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A good user manual
The rules should oblige the seller to give the purchaser an operating instrucion of Citizen CMP-10, 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 Citizen CMP-10 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 Citizen CMP-10. 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 Citizen CMP-10 should contain:
- informations concerning technical data of Citizen CMP-10
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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 Citizen CMP-10 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 Citizen CMP-10, and methods of problem resolution. Eventually, when one still can't find the answer to his problems, he will be directed to the Citizen 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 Citizen CMP-10.
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Table of contents for the manual
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Page 1
Command Reference MOBILE LINE THERMAL PRINTER MODEL CMP-10 Rev . 2.00 Revised on June 30, 2003[...]
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Page 2
Rev . No. Date Comment Rev . 1.00 2002/11/15 Ne wly issued Rev . 1.01 2002/12/18 Re vised P . 1, P . 2, P . 47, P . 54, P . 56, P . 59 Rev . 1.02 2003/01/17 Added Chapter 3 (Character Codes T ab le) and Chapter 4 Rev . 2.00 2003/06/30 Added ESC >, ESC l, FF (Firmware V er . 1.95) Re vised GS ) Added Chapter 5 to Chapter 10 REVISION[...]
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Page 3
— 1 — 1. CMP-10 COMMAND SET Code Command Function Page 1 BEL Sounds the Buzzer 4 2 HT Horizontal T ab Command 5 3 LF Printing and Paper Feed Command 6 4 CR Print one line Command 7 5 ESC RS Sounds the Buzzer 7 6 ESC SP Setting the right space amount of the character 8 7 ESC ! Collective Specifying Printing Mode 9 8 ESC $ Specifying the Absolute[...]
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Page 4
— 2 — Code Command Function Page 44 GS H Selecting of Printing Position of HRI Code 46 45 GS L Setting the left margin 47 46 GS W Setting the print area width 48 47 GS ^ Executing the Macro 49 48 GS a Enabling/Disabling ASB (Automatic Status Back) 50 49 GS f Selecting the font of HRI characters 53 50 GS h Selecting the height of the Bar Code 54[...]
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Page 5
— 3 — 2. COMMAND DET AILS 2.1 Description of Items XXXX ALL [Function] Command Function [Code] A sequence of code constituting a command is represented in hexadecimal number for < >H, binary number for < >B, and decimal number for < >, respectively; [ ]k represents a repeat count of k-times. [Range] Indicates an argument value[...]
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Page 6
— 4 — BEL [Function] Sounds the Buzzer [Code] <07>H [Outline] By executing this command the buzzer will beep. This command functions in the same manner as ESC RS.[...]
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Page 7
— 5 — HT [Function] Horizontal T ab Command [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. • Initial setting of the horizontal tab position is each 8 characters in 9th, [...]
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Page 8
— 6 — LF [Function] Printing and Paper Feed Command [Code] <0A>H [Outline] Prints data inside the input buffer and feeds lines 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] PRINT #1, “ AAA ” + CHR$ (&HA); PRINT #1, “ BBB [...]
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Page 9
— 7 — CR [Function] Print one line Command [Code ] <0D>H [Outline] This command is ignored or its action is the same as LF depending on the last execution of GS ) 2 command (FLAG SETTING COMMAND). If Flag 2 is 0, carriage return (CR) command is ignored. If Flag 2 is 1, CR comamnd will act as LF command. [Default] CR command is ignored. If[...]
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Page 10
— 8 — ESC SP n [Function] Setting the right space amount of the character [Code] <1B>H<20>H<n> [Range] {0 =< n =< 20(Hex)} [Outline] The rightward space amount is set in dot unit (1/203 inch unit). [Caution] The rightward space amount in doublewide mode is made double of the set volume. [Default] n = 0 [Sample Program] P[...]
