHR$(0) ; LPRINT “AAAAA” + CHR$(&HA) ; LPRINT CHR$(&H1B) + “ ” + CHR$(1) ; LPRINT “AAAAA” + CHR$(&HA) ; LPRINT CHR$(&H1B) + “ ” + CHR$(12) ; LPRINT “AAAAA” + CHR$(&HA) ; [Print Results] ←...
  • Seite 73 ESC ! n [Function] Collectively specifying the printing mode [Code] <1B>H<21>H<n> [Range] [Outline] Printing mode is assigned. Value Function Character Font Font A Font B Undefined Undefined Emphasis Canceled Specified Double height Canceled Specified Double width Canceled Specified Undefined Underline Canceled Specified [Caution]...
  • Seite 74 [Sample Program] LPRINT CHR$(&H1B) + “!” + CHR$(&H00) + “H” ; LPRINT CHR$(&H1B) + “!” + CHR$(&H01) + “H” ; LPRINT CHR$(&H1B) + “!” + CHR$(&H08) + “H” ; LPRINT CHR$(&H1B) + “!” + CHR$(&H10) + “H” ; LPRINT CHR$(&H1B) + “!” + CHR$(&H20) + “H” ; LPRINT CHR$(&H1B) + “!”...
  • Seite 75 ESC $ n1 n2 [Function] Specifying the absolute positions [Code] <1B>H<24>H<n1><n2> [Range] [Outline] The printing start position is specified with the number of dots (1/203 inch unit) from the beginning of a line. • The number of dots is divided by 256, whose quotient is taken as “n2”...
  • Seite 76 [Sample Program] LPRINT CHR$(&H1B) + “$” ; LPRINT CHR$(0) + CHR$(0) + “A” ; LPRINT CHR$(&H1B) + “$” ; LPRINT CHR$(50) + CHR$(0) + “B” ; LPRINT CHR$(&H1B) + “$” ; LPRINT CHR$(0) + CHR$(1) + “C” ; LPRINT CHR$(&HA) ; LPRINT CHR$(&H1B) + “$”...
  • Seite 77 ESC % n [Function] Specifying/Canceling download character set [Code] <1B>H<25>H<n> [Range] [Outline] Specifying/canceling download characters. • Only the lowest bit (n0) is valid for n. Function Canceling download character set Specifying download character set [Caution] Download characters and download bit images cannot be defined simultaneously.
  • Seite 78 ESC & s n m [a [p] s × a] m – n + 1 [Function] Defining the download characters <1B>H<26>H<s>H<n><m>[<a><p1><p2> ⋅ ⋅ <ps × a>]m-n+1 [Code] [Range] s = 3 12 (Font A) 9 (Font B) p1 ⋅ ⋅ ps × a [Outline] Defines the font of download characters of alphanumeric characters.
  • Seite 79 [Example] 12dot 9dot p1 p4 p1 p4 24dot 24dot Font A Font B Create each data bit by setting “1” for a printed dot and “0” for an unprinted dot. [Sample Program] Refer to Sample Program and Print Results for ESC % on page 59.
  • Seite 80 m n1 n2 [ d ] k [Function] Specifying the bit image mode [Code] <1B>H<2A>H<m><n1><n2> [<d>] k [Range] m= 0, 1, 32, 33 k = n1 + 256 × n2 (m = 0, 1) k = (n1+ 256 × n2) × 3 (m = 32, 33) [Outline] According to the number of dots specified in “n1”, “n2”, specify the bit image of mode “m”.
  • Seite 81 [Sample Program] LPRINT CHR$(&H1B) + “ ”; LPRINT CHR$(0) + CHR$(20) + CHR$(0); IMG1: GOSUB IMG1 LPRINT CHR$(&HFF); LPRINT CHR$(&HA); FOR I=1 TO 18 LPRINT CHR$(&H1B + “ ”; LPRINT CHR$(&H85); LPRINT CHR$(1) + CHR$(20) + CHR$(0); NEXT I GOSUB IMG1 LPRINT CHR$(&HFF);...
  • Seite 82 ESC – n [Function] Specifying/Canceling underline [Code] <1B>H<2D>H<n> [Range] [Outline] Specifying/canceling an underline. n=0, 48 Canceling an underline n=1, 49 Specifying an underline for 1-dot width n=2, 50 Specifying an underline for 2-dots width [Caution] • An underline is attached to the full character width. It is, however, not attached to the part having been skipped by horizontal tab command.
  • Seite 83 ESC 2 [Function] Specifying 1/6-inch line feed rate [Code] <1B>H<32>H [Outline] The line feed rate per line is specified by 1/6 inch. [Caution] Line feed rate can be specified respectively for both STANDARD MODE and PAGE MODE. [Sample Program] LPRINT “AAAAA” + CHR$(&HA); LPRINT CHR$(&H1B) + “3”...
  • Seite 84 ESC 3 n [Function] Setting line feed rate of minimum pitch [Code] <1B>H<33>H<n> [Range] Sets the line feed width per line to [n × basic calculation pitch] [Outline] inches. [Caution] The line feed width can be set separately for the STANDARD and PAGE MODES.
  • Seite 85 ESC = n [Function] Data input control [Code] <1B>H<3D>H<n> [Range] [Outline] Selecting equipment for which data input from the host is valid. • Each bit of “n” indicates as follows: Value Equipment Printer Invalid Valid Not defined Not defined Not defined Not defined Not defined Not defined...
  • Seite 86 ESC ? n [Function] Deleting download characters [Code] <1B>H<3F>H<n> [Range] [Outline] Deletes the downloaded characters of specified code. [Caution] • The character “n” indicates the character code used to delete the defined pattern. After the deletion, characters are printed in the same pattern as the internal characters. •...
  • Seite 87 ESC @ [Function] Initializing the printer [Code] <1B>H<40>H [Outline] Clears data stored in the print buffer and brings various settings to the initial state (Default state). [Caution] • The settings of DIP switches are not read again. • Data inside the internal input buffer is not cleared. •...
  • Seite 88 ESC D { n } k NUL [Function] Setting horizontal tab position [Code] <1B>H<44>H [<n>] k<00> [Range] [Outline] Specifying a horizontal tab position. • “n” indicates the number of columns from the beginning to the horizontal tab position. Note, however, that “n= set position –...
  • Seite 89 ESC E n [Function] Specifying/Canceling Emphasis Printing [Code] <1B>H<45>H<n> [Range] [Outline] Specifying/canceling the emphasized characters. • “n” is valid only for the lowest bit (n0). • Control by the lowest bit (n0) is shown as follows: Type Canceling emphasis printing Specifying emphasis printing •...
  • Seite 90 ESC G n [Function] Specifying/Canceling Double strike printing [Code] <1B>H<47>H<n> [Range] [Outline] Specifying/canceling the double strike printing. • “n” is valid only for the lowest bit (n0). • Control by “n” is shown as follows. Type Canceling double strike printing Specifying double strike printing This is effective to all characters.
  • Seite 91 ESC J n [Function] Printing and feeding paper in minimum pitch [Code] <1B>H<4A>H<n> [Range] Prints the data held in the print buffer and feeds paper by [n × [Outline] basic calculation pitch] inches. The beginning of the line is taken as the next print start position.
  • Seite 92 ESC L [Function] Selecting PAGE MODE [Code] <1B>H<4C>H [Outline] Switches from STANDARD MODE to PAGE MODE. [Caution] • This command is only effective if it entered at the beginning of a line. • This command is not effective if it is entered when in PAGE MODE.
