M304X SERIES LINE PRINTER OEM MANUAL
r REVISION RECORD Edition Dam Lwblishd 01 *ug., 1 9 8 3 02 No”.. 1 9 8 4 f3ewritren 03 .I”“.. 1985 Rer”ped and dePCripti.3” Of. RS-232-C interfact! and aprionr added. 04 Aug., 1 9 8 5 Pager 440.96 added 05 Jun., 1986 Cha,xerr 4 to 9. pages 06 Nov., 1986 Revised Content$ P a g e r 4-3.4-28.4-31 : -4-39.441. 4 4 2 , 4.46. 449.6-7.6-8.6.16.9-6 2-2.2.3. P a g e r 2-3.44 and Chamer 8 Chacmr 9 deleted. Swcification N O modified 2.6 10 2-8. 2.10 to 2-20 reused. revised. . : 802P.
FUJITSU FWITS” LlMlTED In1er”atim.l Marketing MaN”O”di l-s-1. Chiyoda-k”. Tokyo 100.m.PAN TEL 03.216-3211 FAX: 03-213-7174.03-218-9353 TLX: ,229s Cable: “FUJITSU LlMlTED TOKYO” FUJITSU AMERICA INC. 3055 Orchard Drive. San ,ore. California TEL: 408.9468777 F A X : 408-945-131* T L X : 230-176207 TWX: I9101 3 3 8 - 2 1 9 3 951342017. U.S.A. FUJITSU CANADA INC. 6260 Northwen Drive. Misksaqa. Taronro. Ontario. CANADA TEL: 114161 6734666 FAX: 416.673-8677 TLX: 9 6 8 1 3 2 FUJITSSU EUROPE LlMlTED Roy.
CONTENTS INTRODUCTION ............................................... CHAPTER 1 ................................................... Introduction 1.1 l-l l-l SPECIFICATIONS ............................................. CHAPTER 2 Printer Specifications ......................................... 2.1 Ribbon Specifications .......................................... 2.2 Installation Conditions ........................................ 2.3 2.4 Optional Unit ..................................................
CHAPTER 6 RS-232-C INTERFACE ......................................... Operation Outline .............................................. 6.1 Interface Signals .............................................. 6.2 Interface signal lines ..................................... 6.2.1 Physical specifications of interface signals ............... 6.2.2 Character and Control Codes .................................... 6.3 Character codes ............................................ 6.3.1 6.3.2 Control codes ............
ILLUSTRATIONS series line printer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 - 2 Figure 1.1 M304x Figure Figure Figure Figure 2.1 2.2 2.3 2.L Figure Figure Figure Figure Figure Figure Figure Figure Lgure 2.5 2.6 2.7 2.8 2.9 2.10 2.11 2.12 2.13 Figure 2.14 Figure 2.15 Figure 2.16 Figure 2.17 Figure 2.18 Figure 2.19 Outer dimensions (with the forms rack) ................... Operation and maintenance area (with the forms rack) .... Outer dimensions (with the powered stacker) ...
Figure 5.9 Figure 5.10 Figure Figure Figure 6.1 6.2 6.3 Figure Figure 6.4 6.5 Figure 6.6 Figure 6.7 Figure 6.8 Figure 6.9 Figure 6.10 vi Centronics-compatible interface connector pin assignment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 - 10 Loading the data in the VFU . . . . ..*....................... 5 - 15 6-2 RS-232-C interface circuit ..*............................ RS-232-C interface signal transmitter and receiver . . . . . . .
TABLES Table Table Table Table Table Table Table Table 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 Printer specifications .................................... Ribbon specifications ..................................... Electrical specifications ................................. Environmental conditions .................................. Powered stacker specifications ............................ FCT unit specifications ................................... Perforation dimensions ....................................
CHAPTER 1 INTRODUCTION 1.1 Introduction The M304x series (M3040, M3041, M3042, and M3043) is Fujitsu's latest introduction of highly cost-effective line printers using a print band and designed for OKM applications. The printing speeds of M304:x series models are 390, 750, 1090, and 1420 lpm for a 48-character set, and 3013, 600, 900, and 1200 lpm for a 64-character set respectively. The M304x series provides the following features: Superb Print-quality: up to six-part forms.