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Page 11
— 9 — V alue 01 0 Character Font Font A Font B 1 Undefined 2 Undefined 3 High-lighting Canceled Specified 4 Double height Canceled Specified 5 Double width Canceled Specified 6 Undefined 7 Underline Canceled Specified ESC ! n [Function] Collective Specifying Printing Mode [Code] <1B>H<21>H<n> [Range] {0 =< n =< FF(Hex)} [...]
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Page 12
— 10 — [Sample Program] PRINT #1, CHR$(&H1B) + “ ! ” + CHR$(&H00) + “ H ” ; PRINT #1, CHR$(&H1B) + “ ! ” + CHR$(&H01) + “ H ” ; PRINT #1, CHR$(&H1B) + “ ! ” + CHR$(&H08) + “ H ” ; PRINT #1, CHR$(&H1B) + “ ! ” + CHR$(&H10) + “ H ” ; PRINT #1, CHR$(&H1B) + “ ! ” + CHR$(&H[...]
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Page 13
— 11 — ESC $ n1 n2 [Function] Specifying the Absolute Positions [Code] <1B>H<24>H<n1><n2> [Range] {0 =< n1 =< FF(Hex)} {0 =< n2 =< 1(Hex)} [Outline] The printing start position is specified in the number of dots (1/203 inch unit) from the beginning of line. • The number of dots is divided by 256, whose quot[...]
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Page 14
— 12 — ESC % n [Function] Specifying/Canceling Download Character Set [Code] <1B>H<25>H<n> [Range] {0 =< n =< FF(Hex)} [Outline] Specifying/canceling download characters. Further , only the lowest bit (n0) is valid for n. [Caution] This setting cannot be restored to initial value even with Initialize command or by turnin[...]
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Page 15
— 13 — ESC & m n1 n2 [d] k [Function] Define user characters [Code] <1B>H<26>H<m><n1><n2>[<d>]k [Range] {m = 0, 1, 2, 3(Hex)} {20 =< n1 =< FF(Hex)} {n1 =< n2 =< FF(Hex)} {k=(n2-n1+1)*48} (m=2) {k=(n2-n1+1)*16} (m=3) [Outline] Defines a group of user characters. m=0: Copy internal character set[...]
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Page 16
— 14 — V ertical Direction Horizontal Direction Dots Dot Density Dot Density Max. Dots 0 8-dot single density 8 67 DPI 101 DPI 192 1 8-dot double density 8 67 DPI 203 DPI 384 20 24-dot single density 24 203 DPI 101 DPI 192 21 24-dot double density 24 203 DPI 203 DPI 384 ESC * m n1 n2 [d] k [Function] Specifying the Bit Image Mode [Code] <1B&[...]
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Page 17
— 15 — [Sample Program] PRINT #1, CHR$(&H1B) + “ * ” ; PRINT #1, CHR$(0) + CHR$(20) + CHR$(0); IMG1: GOSUB IMG1 PRINT #1, CHR$(&HFF); PRINT #1, CHR$(&HA); FOR I=1 T O 18 PRINT #1, CHR$(&H1B + “ * ” ; PRINT #1, CHR$(&H85); PRINT #1, CHR$(1) + CHR$(20) + CHR$(0); NEXT I GOSUB IMG1 PRINT #1, CHR$(&HFF); PRINT #1, CH[...]
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Page 18
— 16 — This command has one more version. [Function] Specifying the Bit Image Mode (PCX format) [Code] <1B>H<2A>H<m><n>{<a><00>H} [d]k [Range] {m= 10, 11 or 12(Hex)} {0 =< n =< 30(Hex)} {0 =< a =< 18(Hex)} {0 =< d =< FF(Hex)} {0 =< k =< n x 18(Hex)} [Outline] Designates a bit image of [...]
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Page 19
— 17 — [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. • An underline is not attached to a 90 ° - right-turned characters. [Default] n = 0 [See Also] ESC ! [Sample Program] PRINT #1, CHR$ (&H1B) + “–” + CHR$ (0); PRINT #1, ?[...]