  • Seite 93 ESC M n [Function] Selection of character fonts [Code] <1B>H<4D>H<n> [Definition value] n=0, 1, 48, 49 [Outline] Selects character fonts. Function Selection of font A (12 × 24) 0, 48 Selection of font B (9 × 24) 1, 49 [Details] ESC ! can also select fonts, but the setting made by the command that has last been processed becomes valid.
  • Seite 94 ESC R n [Function] Selecting the international character set [Code] <1B>H<52>H<n> [Range] [Outline] Depending on the value of “n”, one of the following character sets is specified; Character Set U.S.A. France Germany U.K. Denmark I Sweden Italy Spain I Japan Norway Denmark II Spain II...
  • Seite 95 ESC S [Function] Selecting STANDARD MODE [Code] <1B>H<53>H [Outline] Switches from PAGE MODE to STANDARD MODE. [Caution] • This command is only effective if it is entered when in PAGE MODE. • Any data mapped in PAGE MODE is erased. •...
  • Seite 96 ESC T n [Function] Selecting the character printing direction in PAGE MODE [Code] <1B>H<54>H<n> [Range] [Outline] Selects the direction and start point of character printing in PAGE MODE. Printing direction Start point 0, 48 Left to right Top left (“A” in the figure) 1, 49 Bottom to top Bottom left (“B”...
  • Seite 97 ESC V n [Function] Specifying/Canceling 90°-right-turned characters [Code] <1B>H<56>H<n> [Range] n = 0, 1, 48, 49 [Outline] Specifying/canceling 90°-right- turned characters. Function 0, 48 Canceling 90°-right- turned Characters 1, 49 Specifying 90°-right- turned Characters [Caution] No underlines are attached to 90°-right- turned characters . [Default] n = 0 [Sample Program]...
  • Seite 98 ESC W xL xH yL yH dxL dxH dyL dyH [Function] Defining the print area in PAGE MODE [Code] <1B>H<57>H<xL><xH><yL><yH><dxL><dxH><dyL><dyH> [Range] xL, xH, yL, yH, dxL, dxH, dyL, dyH 255, except for dxL = dxH = 0 or dyL = dyH = 0 [Outline] Defines the location and size of the print area.
  • Seite 99 • The figure below illustrates the print area, where X = horizontal start point, Y=vertical start point, Dx=horizontal length, and Dy=vertical length. Paper ↑  Paper Feed Direction Print Area The printable area for this printer is approximately 72.070 mm (576/203 inches) horizontally and 1207.9 mm (1662/203 inches) vertically.
  • Seite 100 ESC \ nL nH [Function] Specifying the relative position [Code] <1B>H<5C>H<nL><nH> [Range] [Outline] This command specifies the next print start position in a relative position with respect to the current position. The next print start position will be at a point of [(nL + nH × 256) × basic calculation pitch] inches away from the current position.
  • Seite 101 ESC a n [Function] Aligning the characters [Code] <1B>H<61>H<n> [Range] [Outline] All the printed data within one line are aligned in the specified position. • Depending on the value “n”, positional alignment is carried out as shown in the table below: Position 0,48 Left end alignment...
  • Seite 102 ESC c 3 n [Function] Selecting the Paper Sensor valid for a paper end signal output [Code] <1B>H<63>H<33>H<n> [Range] [Outline] This command selects by which Paper Sensor a paper end signal should be output. Each bit for “n” has the following meaning: Value Position Paper Near-end...
  • Seite 103 ESC c 4 n [Function] Selecting the Paper Near-end Sensor valid for print stop [Code] <1B>H<63>H<34>H<n> [Range] [Outline] This command selects the Paper Near-end Sensor which helps to stop printing when the paper supply almost runs out. Each bit for “n” has the following meaning: Value Position Paper Near-end...
  • Seite 104 ESC c 5 n [Function] Enabling/Disabling the panel switches [Code] <1B>H<63>H<35>H<n> [Range] [Outline] Enabling/disabling the FEED switch. • “n” is valid only in the lowest bit. Condition FEED switch valid FEED switch invalid [Caution] When the panel switch is disabled with this command, the FEED switch is also disabled.
  • Seite 105 ESC d n [Function] Printing and feeding the paper by “n” lines [Code] <1B>H<64>H<n> [Range] [Outline] Prints data in the print buffer and feeds paper by “n” lines. • Specified lines do not remain. • The beginning of the line is specified as the next print start position.
  • Seite 106 ESC p m n1 n2 [Function] Generating the specified pulses [Code] <1B>H<70>H<m><n1><n2> [Range] m = 0, 1, 48, 49 [Outline] The signals specified by “n1” and “n2” are output to the connector pin specified by “m”. • “m” has the followings. Connector Pin 0, 48 Drawer Kick-Out pin No.2...
  • Seite 107 ESC t n [Function] Selecting the character code table [Code] <1B>H<74>H<n> [Range] 9, n = 255 [Outline] Selecting the character code table: The character code table is selected based on the value of “n”. Character Code Table Codepage PC437 (USA, European Standard) Codepage Katakana (Japanese) Codepage PC850 (Multilingual) Codepage PC860 (Portuguese)
  • Seite 108 ESC { n [Function] Specifying/Canceling the inverted characters [Code] <1B>H<7B>H<n> [Range] [Outline] Specifying/canceling inverted characters. • “n” is valid only for the lowest bit. Condition Canceling inverted characters. Specifying inverted characters. [Caution] • Inverted printing means printing the line turned 180°. •...
  • Seite 109 GS ! n [Function] Specifying the character size [Code] <1D>H<21>H<n> [Range] 255, where: vertical magnification horizontal magnification [Outline] Specifies the character size (Vertical and horizontal magnification). Value Function Hex. Number Decimal Number Vertical magnification Refer to Table 2, “Vertical specification Magnification”.
  • Seite 110 • If characters of different vertical magnification are contained in a line, the baseline of each character is lined up. • Horizontal and vertical magnification can also be specified/ canceled by ESC !. The ESC ! or GS ! command, whichever is handled last, becomes effective.
  • Seite 111 GS $ nL nH [Function] Specifying the absolute vertical position of characters in PAGE MODE [Code] <1D>H<24>H<nL><nH> [Range] [Outline] This command is used in PAGE MODE to specify the vertical position of characters at the data mapping start position as an absolute value measured from the start point.
  • Seite 112 n1 n2 [ d ] n1 × n2 × 8 [Function] Defining the download bit image <1D>H<2A>H<n1><n2> [< d >] n1 × n2 × 8 [Code] [Range] n1 × n2 1536 [Outline] Defines download bit images of the number of dots specified by n1 and n2.
  • Seite 113 [Sample Program] GOSUB IMG LPRINT CHR$(&H1D) + “/” + CHR$(0); LPRINT CHR$(&H1D) + “/” + CHR$(1); LPRINT CHR$(&H1D) + “/” + CHR$(2); LPRINT CHR$(&H1D) + “/” + CHR$(3); IMG: n1=10 : n2=5 LPRINT CHR$(&H1D) + “ ”; LPRINT CHR$(n1) + CHR$(n2); FOR J=1 TO n1 FOR I=1 TO n2 LPRINT CHR$(J);...