Figure 1-2 1.
CHAPTER 2 SPECIFICATIONS This section describes specifications of the M304x series :Line printers, ribbons, and forms. 2.1 Printer Specifications Table 2.1 lists the printer specifications. For electrical specifications and ambient conditions, see Section 2.3. For standard interface specifications, DPC, Centronics or RS-232-C interface, see Chapter 4, 5, or 6. B02P-1500-OOOlA...
Table 2.1 Printer specifications Item i48-, 64-, and 96-character sets (ochers Print band ~ Type ' Replacement Print j 48-character set ~64-character set ( 96-character set Character spacing I rotating print band str~xk 390 / 750 lpm ~ 600 lpm ~ Ipm 3@0 lpm 210 lpm 2.
2.2 Ribbon Specifications This printer uses an endless cartridge type or open-type ribbon, which only moves in one direction. The ribbon is replaced by the operator. The ribbon specifications are as f0110ws: Table 2.2 Ribbon specifications Item I~ ~~ Specification I Parts number ~ B87L-0840-0401A B87L-0840-0402A I (black) (blue black) Fabric Width Length Ink - .~ Storage blue I life black ~-~-2 years - _..__~_ 2.
900 (35.43") -9 x3040 xi3041 M304? M3043 Figure 2.1 Outer dimensions (with the forms rack) 2 - 4 B02P-1500-OOOlA...
i- Figure 2.2 Operation and maintenance area (with the forms B02P-1500-OOOlA...
Table 2.4 Environmenral I M3040 Ambient conditions I Temoerature When ranee 15’C t o conditions M 3 0 4 1 condftianM304:T-rTA 40aC (41’ t o 104’F) I 20% to 80% P.8 290~ (84.20~) ~Temperature range / - 20-Z t o 5O’C C-4’ t o 122’F) “CX ( Temperature gradient ! lS’C/h (27”F/h) or below operating Relative 10% to 90% RH (Without condensation) when Maximum wet-bulb ZY’C (84.2’F) I temperature Heat dissipation (6Lvcharacter 136-column printing) set 360 440 kcalfh 15 3 0 I Air flow 2.
700 (27.56") r (,T '990 1 M3040 M3041 M3042 M3041 M3042 1050 r-14134.) M3043 M3043 Figure 2.3 Outer dimensions (with the powered stacker) The powered stacker can be operated using switches on the switch panel at the top of the stacker. For switch panel operation. refer to M304X Series Line Printer Operator's Guide. BOZP-1500-OOOlA...
Operation area for M3040/M3041/M3042 with powered stacker attached Maintenance area f'or M3040/M3041/ M3042 with powered stacker attached 1 Operation area for M3043 with powered stacker attached -_. ..-r T’ - el [5::3 Maintenance area for M3043 with powered stacker attached Figure 2.4 Operation and maintenance areas (with the powered stacker) 2 - 8 B02P-1500-OOOlA...
(2) Long-line interface unit (B02B-1500-0004A) The long-line interface unit can transmit and receive differential-mode interface signals via signal lines which can be up to 150 m in length. (3) FCT units (BO2B-1500-0002A/OOO3A) The FCT unit reads format control data from the FCT and sends the data to the Table 2.6 lists the FCT unit specifications. Figure 2.5 shows the printer. FCT unit. Tabl~e 1~ 2.
(5) 'Paper puller (B02B-1500-0061A/0062A) The paper puller, installed in the forms rack, pulls printed forms to improve forms folding. The paper puller is supplied only as a parts kit (B02B-1500-0061A) or as an assembly (B02B-1500-0062A) with a forms rack. The paper puller is operated in the same way as the power stacker, that is, by using the par~e!~ installed at the upper part of the forms rack. For details, refer to M304X Series Line Printer Operator's Guide. Figure 2.6 shows the paper puller. Figure 2.
2.5 Form Specification Continuous printers. horizontal See Figure fanfold forms, single copy or multiple copy, are used for the The forms must have pin feed holes evenly lined up on both sides and perforations that run perpendicular to the forms feed direction. 2.7.