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Page 20
— 18 — ESC . [Function] Printer self test [Code] <1B>H<2E>H [Range] None [Outline] Prints test page, downloaded bit image, and self-diagnostic information. The self- diagnostic information includes print density , print head temperature, battery voltage, Serial or IrDA interface, baud rate, and memory switch setting. [See Also] ESC [...]
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Page 21
— 19 — ESC 3 n [Function] Setting line feed rate of minimum pitch [Code] <1B>H<33>H<n> [Range] {0 =< n =< FF(Hex)} [Outline] The line feed rate per line is specified by n/203 inch. [Default] n = 22(Hex) 1/6-inch [Sample Program] See Sample Program and Print Results for ESC 2.[...]
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Page 22
— 20 — A A A A A A A A A A a a a a a ESC = n [Function] Data Input Control [Code] <1B>H<3D>H<n> [Range] {0 =< n =< FF(Hex)} [Outline] Selecting equipment in which data input from the host is effective. • Each bit of n indicates as follows: • When the printer has not been selected, this printer abandons all the receiv[...]
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Page 23
— 21 — ESC > n [Function] Saving current setting [Code] <1B>H<3E>H<n> [Range] n = 0 or 1 [Outline] This command saves International character , Serial port baud rate, Print density , Auto power off time and maximum speed at Infrared communication to NV memory so that the setting can be resumed automatically when power on af[...]
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Page 24
— 22 — ESC ? n [Function] Reading magnetic stripe reader [Code] <1B>H<3F>H<n> [Range] {0 =< n =< 7(Hex)} [Outline] When the command is received the bicolor LED is shining in RED and the printer is waiting for the magnetic card to be swiped through the reader . If even after 10 seconds the card is not swiped the command i[...]
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Page 25
— 23 — 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). Items not cleared are as shown below . • Data inside the internal input buffer are not cleared. • Does not clear any data in the internal input buff[...]
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Page 26
— 24 — ESC D [ n ] k NUL [Function] Setting Horizontal T ab Position [Code] <1B>H<44>H [ <n> ] k<00>H [Range] {0 =< n =< FF(Hex)} {0 =< k =< 20(Hex)} [Outline] Specifying a horizontal tab position. •“ n ” indicates the no. of columns from the beginning to the horizontal tab position. At this time, n= se[...]
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Page 27
— 25 — ESC E n [Function] Specifying/canceling highlighting [Code] <1B>H<45>H<n> [Range] {0 =< n =< FF(Hex)} [Outline] Specifying/canceling the highlighting characters. •“ n ” is valid only for the lowest bit (n0). • This is effective only for font A (12 × 24 dots) • Dot configuration of a highlighted characte[...]
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Page 28
— 26 — ESC G n [Function] Specifying/canceling Double Printing [Code] <1B>H<47>H<n> [Range] {0 =< n =< FF(Hex)} [Outline] Specifying/canceling the double printing. •“ n ” is valid only for the lowest bit (n0). • Control by n is shown as follows. • This is effective to font A (12 × 24 dots) [Caution] • The pr[...]
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Page 29
— 27 — ESC J n [Function] Printing and feeding paper n/203 inch [Code] <1B>H<4A>H<n> [Range] {0 =< n =< FF(Hex)} [Outline] Prints data in the print buffer and feeds paper by n/203 inch. • This function is temporary and does not affect the feed operation thereafter . • The beginning of the line is to be considered as [...]
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Page 30
— 28 — ESC S n [Function] Setting serial interface communication speed [Code] <1B>H<53>H<n> [Range] {0 =< n =< 6(Hex)} {30 =< n =< 36(Hex)} [Outline] Sets the communication speed for the serial interface. The command is valid only when the printer is connected through a serial cable. It is not valid when using IrDA[...]
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Page 31
— 29 — ESC V n [Function] Specifying/Canceling 90 ° -right- turned Characters [Code] <1B>H<56>H<n> [Range] {0 =< n =< 1(Hex)} [Outline] Specifying/canceling characters 90 ° -right- turned character . “ n ” means the followings. [Caution] No underlines are attached to 90 ° -right- turned characters. [Default] The i[...]