  • Seite 114 GS (A pL pH n m [Function] Execution of test printing [Code] <1D>H<28>H<41>H<pL><pH><n><m> (pL+(pH × 256))=2 (pL=2, pH=0) [Definition] 2, 48 3, 49 [Outline] Specified test printing will be executed. • pL, pH will specify the number of subsequent parameters by (pL+(pH ×...
  • Seite 115 GS / m [Function] Printing the downloaded bit image [Code] <1D>H<2F>H<m> [Range] [Outline] Prints downloaded bit image in a mode specified by “m”. Modes that can be selected by “m” are shown below. Dot Density in Dot Density in Mode Name Vertical Direction Horizontal Direction 0,48...
  • Seite 116 GS : [Function] Starting/Ending macro definition [Code] <1D>H<3A>H [Outline] Specifying starting/ending macro definition. Reception of this command during macro definition signifies ending the macro definition. [Caution] Maximum content available for macro definition is 2048 bytes. A portion exceeding 2048 bytes is not defined. •...
  • Seite 117 GS B n [Function] Specifying/Canceling the black/white inverted printing [Code] <1D>H<42>H<n> [Range] [Outline] This command specifies or cancels the black/white inverted printing. Function The black/white inverted printing is canceled. The black/white inverted printing is specified. [Caution] • Number “n” is only valid in the lowest bit. •...
  • Seite 118 GS H n [Function] Selecting of printing position of HRI characters [Code] <1D>H<48>H<n> [Range] [Outline] Selecting printing position of HRI characters in printing bar codes. • “n” means the followings. Printing Position 0,48 No printing 1,49 Above the bar code 2,50 Below the bar code 3,51...
  • Seite 119 [Print Results] No HRI characters Printed above Printed below Printed above and below — 101 —...
  • Seite 120 <1D>H<49>H<n> [Range] [Outline] Sends the specified printer ID. Type of printer ID Specification Value (Hex.) 1,49 Model ID CBM1000 2,50 Type ID Refer to table “Type ID” below 3,51 ROM version ID As per ROM version Type ID Meaning Hex.
  • Seite 121 GS L nL nH [Function] Setting the left margin [Code] <1D>H<4C>H<nL><nH> [Range] [Outline] This command sets the left margin specified by nL and nH. The value of the left margin is [(nL + nH × 256) × basic calculation pitch] inches. Printable Area Left Margin Print Area Width...
  • Seite 122 • When mapping non-character data (Bit image, downloaded bit image, or bar code), if the print area specified is narrower than 9-bits, only the line for that data is handled as follows: (1) The print area is extended toward the left (So, the left margin is decreased) until it is 9-dot wide, but not wider than the printable area.
  • Seite 123 GS P x y [Function] Specifying the basic calculation pitch [Code] <1D>H<50>H<x><y> [Range] [Outline] This command sets the horizontal basic calculation pitch to approx. 25.4/x mm (1/x inches), and the vertical basic calculation pitch to approx. 25.4/y mm (1/y inches). •...
  • Seite 124 GS V m ..(1) GS V m n ..(2) [Function] Cutting the paper [Code] (1) <1D>H<56>H<m> (2) <1D>H<56>H<m><n> [Range] (1) m = 1, m = 49 (2) m = 66 [Outline] Performs the specified paper cutting. Function 1,49 Partial cut (Leaving a bridge area uncut) Paper feed by “cut position + {n ×...
  • Seite 125 GS W nL nH [Function] Setting the print area width [Code] <1D>H<57>H<nL><nH> [Range] [Outline] Sets the print area width specified by nL and nH. • The print area width will be [(nL + nH × 256) × basic calculation pitch] inches. Printable Area Left Margin Print Area Width...
  • Seite 126 (2) If a sufficient area cannot be provided as a result of step (1), the print area is extended toward the left (So, the left margin is decreased). Printable Area Extended toward the right (2) The left margin Left Margin is trimmed Print Area Width (3) If a sufficient area cannot be provided as a result of step...
  • Seite 127 GS \ nL nH [Function] Specifying the relative vertical position of a character in PAGE MODE [Code] <1D>H<5C>H<nL><nH> [Range] [Outline] This command is used in PAGE MODE to specify the vertical position of a character in the data mapping start position, in a relative position with respect to the current position.
  • Seite 128 GS ^ n1 n2 n3 [Function] Executing the macro [Code] <1D>H<5E>H<n1><n2><n3> [Range] [Outline] Executing contents defined in macro. n1 : The number of times of macro execution n2 : Waiting time on macro execution Waiting time of n2 × 100 msec is given for every execution. n3 : Macro execution mode n3=0 Continuous execution: The Macro is executed “n1”...
  • Seite 129 GS a n [Function] Enabling/Disabling ASB (Automatic Status Back) [Code] <1D>H<61>H<n> [Range] [Outline] This command selects the status item to be addressed by ASB (Automatic Status Back.) Status item addressed by ASB Hex. Decimal Status of pin 3 of Drawer Kick-Out Connector = disabled Status of pin 3 of Drawer Kick-Out Connector = enabled Online/offline status = disabled Online/offline status = enabled...
  • Seite 130 (1) 1st byte (Printer information) Status Hex. Decimal Unused Unused Status of pin 3 of Drawer Kick-Out Connector = “L” Status of pin 3 of Drawer Kick-Out Connector = “H” Online status Offline status Unused Cover closed Cover open Not in paper feed state triggered by FEED switch In paper feed state triggered by FEED switch Unused (2) 2nd byte (Error occurrence information)
  • Seite 131 (4) 4th byte (Paper Sensor information) Status Decimal Undefined — — Undefined — — Undefined — — Undefined — — Unused Undefined — — Undefined — — Unused [Default] DIP Switch 2-6 OFF: n = 0 DIP Switch 2-6 ON: n = 2 [See Also] DLE EOT, GS r, “IDENTIFICATION OF SEND STATUS”...
  • Seite 132 GS f n [Function] Selecting the font of HRI characters [Code] <1D>H<66>H<n> [Range] n = 0, 1 [Outline] Selecting the font of HRI characters in printing bar code. The type of font can be selected with “n” as follows: Font Font A (12 ×...
  • Seite 133 GS h n [Function] Specifying the height of the bar code [Code] <1D>H<68>H<n> [Range] [Outline] Selecting bar code height. “n” denotes the number of dots in the vertical direction. [Default] n = 162 [Sample Program] Refer to Sample Program and Print Results for GS w on page 107.
  • Seite 134 GS k m [d1 ..dk] NUL GS k m n [d1 ..dn] [Function] Printing the bar code [Code] (1) <1D>H<6B>H<m> [d1..dk] NUL (2) <1D>H<6B>H<m><n> [d1..dn] [Range] (1) 0 The definitions of “k” and “d” vary with the bar code system. (2) 65 73 The definitions of “n”...