(2) Forms container If the forms catch on container lids when being fed, feed errors may occur. Therefore arrange the lids as shown in Figure 2.9. Allowable Figure 2.9 Forms Unallowable container lids Inside space between the forms and container should be 4 to 7 mm (0.16" to 0.28"). The bottom of the box must be flat. See Figure 2.10. (Top view) (Side view) f space Figure 2.10 Shape of the forms container The forms container height must be 330.
(2) Positions and dimensions of the printing area Figure 2.11 illustrates the distances between the leftmost and rightmost print-position centers of the printing area and the pin feed hole center. + 136th print posiiion I st print + position km--wlxlm -t $A - 342.9 mm - B (13.5") FOTC length -+ I+ --I B- maximun: A- maximum: 63.5 mm (2.5") Figure 2.11 Leftmost and rightmost print 68.6 mm (2.7") positions (3) Pin feed holes Pin feed holes must be round. are given in Figure 2.12.
Pin feed holes that touch horizontal perforations may damage the paper. Pin feed holes must not overlap horizontal perforations. Hanging hole chad will likely cause problems with the printer. Chad may stick to the printing area, resulting in printing cutoff characters. Do not use such forms. (4) Perforations Perforations must be shown in Table 2.7. straight. Table 2.
2.5.3 Multiple-part forms This printer utilizes up to 6-part forms. Interleaved carbon paper utilizes 6-part forms and is not included in the number of parts. Forms with interleaved carbon paper, carbon-backed forms, and forms using carbonless copy paper are available as multiple-part forms. Each part of multiple-part forms They must be of must meet the specifications in Subsections 2.5.1 and 2.5'.2. the same length and width.
(2) Misalignment of paper Misalignment between layers should be within the range shown in Figure 2.15. = 0.5 mm or less A: Misalignmen;t holes B: Misalignmen,t c: MLsa1ignmen.t perforations D: Misalignment perforatiom of pin feed of edges of horizontal of vertical or less Figure (3) Thickness 2.15 of Allowable incorrect alignment of multiple-part forms parts Thickness of parts should area must be within 0.076 (including edges) is 0.6 bond weight of each layer be uniform.
When multiple-part forms are used, the forms can have different weights of parts (layers), HOWeVer, the weight of each part should be that given in Table 2.8 according to the number of parts. When forms ar too thick, density fading between the top and bottom of each character will occur. When forms are too thin, they will be damaged and a feed defect will occur. (4) Forms causing feed defects The following forms are likely to cause feed defects, excluding those described before: .
Forms allowable Figure 2.5.4 Ambient conditions 2.18 for feed direction Unallowable Self-adhesive label forms forms The following are the ambient conditions in storage and usage: (1) Storage Temperature should be with 10°C to 30°C and, relative humidity (2) 30% to 70%. Usage Temperature should be within 1O'C to 30°C, and relative humidity 30% to 70%.
2.6 Format Control Tape (FCT) The 8- and 12-channel format control tapes (FCT) are used for loading vertical format control data into the forms control buffer (FCB) o:E the printer using the FCT unit. FCTs must conform to the following FCT specifications: 2.6.1 Medium quality Medium used for the FCT should be: Total Light thickness: 0.100 to 0.110 mm (0.0039" to 0.0043") 5% or less transmittance: The FCT made up of a polyester resin film and paper would be stronger at tensile, tearing, and folding. 2.
,3.40 k 0.04 (1.000”‘0.002~) 9.96 + 0.05 Refe 4~.~04fO,ljO (1.6:22”?0.005”i 30.602tO. I i (0.8 I l”f0.004”) (Channel-l -‘- - 0 . 0 3 ---. ,n Inl”+o -. . - - -e -& .A\: T o t a l t o l e r a n c e + 0.005 inches for lOsprocket-hole pitches 0.013 inches for 50 sprocket-hole pitches ,&channelFCT) side) -0.001") i tI - - , .77*0.05 (0.0697”‘0.0020*) 1) The Y-Y' line is a sprocket-hole Y‘ center line perpendicular to the reference line. 2) When diameters of damaged sprocket holes become 0.