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Page 32
— 30 — ESC Y n [Function] Specifying print density [Code] <1B>H<59>H<n> [Range] {0 =< n =< 5(Hex)} [Outline] Specifies the print density . “ n ” means the followings. [Caution] Higher density may lead to slower printing. Increasing the density allows Low battery to be detected easily . [Default] n = 3 (100%) [Sample [...]
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Page 33
— 31 — ESC Z [Function] Returning diagnostic information [Code] <1B>H<5A>H [Outline] The printer will return 32 bytes of information with the following structure: 1-22: Printer name up to 22 charachters. 23-25: Firmware version 26-27: Language version, described by two characters. 28-32: When the corresponding bit is 1, the function[...]
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Page 34
— 32 — BIT7 BIT6 BIT5 BIT4 BIT3 BIT2 BIT1 BIT0 Update via firmware interface Not in use Not in use Not in use Not in use Not in use Not in use Reserved, always 1 BYTE 29 BIT7 BIT6 BIT5 BIT4 BIT3 BIT2 BIT1 BIT0 Not in use Not in use Not in use Not in use Not in use Not in use Not in use Reserved, always 1 BYTE 30[...]
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Page 35
— 33 — BIT7 BIT6 BIT5 BIT4 BIT3 BIT2 BIT1 BIT0 Not in use Not in use Not in use Not in use Not in use Not in use Not in use Reserved, always 1 BYTE 31 BIT7 BIT6 BIT5 BIT4 BIT3 BIT2 BIT1 BIT0 Not in use Not in use Not in use Not in use Not in use Not in use Not in use Reserved, always 1 BYTE 32[...]
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Page 36
— 34 — ESC n1 n2 [Function] Specifying the relative positions [Code] <1B>H<5C>H<n1><n2> [Range] {0 =< n1 =< 255} {0 =< n2 =< 255} [Outline] The printing start position is specified in the number of dots (1/203 inch unit) from the current position. • Rightward direction is taken as plus and leftward direct[...]
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Page 37
— 35 — ESC ` [Function] Returning the battery voltage and Printer Head temperature [Code] <1B>H<60>H [Outline] When this command is send to CMP-10, the printer will return the current value of battery voltage and the current temperature of the printer thermal head. • Battery voltage is returned in the format: battery voltage × 10[...]
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Page 38
— 36 — ESC a n [Function] Aligning the characters [Code] <1B>H<61>H<n> [Range] {0 =< n =< 2(Hex)} [Outline] All the printed data within one line are aligned in the specified position. Depending on n value, positional alignment is carried out as in the table below: [Caution] • This is valid only when n is inputted at th[...]
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Page 39
— 37 — ESC c5 n [Function] Enabling/Disabling Panel Switches [Code] <1B>H<63>H<35>H<n> [Range] {0 =< n =< FF(Hex)} [Outline] Selecting the LF switch valid/invalid. •“ n ” is valid only in the lowest bit (n0). [Caution] • When the panel switch is disabled with this command, the LF switch is disabled. Therefo[...]
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Page 40
— 38 — ESC d n [Function] Printing and Feeding the paper by n lines [Code] <1B>H<64>H<n> [Range] {0 =< n =< FF(Hex)} [Outline] Prints data inside the buffer and feeds paper by n lines. Specified line does not remain. The beginning of the line is to be considered as the next printing start position. [Default] The initial [...]
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Page 41
— 39 — V alue 01 0 Not defined 1 Not defined 2 Paper or paper cover With paper and No paper or cover closed cover open 3 Not defined 4 Not used Fixed to 0 – 5 Not defined 6 Not defined 7 Not defined ESC v [Function] T ransmitting the printer status [Code] <1B>H<76>H [Outline] Current printer status is transmitted. Status sent out [...]