  • Seite 135 [Caution] For (1): • This command ends with a NUL code. • For UPC-A or UPC-E, the bar code is printed when 12 bytes of bar code data have been entered, and the subsequent data is handled as normal data. •...
  • Seite 136 For PAGE MODE: • This command only maps the bar code, without performing a printout. After the bar code is mapped, the dot next to the last data item of the bar code is taken as the start position for the next data mapping.
  • Seite 137 [Description of Bar Codes] <For print examples, refer to page 123.> UPC-A This bar code, consisting of numerals only, has a fixed length of 12 columns; a 11-column number entered from the host or application software plus a check digit (12th column) automatically calculated inside the printer.
  • Seite 138 CODABAR (NW-7) This bar code, consisting of alphanumerics, has a variable length of columns. Available characters include “0 1 2 3 4 5 6 7 8 9 A B C D $ + – . / :”. A start/stop code is required; any one of A, B, C, and D is used.
  • Seite 139 CODE128 This bar code consists of 103 bar code characters and three code sets, enabling 128 ASCII code characters to be printed. It has a variable length of columns. • Code set A ASCII characters 00H - 5FH can be represented.
  • Seite 140 Special characters Hex. ASCII Code set A Code set B Code set C 7B53 SHIFT SHIFT –N/A 7B41 –N/A CODE A CODE A 7B42 CODE B –N/A CODE B 7B43 CODE C CODE C –N/A 7B31 FNC1 FNC1 FNC1 7B32 FNC2 FNC2 –N/A...
  • Seite 141 [Description of Bar Codes] UPC-A, UPC-E, JAN-13 (EAN), JAN-8 (EAN), CODE39, ITF, CODABAR, CODE93, CODE128 Type Print Sample Outline of Symbol UPC-A 12-column fixed-length bar code consisting of numerals only. UPC-E 8-column fixed-length bar code consisting of numerals only. Abbreviated version of UPC-A. JAN-13 13-column fixed-length bar code consisting of numerals only.
  • Seite 142 GS r n [Function] Sending status [Code] <1D>H<72>H<n> [Range] [Outline] Sends the specified status to the host. n = 1, 49: Sends the Paper Sensor status. n = 2, 50: Sends the Drawer Kick-Out Connector status. [Caution] • When the serial interface is used: For DTR/DSR control: The printer sends the status after verifying that the host is ready to receive.
  • Seite 143 • Drawer Kick-Out Connector status (n = 2, 50) Status Hex. Decimal Status of pin 3 of Drawer Kick Connector = “L” Status of pin 3 of Drawer Kick Connector = “H” 01 Undefined — — Undefined — — Undefined —...
  • Seite 144 GS v0 m xL xH yL yH d1...dk [Function] Printing of raster bit image [Code] <1D>H<76>H<30>H<m><xL><xH><yL><yH> [<d>] k [Range] 3, 48 51, 0 255, 0 255, 255, 0 8, 0 255, k=(xL+xH × 256) × (yL+yH × 256), however, k≠0 [Outline] Prints raster bit images in mode “m”.
  • Seite 145 • If this command is executed during macro definition, the macro definition is suspended, and the processing of the command starts. The macro is left undefined. • “d” denotes defined data. Dots to be printed are specified as “1”, and those not to be printed as “0”. [Example] When xL+xH ×...
  • Seite 146 GS w n [Function] Specifying the horizontal size (Magnification) of bar code [Code] <1D>H<77>H<n> [Range] [Outline] Selecting bar code width. “n” denotes the number of dots in fine element width. [Default] n = 3 [Sample Program] LPRINT CHR$(&H1D) + “h” + CHR$(30); LPRINT CHR$(&H1D) + “w”...
  • Seite 147 FS g1 m a1 a2 a3 a4 nL nH d1…dk [Function] Writing data into the download user NV memory [Code] <1C>H<67>H<31><m>H<a1>H<a2>H<a3>H<a4>H <nL>H<nH>H[<d>]nL+(nH × 256) [Range] (a1+(a2 × 256)+(a3 × 65536)+(a4 × 16777216)) 6000H 7FFFH (nL+(nH × 256)) Sto rage start address 1024 k=(nL+(nH ×...
  • Seite 148 [Caution] • Because frequent writing in the non-volatile memory can destroy the memory, the writing command (FS g1) should be used less than 10 times a day. • It may happen that the printer becomes BUSY during the process of writing data into the non-volatile memory while this command is executed.
  • Seite 149 FS g2 m a1 a2 a3 a4 nL nH [Function] Reading data from the download user NV memory [Code] <1C>H<67>H<32>H<m>H<a1>H<a2>H<a3>H<a4>H <nL>H<nH>H [Range] (a1+(a2 × 256)+(a3 × 65536)+(a4 × 16777216)) 6000H 7FFFH Write start address +n1+nH × 256 8000H K=(nL+(nH × 256)) [Outline] •...
  • Seite 150 • When the XON/XOFF control is selected, all the codes are sent continuously without verifying that the host can receive the data. Data that has been sent is always continuous except for the XOFF code. • When parallel interface is used, the size of the buffer for sending data (The buffer that stores all data to be sent except for ASB status) is 99 bytes.
  • Seite 151 F S p n m [Function] Printing the download NV bit images [Code] <1C>H<70>H<n><m> [Range] [Outline] This command prints the download NV bit images (n) using a specified mode (m). Dot Density in Dot Density in Mode Name Vertical Direction Horizontal Direction 0,48 NORMAL MODE...
  • Seite 152 • When the size of a bit image exceeds the limits of the printing area, the data within the limits of the printing area will be printed but the parts exceeding the limit will not be printed. • Regardless of the amount of line feed set with ESC 2 and ESC 3, NORMAL MODE and DOUBLE WIDTH MODE execute a paper feed of (Height n of NV bit image) dots while DOUBLE HEIGHT MODE and QUADRUPLE SIZE MODE execute a paper...
  • Seite 153 F S q n [xL xH yL yH d1…dk] 1… [xL xH yL yH d1…dk] n [Function] Defining the download NV bit image [Code] <1C>H<71>H<n>H{<xL><xH><yL><yH><d1...dk>}1... {<xL><xH><yL><yH><d1...dk>}n [Range] 255, 0 255, (xL + xH × 256) 3 but, 1 1023 (yL + yH × 256) 1 but, 1 k = ( xL + xH ×...
  • Seite 154 • If outside-defined-area arguments are processed for the second or subsequent NV bit image data groups, the processing of this command is suspended, and a writing process into the non-volatile memory starts. At this time, the NV bit image being defined becomes invalid (Undefined), but the preceding NV bit images are valid.
  • Seite 155 [Caution] • Because frequent writing in the non-volatile memory can destroy the memory, the writing command should be used less than 10 times a day. • Just after the completion of the writing operation into the non- volatile memory, the printer hardware will be reset. Therefore, download characters, download bit images, and macro definition will be made undefined.
  • Seite 156 (xL + xH × 256) × 8dots = 512dots [Example] When xL =64, xH = 0, yL = 96, yH = 0 — 138 —...