CHAPTER 3 CONFIGURATION The printer consists of the mechanical unit, control unit, forms rack, rear door and cabinet. The top cover and front door are included in the cabinet. The operator panel, control circuit board, and power supply are included in the control unit. Figure 3.1 shows their locations. Rear door Operator pane1 / Powersuppiy \ Figure 3.1 Printer Front door configuration BOZP-1500-OOOlA...
3.1 Mechanical Unit The mechanical unit consists of the following: . . . . Base unit (includes the print-band drive section) Print unit Forms feed unit Ribbon unit (1) Base unit The base unit is fixed to the cabinet frame. A platen, a print-band drive motor, a pair of band pulleys, and a variable-reluctance transducer for detecting each type location are in the base unit. The print-band drive section has a simplified structure for easy print-band replacement by the operator.
3.2 Control Unit The control unit consists of the following (see Figure 3.2): . . . . Control circuit operator panel Hammer magnet driver (with the register unit only for M3l343) Power supply (1) Control circuit The control circuit is on one PC board and is installed in the maintenance section, which can be accessed by opening the forms rack at the rear of the printer. The control circuit uses 2 microprocessors; one for interface control and the other for printer control.
(only for 7 Hammer magnet I L--------J Mainframe Inpuf/outpuf mterface Mechanical unit COllt~Ol circuit L- --/ .AC input Power supply Figure 3.2 Control 3 - 4 unit B02P-1500-OOOlA...
CHAPTER 4 DPC-COMPATIBLE INTERFACE This chapter describes the DPC-compatible interface used for the I/O interface connected to the M304x series line printer (printer). 4.: Operation Outline Basic printer operations, data transfer, printing, and forms feed are shown in Figure 4.1. Control code or the Skip 01 Space command with the Paperlnsrruction signal / I F Dara transfer cycle Print data Data rransfer c:ycle Print data Data edition Data Request= 1 Print cycle I j Figure 4.
line data is received within 14 ms, the print speed of the printer drops and does not achieve the rated print speed. If the control code or the Paper Instruction signal is received without print data, the printer does not print and only feeds forms. If the received print data is more than 132 or 136 bytes (one of them is selectable), data of the 133rd, 137th or higher byte is ignored. If the received print data is less than 132 (or 136) bytes, the remaining data is printed as spaces.
Table 4.1 DPC-compatible interface signal lines (Positive logic) Signal level (+) Signal name kite Machine Leady mire 1 0 5v 0 1 Online j Direction COiltfSlltS System-Printer This signal is high (logical 1) when the following conditions are satisfied for the printer: . Power has come on and all voltage levels are nollna1. 1 i EE H~~"b,"~~:'i:'~~:",e,.,,ed. Initlallzatxon process has been completed. . The hammer drive system is normal. . An error is nor dececced.
Table 4.1 DPC-compatible Signal name interface signal lines (Positive Direction logic) - continued COIltentS System-Printer Write Information Parity (WIFP) Even parity signal for data from mainframe. ! parity is also available by setting. This signal can be ignored by setting. Write Check (++) If a parity error occurs in !JIF signals from the / sysrem, this signal is logical 1. paper Moving Cc-) l5V oi s signal is logical Lwhen rhe paper incwes.
The START/STOP switch is pressed. DTRQ WSB Figure 4.3 Basic data transfer operation WMR DTRQ I Max 530nS ! Min -rSOnS \ WSB A 1 Min ( WIFl- VIF8,VIF P, PI Data stable BCLR Figure 4.
4.2.2 Physical specifications of interface signals The physical specifications of DPC-compatible interface signals electrical characteristics, interface cable specifications, and assignment specifications. (1) Electrical consist of connector pin characteristics Signal levels must be within the following ranges: Low level High level Note: 0.0 to +4.0 v +2.4 to +5.0 V The signal levels above are at the interface conn#ector. Incorrect signals may be sent in power-on and pow,er-off.
(3) Connectors and pin assignment Either an Amp-type car Winchester-type connector is available for the interface connector of the printer. Figures 5.6 and 5.7 show Amp-type and Winchester type connector pin assignment. NO. Signal name 1 / No. I Signal name ( No/ (WIFS) (WIF 3) RTN I j 19 WIF 1 3 (WIF 1) P.