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Page 42
— 40 — ESC x n [Function] Selecting the time interval for automatically switching Off the printer . [Code] <1B>H<78>H<n> [Range] {1 =< n =< 3C(Hex)} [Outline] Sets the time interval after which the printer will be switched Off automatically if there is no incoming data through the Serial interface, there is no IrDA commu[...]
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Page 43
— 41 — ∨ ESC { n [Function] Specifying/Canceling the Inverted Characters [Code] <1B>H<7B>H<n> [Range] {0 =< n =< FF(Hex)} [Outline] Specifying/canceling inverted characters. •“ n ” is valid only for the lowest bit (n0). [Caution] • Inverted-printing means printing the line at 180 ° turned. • This is valid on[...]
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Page 44
— 42 — Memory Switch OFF (0) ON (1) 1 Slach 0 Normal 0 2 CR is ignored CR has the same action as LF 3 Default font A Default font B 4 Prints “ Low Battery ” . Does not print “ Low Battery ” . 5 ASB Invalid for default ASB V alid for default 6 Not in use 7 IrDA protocol enabled IrDA protocol disabled 8 Shift JIS for default JIS for defau[...]
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Page 45
— 43 — GS * n1 n2 [ d ] n1 n2 D1 ...... Dn [Function] Defining the Download Bit Image (LOGO) [Code] <1D>H<2A>H<n1><n2> [ < d > ] [Range] {1 =< n1 =< 7F} Defines horizontal size of downloaded image. {1 =< n2 =< F8} Defines the vertical size of downloaded image. [Outline] Defines downloading bit images of[...]
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Page 46
— 44 — GS / m [Function] Printing the Download, Bit Image [Code] <1D>H<2F>H<m> [Range] {0 =< m =< 03(Hex)} [Outline] Prints download bit image in a mode specified by m. • Modes can be selected by m are shown below . [Caution] • When data exist inside the print buffer , this command is ignored. • When a download bit[...]
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Page 47
— 45 — GS : [Function] Starting/Ending Macro Definition [Code] <1D>H<3A>H [Outline] Specifying starting/ending macro definition. Means termination when received while defining a macro. [Caution] • Maximum content available for macro definition is 3328 bytes. • A portion exceeding 3328 bytes is not defined. • Even with ESC @ (i[...]
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Page 48
— 46 — GS H n [Function] Selecting of Printing Position of HRI Code [Code] <1D>H<48>H<n> [Range] {0 =< n =< 3(Hex)} [Outline] Selecting printing position of HRI code in printing bar codes. •“ n ” means the followings. The HRI code refers to the bar code-turned characters so that you can read them. [Caution] The HRI[...]
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Page 49
— 47 — GS L nL nH [Function] Setting the left margin [Code] <1D>H<4C>H<nL><nH> [Range] {0 =< nL =< FF(Hex)} {0 =< nH =< FF(Hex)} [Outline] This command sets the left margin specified by nL and nH. The value of the left margin is [(nL + nH × 256) × 1/203] inches. [Caution] • This command only works when it[...]
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Page 50
— 48 — GS W n [Function] Setting the print area width [Code] <1D>H<57>H<nL><nH> [Range] {0 =< nL =< FF(Hex)} {0 =< nH =< FF(Hex)} [Outline] Sets the print area width specified by nL and nH. • The print area width will be [(nL + nH × 256) × 1/203] inches. [Caution] • This command only works when it is en[...]
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Page 51
— 49 — (3) When sufficient area cannot be secured even by executing the processing (2), the right space is decreased. • When bit image (or downloaded bit image) is developed, if the print area width is less than the minimum lateral width of the bit image (2 dots for single density , 1 dot for double density), the following processing is carri[...]
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Page 52
— 50 — GS ^ n1 n2 n3 [Function] Executing the Macro [Code] <1D>H<5E>H<n1><n2><n3> [Range] {0 =< n1 =< FF(Hex)} {0 =< n2 =< FF(Hex)} {0 =< n3 =< 1(Hex)} [Outline] Executing contents defined in macro. The following items are set for parameters n1 to n3. n1: The number of times of macro execution n2:[...]