  • Seite 157: Character Codes Table

    CHARACTER CODES TABLE 11.1 Code Page 11.1.1 Codepage 00H to 7FH & PC437 (USA, European Standard) — 139 —...

  • Seite 158: Codepage Katakana (Japanese)

    11.1.2 Codepage Katakana (Japanese) — 140 —...

  • Seite 159: Codepage Pc850 (Multilingual)

    11.1.3 Codepage PC850 (Multilingual) — 141 —...
  • Seite 160 11.1.4 Codepage PC860 (Portuguese) — 142 —...
  • Seite 161 11.1.5 Codepage PC863 (Canadian-French) — 143 —...

  • Seite 162: Codepage Pc865 (Nordic)

    11.1.6 Codepage PC865 (Nordic) — 144 —...
  • Seite 163 11.1.7 Codepage PC852 (Eastern Europe) — 145 —...
  • Seite 164 11.1.8 Codepage PC866 (Russian) — 146 —...
  • Seite 165 11.1.9 Codepage PC857 (Turkish) — 147 —...
  • Seite 166 11.1.10 Windows Codepage — 148 —...

  • Seite 167: International Character Codes Table

    11.2 International Character Codes Table Country U.S.A. France Germany U.K. Denmark1 Sweden Italy Spain1 Japan Norway Denmark2 Spain2 Latin America Korea — 149 —...
  • Seite 168 12. APPENDIX 1. PAGE MODE 12.1. Overview The printer has two print modes: STANDARD and PAGE. In STANDARD MODE, the printer prints or feeds paper each time it receives a print or paper feed command. In PAGE MODE, when the printer receives print commands and/or form feed commands, it simply forwards them to the specified print area of memory.

  • Seite 169: Mapping Of Print Data In The Print Area

    12.2 Mapping of print data in the print area Print data is mapped in the print area as follows: (1) The print area is set by ESC W. When the printer has finished all of the print and paper feed actions specified before receiving an ESC W, the ESC W sets the left end (As viewed facing the printer) as the start point (x0, y0) of the print area.
  • Seite 170 Mapping Direction x0,y0 Baseline Point A Print Area dx,dy [Mapping Position for Character Data] Double Height Character Downloaded Bar Code Bit Image GS k m GS * x y nH*256+nL Bit Image Baseline Esc * m nL nH (HRI Characters) Point B Point B Point B...
  • Seite 171 12.2.1 Example of the Use of PAGE MODE The following explains specific uses of PAGE MODE. When in PAGE MODE, the commands are typically sent from the host to the printer in the following sequence: (1) An ESC L puts the printer in PAGE MODE. (2) An ESC W specifies the print area.
  • Seite 172 In Figure 1-1, a line feed occurs between “lesson” and “Test 1” because the space “ “ next to “lesson” dose not fit in the horizontal range of the 200 × 400-pitch print area. The line feed width conforms to the value specified by a command such as ESC 3.
  • Seite 173 Before an FF is sent, the following program code can be added to remove part of the data. LPRINT CHR$(&H1B) + “W” + CHR$((72) + CHR$(0) + CHR$(120) + CHR$(0); LPRINT CHR$(36) + CHR$(0) + CHR$(48) + CHR$(0); LPRINT CHR$(&H18); LPRINT CHR$(&HC);...
  • Seite 174 13. APPENDIX 2. BIDIRECTIONAL PARALLEL INTERFACE 13.1 Overview The interface of the printer is a Level-1 compatible device according to IEEE-P1284. It supports the communication modes described in 13.1.1 below. 13.1.1 Parallel Interface Communication Modes The parallel interface of the printer provides three communication modes as outlined below.
  • Seite 175 13.1.2 Interfacing Phases Interfacing in each communication mode is divided into several phases. In addition, there is a phase for mode initialization, as well as a phase for mode switching. Interface signals may differ in name and function for different modes and different phases.
  • Seite 176 13.2 Negotiation 13.2.1 Overview Usually, the printer is started in Compatibility mode, which corresponds to the Centronics interface phase. When the host intends to switch to the Nibble or Byte mode, it sends a request and negotiates with the printer. A general flow of negotiations is given below.
  • Seite 177 13.2.3 Precautions 1) The Negotiation phase is triggered when the IEEE 1284 Active signal sent by the host becomes High. 2) In Compatibility mode, the time when the negotiation process begins is, as a general rule, after the host sets nStrobe to High and then the printer outputs an nAck pulse.
  • Seite 178 13.2.4 Data Communication from Printer to Host 13.2.4.1 Nibble Mode In this mode, data is transferred between the printer and the host through the procedure described below. The steps beginning from 1) are applicable when the Negotiation phase has switched to the Host Busy Data Available phase. If the Negotiation phase has switched to the Host Busy Data Not Available phase, the procedure starts at step 9).
  • Seite 179 12) If the host selected the Reverse Idle phase and new data becomes available to be sent from the printer, the printer sets PtrClk to Low to request the host for an interrupt. (Event 18) 13) The printer sets PtrClk back to High. (Event 19) 14) Upon receiving a request for interrupt from the printer, the host responds by setting HostBusy (nAutoFd) to High.
  • Seite 180 <00> H <31> H MFG : CBM ; CMD : CBM ; ESC / POS MDL : CBM1000 ; CLS : PRINTER ; The first two bytes of the device ID indicate the length of the entire device ID (Including the first two bytes themselves). For a description of a request for a device ID, refer to the “Negotiation”...
  • Seite 181 (1) Termination through a handshake between the host and the printer: When switching from Reverse mode to Compatibility mode, this termination method can be used if the interface is activated (IEEE 1284 Active: High) and event 22 has taken place. 1) The printer responds to IEEE 1284 Active by setting PtrBusy (Busy) and nDataAvail (nFault) to High.
  • Seite 182 14. APPENDIX 3.IDENTIFICATION OF SEND STATUS Because the status sent from the printer has certain fixed bits, it is possible to identify to which command the status belongs. When using ASB (Automatic Status Back), however, the first byte of ASB should be checked, and then the three consecutive bytes except for XOFF should be treated as ASB data.
  • Seite 183 15. APPENDIX 4. OUTLINE DRAWING 15.1 CBM1000S —165 —...
  • Seite 184 15.2 CBM1000A / CBM1000D —166 — —166 —...
  • Seite 185 15.3 AC Adapter (31AD) —167 —...
  • Seite 186 16. APPENDIX 5. BLOCK DIAGRAM OSC 20MHz FLASH FEED Switch Print Head Cutter Driver DIP Switch Stepping Driver Moter Paper End Cover Switch Paper Near-end DC 5V DC 24V Driver Interface Reset Power Source DC 24V 1.8A Drawer1 Parallel Centronics compliant Drawer2 IEEE1284 compliant Serial...
  • Seite 187 GERMAN — 169 —...