Write Check Ccnnector specifications MRA50S-D5J made by Winchester (Printer side) MRAC50P-JTDH8 made by Winchester (Cable side) Figure 4.3 4.7 DPC-compatible Character and Control interface connector pin assignment (Winchester type) Codes Table 4.2 shows character and control codes. In the table, areas enclosed with a bold faced line indicate control codes, whereas the other areas indicate character codes (ASCII codes). The table shows character codes of &bit mode.
Table 4.2 Character (ASCII) and control codes Note: Codes with an asterisk in the table above vary with the print band for each country as follows: Code X’23’ X’24’ X’f+O’ X’SB’ X’SC’ X’SD’ X’SE’ C0llntrJ U.S.A.
4.3.1 Character codes The ASCII code is used as the standard character code. If the printer receives a character code not specified in the character code table or not included on the print band, the code is changed 130 the space code (X.20') and no character is printed for the code. If a character code from X'AO' to X'FE' is received in 7-bit mode, the WIF8 signal can be ignored (regarded as 0) by setting, and a character corresponding to leach code from X'20' to X'7E' is printed.
. Mode without forms feed The printer does not feed forms after printing. When receiving the CR code without character codes, the printer does nothing. . Automatic spacing mode (IF code mode) The printer spaces after printing. When receiving the CR code without character codes, the printer only spaces. The CR code is treated as the LF code in this mode. One of the modes above is selectable by setting at the operator panel. For the setting method, refer to Operator's Guide.
(2) BOF The BOF is defined as follows: . When the FCB data has been loaded, the BOF is the line to which the BOF channel is first specified in the FCB or FCT. (The BOF channel can be specified with any channel number at the operator pane.L. For the channel specification method, refer to Operator's Guidq. . When the FCB data has not been loaded or when the SOF channel is not contained in the FCB, the BOF is the last line on the form (page) without the skip-over perforation specification.
If the data code expressed by WIFl to WIF8 is X'6C', X'6D', or X'6E' when the Paper Instruction signal is 1, the printer treats the data code as the start code for FCB data loading and loads into the FCB the data following the start code, until the printer receives the stop code X'6F'. The stop code is also sent with the Paper Instruction signal. The transferred data is first loaded into the print data buffer (PDB) in the IBF.
Even if FCB data other WIF7 is ignored (treated control data and stored when stop code X'6F' is than X'6F' (stop code) is received with WIF7 = 1, a 0) and WIF6 to WIFl are treated as format in the FCB. However, WIF7 should be 0, except used. The total number of bytes contained in the FCB data LlHlL2H2...LnHn must be even. If it is odd and the stop code X’bF’ follows, an error occurs.
- Perforation - Line 4: TOF (ch.1) Line 7: ch.5 Line 1 1: ch.4, ch. IO : Line 2 1: ch.6 Line 31: ch.7 Line 42: ch.10 Line 51: ch.1 I, ch.8 Line 60: BOF (ch.12) - - - - - - - - - - - - - - - - - - - - Figure 4.10 Channels specified for BOZP-1500-OOOlA...
T a b l e 4 . 4 VPU Data Line seauence 1 6C 2-7 00 98 10-13 j 12/ al 7 I 6/j/4 I3i21l Data meaning l-3 01 00 i 00 cnannel 11l1019/ data example i I 5-6 i 1 / I , i 1 I I i ! I / I / / I I Channels 11 BOF (Channel 4 - 16 B02P-1500-OOOlA...
(2) Format specification by format control tape (FCT) The FCT is a looped paper tape with punched holes and sprocket holes for The punched hole data is read by the FCT unit and sent to the feeding. printer to notify it of a forms feed format. Figure 4.11 is an example of the FCT and shows the relationship between a forms feed format and punched holes. EGLUE Channel number I 0 (Perforation) ____ -------------- ---;-.
There are 2 types of FCT: 8-channel and 12-channel. Figure 4.11 shows a 12-channel FCT, where each FCT sprocket hole corresponds to each line of the form. Punched holes, called channels, indicate special positions of the forms, and are used for forms feed control by software. This is the same as for 8-channel FCTs. When a new forms feed format is used, the old FCT must be replaced with one for the new forms feed fornLat.