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Page 53
— 51 — GS a n [Function] Enabling/Disabling ASB (Automatic Status Back) [Code] <1D>H<61>H<n> [Range] {0 =< n=< FF(Hex)} [Outline] This command selects the status item to be addressed by ASB (Automatic Status Back.) BIT7 BIT6 BIT5 BIT4 BIT3 BIT2 BIT1 BIT0 Not in use (0) Not in use (0) Not in use (0) Not in use (0) Not in [...]
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Page 54
— 52 — BIT7 BIT6 BIT5 BIT4 BIT3 BIT2 BIT1 BIT0 Not in use (0) Not in use (0) Not in use (0) Not in use (1) Not in use (0) Not in use (0) Thermal head is overheated (1) Not in use (0) BYTE 2 BIT7 BIT6 BIT5 BIT4 BIT3 BIT2 BIT1 BIT0 Not in use (0) Not in use (1) No paper or cover open (1) No paper or cover open (1) Not in use (0) Not in use (0) No[...]
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Page 55
— 53 — BIT7 BIT6 BIT5 BIT4 BIT3 BIT2 BIT1 BIT0 Not in use (0) Not in use (0) Not in use (0) Not in use (0) Not in use (1) Not in use (0) Not in use (0) Not in use (0) BYTE 4 [Caution] • If any status item is enabled, the status is sent to the host when this command is executed. After that time on, the status is sent each time an enabled statu[...]
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Page 56
— 54 — GS f n [Function] Selecting the font of HRI characters [Code] <1D>H<66>H<n> [Range] {n = 0, 1(Hex)} [Outline] Selecting the font of HRI characters in printing bar code. The type of font can be selected with “ n ” as follows: The HRI characters refer to the bar code-turned characters so that you can read them. [Cauti[...]
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Page 57
— 55 — GS h n [Function] Selecting the height of the Bar Code [Code] <1D>H<68>H<n> [Range] {1 =< n =< FF(Hex)} [Outline] Selecting bar code height. n denotes the number of dots in the vertical direction. [Default] n = A2(Hex) 162 dots [Sample Program] See Sample Program and Print Results for GS w .[...]
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Page 58
— 56 — 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 =< m =< 6 The definitions of “ k ” and “ d ” vary with the bar code system. (2) 65 =< m =< 73 The definition[...]
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Page 59
— 57 — [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. • For JAN13, the bar code is printed when 13 bytes of bar code data have been entered, and the subsequent data is handled as norma[...]
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Page 60
— 58 — JAN-8(EAN) This bar code, consisting of numerals only , has a fixed length of 8 columns; a 7- column number entered from the host or application software plus a check digit (8th column) automatically calculated inside the printer . If the 8th-column numeral is sent from the host, the entire bar code will be printed as it is. CODE39 This [...]
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Page 61
— 59 — When sending print data, note these points: (1) Each string of bar code data must begin with a code set select character (CODE A, CODE B, or CODE C), which selects the first code set to use. (2) Every special character is specified by a combination of two characters: a brace “ { “ followed by one character . A brace “ { “ itself [...]
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Page 62
— 60 — T ype UPC-A UPC-E JAN-13 JAN-8 CODE39 ITF CODABAR (NW -7) CODE93 CODE128 Print Sample | Outline of Symbol 12-column fixed-length bar code consisting of numerals only . 8-column fixed-length bar code consisting of numerals only . Abbreviated version of UPC-A. 13-column fixed-length bar code consisting of numerals only . 8-column fixed-len[...]
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Page 63
— 61 — ← Height = 80, Magnification = 4 ← Height = 30, Magnification = 2 ← Height = 50, Magnification = 3 GS w nL nH [Function] Selecting the horizontal size (Scale factor) of the Bar Code [Code] <1D>H<77>H<n> [Range] {2 =< n =< 4(Hex)} [Outline] Selecting bar code width. n denotes the number of d[...]