  • Seite 188: Allgemeine Vorsichtsmassnahmen

    ALLGEMEINE VORSICHTSMASSNAHMEN • Bevor Sie den Drucker CBM1000 verwenden, lesen Sie dieses Benutzerhandbuch gründlich. Bewahren Sie es griffbereit auf, so daß Sie darin gegebenenfalls nachschlagen können. • Die in diesem Handbuch enthaltenen Informationen können ohne vorherige Ankündigung geändert werden. • Das Benutzerhandbuch darf ohne zuvor erteilte Genehmigung weder in Auszügen noch insgesamt reproduziert werden.

  • Seite 189: Sicherheitsvorschriften

    SICHERHEITSVORSCHRIFTEN — BITTE UNBEDINGT EINHALTEN! In diesem Benutzerhandbuch werden spezielle Warnsymbole verwendet, um Sicherheitsrisiken für das Bedienungspersonal oder andere Personen sowie Sachschäden auszuschalten. Diese Warnsymbole machen auf wichtige Punkte aufmerksam, die unbedingt eingehalten werden müssen. • The following describes the degrees of hazards and damages that can occur if the CBM 1000 Printer is incorrectly operated without observing the instructions indicated by the warning symbols.
  • Seite 190 WARNUNG Behandeln Sie den Drucker CBM1000 niemals in der nachstehend beschriebenen Weise. Anderenfalls kann er beschädigt werden, funktionsuntüchtig werden oder überhitzen, Rauch entwickeln, und es entsteht möglicherweise ein Brand, oder es besteht die Gefahr eines elektrischen Schlags. Sollte der Drucker beschädigt werden oder ausfallen, schalten Sie unbedingt die Stromversorgung aus, ziehen Sie den Netzstecker aus der Netzsteckdose, und setzen Sie sich mit Ihrem CBM-Händler in...
  • Seite 191 VORSICHTSMASSNAHMEN FÜR DIE INSTALLATION • Betreiben und lagern Sie den Drucker CBM1000 auf keinen Fall an Orten, die Feuer, Feuchtigkeit oder direkter Sonneneinstrahlung ausgesetzt sind, oder an Orten, an denen die vorgeschriebene Betriebstemperatur und Feuchtigkeit nicht eingehalten werden, oder an Orten, die Ölnebel, Eisenpulver oder Staub ausgesetzt sind.

  • Seite 192: Vorsichtsmassnahmen Für Die Handhabung

    VORSICHTSMASSNAHMEN FÜR DIE HANDHABUNG Beachten Sie die folgenden Vorsichtsmaßnahmen, um den Drucker CBM1000 richtig zu betreiben und um zu verhindern, daß Probleme auftreten. • Verwenden Sie ausschließlich das vorgeschriebene Netzteil. • Achten Sie darauf, daß der Drucker nicht druckt, wenn kein Papier eingelegt ist.

  • Seite 193: Heisser Bereich

    Nachstehend wird ein Warnschild des Druckers beschrieben, das Sie auf eine potentielle Gefahr aufmerksam machen soll. Lesen Sie den Warnhinweis auf diesem Schild, und verhalten Sie sich im Umgang mit dem Drucker entsprechend. Dieses Etikett warnt Sie davor, daß der Druckkopf HEISS wird.

  • Seite 194: Tägliche Wartungsarbeiten

    TÄGLICHE WARTUNGSARBEITEN • Schalten Sie den Drucker unbedingt aus, bevor Sie Wartungsarbeiten durchführen. • Wenn Sie die Walze reinigen, verwenden Sie einen in Ethylalkohol getränkten Wattebausch, um Flecken abzuwischen. Puraten ACHTUNG: Vermeiden Sie es, den Druckkopf zu reinigen, wenn gerade ein Druckvorgang beendet worden ist.
  • Seite 195 TÄGLICHE WARTUNGSARBEITEN Reinigen des Druckkopfs 1 Schalten Sie die Stromversorgung des Druckers aus. 2 Öfnen Sie die Druckerabdeckung. 3 Verwenden Sie Gaze, die mit etwas Alkohol benetzt ist, um Flecken und Staub auf der Seite des Druckkopfes abzuwischen, die Wärme abstrahlt. Druckkopfs ACHTUNG: Vermeiden Sie es, den Druckkopf zu reinigen, wenn gerade ein Druckvorgang...

  • Seite 196: Betrieb

    4. BETRIEB 4.1 Anschließen des Netzteils und Netzkabels Schalten Sie die Stromversorgung CBM1000S (Standardmodell) des Druckers aus. Drehen Sie die flache Seite des Netzteilkabelanschlusses nach oben, und stecken Sie den Eingang Netzkabelanschluß in den Netzanschluß auf der Rückseite des Druckers. (Nur für Modelle mit Netzkabel externem Netzteil.) Verwenden Sie einen...
  • Seite 197 ACHTUNG : • Verwenden Sie ausschließlich das vorgeschriebene Netzteil. • Wenn Sie den Netzkabelanschluß des Netzteils anschließen oder abtrennen, ziehen Sie immer am Stecker und nicht am Kabel. • Für das Netzteil sollte eine Wandsteckdose verwendet werden, an die keine Geräte angeschlossen sind, von denen Rauschstörungen ausgehen.

  • Seite 198: Anschließen Der Schnittstellenkabel

    4.2 Anschließen der Schnittstellenkabel Schalten Sie die Stromversorgung Serielle Schnittstelle des Druckers (Und die Stromversorgung des angeschlossenen Computers) aus. Richten Sie das Schnittstellenkabel Serielles richtig aus, und schließen Sie es an Schnittstellenkabel die entsprechende Schnittstelle an. Sichern Sie das Kabel gemäß der Darstellung weiter unten.

  • Seite 199: Anschließen Des Drawer Kickout-Steckers

    4.3 Anschließen des Drawer Kickout-Steckers Schalten Sie die Stromversorgung des Druckers aus. Drawer Kickout-Stecker Richten Sie den Drawer Kickout- Kabelstecker richtig aus, und stecken Sie ihn in den Drawer Kickout-Stecker auf der Rückseite des Druckers. Befestigen Sie den Erdungsleiter an der Erdungsklemme am Drucker mit einer Schraube.

  • Seite 200: Einlegen / Auswechseln Von Papierrollen

    4.4 Einlegen / Auswechseln von Papierrollen Druckeradeckung Schalten Sie den Drucker ein. Drücken Sie den Auswurfhebel in die angezeigte Richtung, um die Druckerabdeckung zu entriegeln. Halten Sie die Druckerabdeckung auf beiden Seiten mit den Händen, und öffnen Sie sie bis zum Anschlag. Auswurfhebel Überprüfen Sie die Wickelrichtung Abreißschiene...
  • Seite 201 Trennen Sie das überstehende Papier mit Hilfe der Abreißschiene ab. (Manuell papierschneider) ACHTUNG : • Verwenden Sie stets den vorgeschriebenen Papierrollentyp. • Wenn andere Papierrollentypen verwendet werden, kann die angegebene Druckqualität möglicherweise nicht erzielt oder die Lebensdauer des Druckers reduziert werden. •...

  • Seite 202: Justieren Des Papierende-Sensors

    4.5 Justieren des Papierende-Sensors Öffnen Sie die Druckerabdeckung. Sensorknopf Drücken Sie den Sensorknopf in Pfeil 1 4 3 2 1 Richtung Pfeil 1, um die Klaue Justierungs- position auszurücken (Oder den Sensor zu Pfeil 2 entriegeln), und justieren Sie anschließend den Sensor entsprechend der gewünschten Restpapiermenge innerhalb des Bereichs, der durch Pfeil 2 angezeigt...

  • Seite 203: Verwenden Von 58 Mm Breiten Papierrollen

    4.6 Verwenden von 58 mm breiten Papierrollen Schalten Sie die Stromversorgung Trennvorrichtung des Druckers aus. Öffnen Sie die Druckerabdeckung. Setzen Sie die mitgelieferte Trennvorrichtung an der dargestellten Position ein. Lesen Sie in Kapitel 5 “EINSTELLEN DER DIP-SCHALTER” nach, und ändern Sie die Stellung des entsprechenden DIP-Schalters, so daß...

  • Seite 204: Reinigen Des Druckkopfes

    4.8 Reinigen des Druckkopfes Schalten Sie die Stromversorgung Druckkopf des Druckers aus. Öffnen Sie die Druckerabdeckung. Wischen Sie Schmutz, wie Papierrolle beispielsweise Staub und ähnliches, vom Heizelement des Kopfes mit Hilfe eines Wattebausches ab, der mit Ethylalkohol getränkt ist. ACHTUNG: Der Druckkopf ist sehr heiß, wenn gerade ein Druckvorgang beendet worden ist.

  • Seite 205: Bedienungsfeld Und Fehleranzeige

    4.9 Bedienungsfeld und Fehleranzeige Anzeigeleuchte POWER (Grün) Diese Anzeigeleuchte leuchtet bei eingeschalteter Stromversorgung. Sie blinkt, wenn ein Speicherfehler aufgetreten ist. Anzeigeleuchte ERROR (Rot) Diese Anzeigeleuchte leuchtet oder blinkt, um unterschiedliche Fehlerzustände anzuzeigen. Sie blinkt auch, während der Drucker auf die Ausführung eines Makros wartet.
  • Seite 206 Fehlerbeschreibung Abdeckung geöffnet: Wenn Sie die Druckerabdeckung öffnen, wird der Sensor aktiviert, der erkennt, wenn die Abdeckung geöffnet ist. Durch diesen Sensor werden die LED ERROR eingeschaltet und der Druckvorgang gestoppt. Überhitzung des Kopfes: Um den Druckkopf vor Üerhitzung zu schützen, wird der Sensor für die Druckkopftemperatur aktiviert, wenn die Temperatur des Druckkopfes über ca.
  • Seite 207 Taste FEED • Wenn Sie diese Taste einmal kurz drücken, wird das Papier um eine Zeile vorgeschoben. Wenn Sie die Taste länger drücken, wird das Papier kontinuierlich vorgeschoben. • Wenn der Schalter gedrückt wird, während der Drucker auf die Ausführung eines Makros wartet, wird der Makro ausgeführt.
  • Seite 208 4.10 Hexdump Funktion zur Erstellung eines hexadezimalen Speicherauszugs Mit dieser Funktion können Daten, die vom Computer gesendet werden, in Hexadezimalzahlen sowie in Zeichen gedruckt werden, die diesen Zahlen entsprechen. Starten des Hexdump Öffnen Sie die obere Abdeckung. Halten Sie die Taste FEED gedrückt, und schalten Sie dabei die Stromversorgung des Druckers “...

  • Seite 209: Einstellen Der Dip-Schalter

    5. EINSTELLEN DER DIP-SCHALTER 5.1 Position der DIP-Schalter Führen Sie die folgenden Schritte aus, um auf die DIP-Schalter zuzugreifen: Schalten Sie die Stromversorgung des Druckers aus. DIP-Schalterdeckel Öffnen Sie die Druckerabdeckung. Nehmen Sie die Papierrolle heraus. Ziehen Sie an der Zunge des DIP- Schalterdeckels (Um ihn zu entriegeln), und nehmen Sie anschließend den Deckel heraus.
  • Seite 210 5.2 DIP-Schaltertabelle DIP-Schalter 1 Funktion Werkseinstellungen Automatischer Verfügbar Nicht verfügbar Papierschneider Drucken-modus Hohe-Qualität Hohe-Geschwindigkeit Papierbreite 58 mm 80 mm 42(80 mm) columns 48(80 mm) columns Druckspalten * 30(58 mm) columns 36(58 mm) columns CR-Modus LF-Betrieb Ignoriert Eingangspufferspeicher 72 Byte 4K Byte Druckdichte (Vgl.
  • Seite 211 DIP-Schalter 2 Funktion Werkseinstellungen Zeichencode OFF * Zeichencode OFF * Vgl. nachstehende Tabelle. Zeichencode OFF * Zeichencode OFF * JIS/Umschalt-JIS Umschalt-JIS • Offline Bedingung für Eingangspuffer- • Eingangspuffer- BUSY-Signal speicher voll speicher voll Nicht verwendet — — Nicht verwendet — —...
  • Seite 212 DIP-Schalter 3 Funktion Werkseinstellung Bitlänge 7-Bit 8-Bit Parität Verfügbar Nicht verfügbar Ungerade/Gerade Gerade Zahl Ungerade Zahl Kommunikationsmodus XON/XOFF DTR/DSR DIP-Schalter 4 Funktion Werkseinstellung Baud-Rate Vgl. nachstehende Tabele. Baud-Rate Rücksetzung INIT Rücksetzung — Baud-Rate (DIP-Schalter 4) Baud-Rate 2400 4800 9600 19200 —...

  • Seite 213: Parallele Schnittstelle

    6. PARALLELE SCHNITTSTELLE 6.1 Bidirektionale parallele Schnittstelle (IEEE1284) 6.1.1 Kompatibilitätsmodus (Host → Druckerkommunikation: Centronics-kompatibel) • Allgemeine Beschreibung Dieser Drucker bietet den Kompatibilitätsmodus, der die Centronics-Schnittstelle spezifiziert, die konventionell für eine Vielzahl von Anwendungen verwendet wird. • Technische Daten Datenübertragungsverfahren: 8-Bit parallel Synchronisierungsverfahren: Steuerung durch externes Hinweissignal Handshaking: Steuerung über nAck- und Busy-Signal...