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Page 64
— 62 — BLACK MARK FUNCTION ESC l n [Function] Specify/canceling black mark function [Code] <1B>H<6C>H<n> [Range] n = 0 or 1 [Outline] Specifying / canceling the black mark function. [Caution] Black mark function uses PE sensor of CMP-10 for black mark sensor . Therefore, the condition of detecting paper end and detecting open [...]
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Page 65
— 63 — Note for Black Mark Function 1. Error detection at black mark mode Paper end is checked during printing but black mark is not checked. After receiving FF command, printer checks black mark and paper end. Once black is detected and white is detected again within 6 mm paper feed, it is determined as black mark. If the white is not detected[...]
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Page 66
— 64 — 3. CHARACTER CODES T ABLE WPC1252[...]
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Page 67
— 65 — 4. PROGRAMMING CONSIDERA TIONS 4.1 Notes at Lowered Battery V oltage When battery is low , highly loaded printing such as printing of graphics with much black area may cause power off during printing. When executing high loaded printing, charging the battery before lowing of battery voltage is recommended while keeping checking the infor[...]
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Page 68
— 66 — 5. SERIAL INTERF ACE 5.1 Specifications (1) Data transfer system Asynchronous, half duplex (2) Baud rates 1200, 2400, 4800, 9600, 19200, 57600, 115200 bps (Selectable by command) (3) Serial data configuration Start bit: 1 bit Data bit: 8 bits Fixed Parity bit: No parity Stop bit: 1 bit (4) Signal polarity RS-232C • Mark = logic “1”[...]
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Page 69
— 67 — 5.3 Explanation of Input/Output Signals (1) RXD This is signal, receiving data from the host. On occurrence of framing error , overrun error , or parity error , the data is printed as “ ? ” . (2) TXD This signal is for data flow control by X-ON/X-OFF . If data remains in the printer ’ s input buffer is 2048 bytes or less, the print[...]
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Page 70
— 68 — 5.6 Electrical Characteristics RS-232C Circuit Input (RXD) Output (TXD) <Printer side> <Host side> Equivalent MAX232 <Printer side> <Host side> Equivalent MAX232[...]
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Page 71
— 69 — 6. INFRARED COMMUNICA TION SPECIFICA TIONS 6.1 Basic Specification (1) Interface: Infrared transceiver mode (2) Data transfer system Half duplex Asynchronous (3) Baud rate: 9600, 19200, 38400, 57600, 115200 bps (Max baud rate can be set at 57600 bps by command.) (4) Data configuration Data length 8 bit Stop bit 1 bit Parity None (5) Logi[...]
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Page 72
— 70 — 7. MECHANICAL SPECIFICA TION 7.1 Printer Mechanism (1) Print method Line thermal printing (2) Number of dot 384 dot/line (3) Head density 8 dot/mm (4) Print width 48 mm (5) Sensors Head temperature Thermistor Paper end Photo Interrupter Head-up Mechanical switch (6) Paper Paper width 58 mm+0/–1 Paper thickness 65 µ m Recommended paper[...]
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Page 73
— 71 — 8. POWER RELA TED SPECIFICA TIONS 8.1 Battery (1) Battery type Lithium-ion battery pack (2) Maximum capacity 2000 mAh (3) Number of sells 2 (4) Maximum output voltage 4.2V/Cell (5) Cut-off voltage 2.75V/Cell (6) Standard charge 1000 mA, 23ºC, 4.2V/Cell, 3 hours charge (7) Initial capacity 1950 mAh or more (After standard charge and disc[...]
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Page 74
— 72 — 9. AC ADAPTOR (1) Input voltage 100V ~ 240V AC (50/60 Hz) (2) Input current 250 mA (3) Rated output 9V ±5% (4) Efficiency 65% or more (AC 100V/50 Hz full load) 70% or more (AC 240V/50 Hz full load) (5) Ripple and noise voltage Less than 150 mVp-p (9 VDC) (6) Insulation test More than 100M ohm (DC 500V , 1 minute, between primary and sec[...]