  • Seite 214: Belegung Der Anschlußstifte

    6.1.3 Belegung der Anschlußstifte Quelle KompatibilitätsModus Nibble-Modus Byte-Modus Host nStrobe HostClk HostClk Host/Ptr Data0(LSB) Data0(LSB) Data0(LSB) Host/Ptr Data1 Data1 Data1 Host/Ptr Data2 Data2 Data2 Host/Ptr Data3 Data3 Data3 Host/Ptr Data4 Data4 Data4 Host/Ptr Data5 Data5 Data5 Host/Ptr Data6 Data6 Data6 Host/Ptr Data7(MSD) Data7(MSD)

  • Seite 215: Beschreibung Von Eingangs- Und Ausgangssignalen

    ACHTUNG: • Wenn der erste Buchstabe eines Signalnamens mit “n” beginnt, bedeutet dies, daß das Signal im Tiefpegelzustand aktiv ist. • Wenn eines der obigen Signale nicht zur Verfügung steht, läßt sich keine bidirektionale Kommunikation durchführen. Verwenden Sie für Schnittstellensignale verdrillte Doppelleitungen als Signalleitungen.

  • Seite 216: Elektrische Kenndaten

    6.2.2 Elektrische Kenndaten Eingangssignalpegel (STB, DATA 1-8) Alle Eingangssignale entsprechen dem C-MOS Pegel. Hochpegel: maximal 4,0 V Tiefpegelzustand: maximal 0,9 V Ausgangssignalpegel Alle Ausgangssignale entsprechen dem C-MOS Pegel. Hochpegel: maximal 2,4 V Tiefpegelzustand: maximal 0,4 V Eingangs- und Ausgangsbedingungen Alle Eingangssignale (DATA 1-8) werden jeweils über einen 50 kΩ-Widerstand gesteuert, und die anderen Eingangssignale werden über einen 3,3 kΩ- Widerstand gesteuert.
  • Seite 217 6.2.3 Timing-Tabelle (KompatibilitätsModus) Timing von Dateneingang und Datendruck Stromversorgung DATA nStrobe BUSY nAck T1, T2, T3: minimal 0,5 µs maximal 270 ns typischerweise 2,3 µs minimal 500 ms (Beim Einschalten der Stromversorgung) 6.2.4 Datenempfangssteuerung Wenn sich das Busy-Signal im Tiefpegelzustand befindet, kann der Drucker Daten vom Computer empfangen.

  • Seite 218: Serielle Schnittstelle

    7. SERIELLE SCHNITTSTELLE 7.1 Technische Daten (1) Systemsynchronisierung Asynchron (2) Baud-Rate 2400, 4800, 9600 oder 19200 Bit/s (Vom Benutzer wählbar) (3) Konfiguration eines Wortes Startbit: 1-Bit Datenbit: 7 oder 8-Bit (Vom Benutzer wählbar) Paritätsbit: ungerade, gerade, keines (Vom Benutzer wählbar) Stoppbit: 1-Bit oder mehr (4) Signalpolarität...
  • Seite 219 7.2 Belegung der Anschlußstifte Signalname Eingang/Ausgang Funktion — Sicherheitserdung Ausgang Übertragene Daten Eingang Empfangene Daten Ausgang Identisch mit DTR Eingang DSR oder RESET (mit DIP-Schalter wählbar) — Signalerde Ausgang BUSY-Signal des Druckers INIT Eingang Rücksetzung (mit DIP-Schalter gewählt) Verwendbare Anschlüsse (D-Sub-Anschlüsse) Druckerseitig: 17LE-13250 (DDK) oder äquivalente Anschlüsse Kabelseitig: 17JE-23250 (DDK) oder äquivalente Anschlüsse ACHTUNG :...

  • Seite 220: Beschreibung Der Eingangs- Und Ausgangssignale

    7.3 Beschreibung der Eingangs- und Ausgangssignale 7.3.1 Eingangs- und Ausgangssignale (1) RD Hierbei handelt es sich um ein serielles Empfangsdatensignal. Wenn ein DÜ- Blockfehler, Überlauffehler oder Paritätsfehler auftritt, werden die fehlerhaften Daten so geduruckt: “?”. (2) DTR, RTS Bei entsprechendem Signal können Sie Daten oder Befehle in den Eingangspufferspeicher schreiben.

  • Seite 221: Datenempfangssteuerung

    (6) FG Hierbei handelt es sich um ein Massesignal. (7) GND Hierbei handelt es sich um die gemeinsame Erde von Schaltkreisen. 7.3.2 Fehlererkennung Dieser Drucker kann Paritätsfehler, DÜ-Blockfehler und Überlauffehler erkennen. Wenn ein Fehler erkannt wird, werden die fehlerhaften Daten im Pufferspeicher als “?”...
  • Seite 222 7.3.5 Elektrische Kenndaten RS-232C-Schaltkreis Eingang (RD, DSR, INIT) [Druckerseitig] [Computerseitig] Äquivalent zu MAXIMUM232 Ausgang (DTR, TD, RTS) [Druckerseitig] [Computerseitig] Äquivalent zu MAXIMUM232 — 204 —...

  • Seite 223: Drawer Kickout-Anschluss Und Stromanschluss

    8. DRAWER KICKOUT-ANSCHLUSS UND STROMANSCHLUSS 8.1 Technische Daten des Drawer KickOut-Anschlusses 8.1.1 Drawer KickOut-Treibersignal Ein Impuls (ESC p) wird gesendet. Im Parallelmodus kann der SW(+)-Zustand an Stift 34 des Schnittstellenanschlusses oder durch die Befehle EOT, GS a und GS r an der seriellen/parallelen Schnittstelle überprüft werden.

  • Seite 224: Treiberschaltung

    8.1.4 Treiberschaltung 8.2 Technische Daten des Stromanschlusses Nachstehend ist der Stromanschluß des speziellen Netzteils dargestellt. Stiftbelegung des Netzanschlusses (Stiftnummer und Funktion) Netzanschlusses: TCS7960-53-2010 (Hosiden) oder äquivalenter Anschluß Verwendbarer Anschluß: TCP8927-63-1100 (Hosiden) oder äquivalenter Anschluß TCP8927-53-1100 (Hosiden) oder äquivalenter Anschluß — 206 —...

  • Seite 225: Wartung Und Kundendienst

    9. WARTUNG UND KUNDENDIENST Informationen über Wartung und Kundendienst erhalten Sie bei Ihrem CBM- Händler oder unter den folgenden Anschriften. Nordamerika Sonstige Länder CBM America Corporation Japan CBM Corporation Service Center Information Systems Division 365 Van Ness Way CBM Bldg., 5-68-10, Nakano Suite 510 Nakano-ku, Tokyo 164-0001 Torrance, CA 90501, U.S.A...
  • Seite 226 Information Systems Division CBM Bldg., 5-68-10, Nakano, Nakano-ku, Tokyo 164-0001, Japan Head Office Tel: (+81-3) 5345-7540 Fax: (+81-3) 5345-7541 04-991126-××××-××××-×××.× Printed in Japan...

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