(3) Format specification from the operator panel The number of lines per page is used to specify the page length at the operator panel. Thus, a page length specified with 6 LPI differs from that specified with 8 LPI even if the form is the same length. The number of lines skipped to avoid printing on or too near a perforation is also specified at the operator panel. (Skip-over perforation feature) For the setting method, refer to Operator's Guide. Figure 4.
Table 4.5 Skip commands xxx00010 ! 02 xxx00100 I 03 I Channel 4 xxx00101 j 05 I channel 5 xxx00110 -.~. xxx00111 I 1 ~x x x 0 1 0 0 0 -1 xxx01001 i I cl-annel 3 06 Channel 6 07 channel 7 ,,--,f channel 8 09 aw.nnel 10 x x x 0 1 0 1 0 ~ OA Channel 11 x x x 0 1 0 1 1 ; OB channel 12 x x x 0 1 1 0 0 I cc xxx01101 x x x 0 1 1 1 0 x x x 0 1 1 1 1 OD I Error (no specified channel) 1 OE i OF I x: Do not care.
WIF8 is ignored in 7-bit mode. commands. WIF5 must be 0 because WIF5 indicate Space If no channels are specified in the FCB, the printer detects an error and only prints, it does not feed forms. Because commands X'OC' to X'OF' specify invalid channels, the printer detects then as errors. (2) Space commands Sopace commands feed forms the specified number of lines after printing. If data WIFl to WIF8 sent with the Paper Instruction signal is the same as the that shown in Tables 4.6 and 4.
space commands are used in the following modes: . 15line feed mode A maximum of 15 lines can be fed. WIF6 to WIF8 are ignored. . 63-line feed mode A maximum of 63 lines can be fed. WIF7, WIF6, and WIF4 to WIFl the number of lines fed. WIF8 is ignored. One of these modes can be selected at the operator panel. selection method, refer to Operator’s Guide.
CHAPTER 5 CENTRONICS-COMPATIBLE INTERFACE This chapter describes the Centronics-compatible interface used es the I/O interface to the-M304x series line printer. 5.1 Operation Outline Basic printer operations which are data transfer, printing, and forms feed, are shown in Figure 5.1. Conrrolcode or FCB command Data transfer cycle Forms feed cycle Figure 5.1 Basic operations The printer goes online when one of the following conditions occurs (see Section 5.2 for itnerface signals): .
After printing, the printer performs forms feed as specified by the control code or VPU command. When the forms are fed to the line preceding the last line printed, the Acknowledge signal goes to 1 and the Busy signal goes to 0, enabling print data to be received for the next line. Thus, the data is received at the same time as forms feed. The printer goes offline (the deselect state) when one of the following conditions occurs: . When the START/STOP switch is pressed: .
Table 5.1 Centronics-compatible interface signal lines Signal name Signal level (+) 1 Data Bit 1 to Data Bit 8 (DBL-DBB) Direction COIlCentS System---Printer O These signals are data (character code, FCB data, control code) input from the lost co the printer. DBS is used when the 12,5-character-set print band is used. (For ASCII 'i-bit codes, DBS can be ignored.) 5 V 0 Data Strobe 0 su [nput Prime 0 SV This signal initializes the printer.
Table 5.1 ~ Signal ! level Signal name ~ ~ ~ (+) j Syseem-Printer ~I~- ~ I ~ I I 'aper Empty 5 v 0 i I i / 0 c5 v 15v/ Logic Ground ~ / ! i ~-~-! aassis I / - I ( 0 I - signal lines - continued COllCUlCS I I j i Ihis signal is when :he printer goes online by i pressing of :he START/STOP switch without the i fault state. This signal is also issued when the / DC1 code is received, because the printer goes / online. 1 :' dlthout this signal, the hosi cannot transfer 1 data.
Select Strobe -I +, , -, / A c k n o w l e d g e A, /- ,i D = 4 us OT more E = 2.5 us to 5.5 /a F=lus Figure 5.2 Character code transfer timing Control code Transferred data I I Busy Acknowledge A = 1 /JS or more B = 1 ps or more c = 1 l.lus or more E = 2.5 !JS to 5.5 US H=3ps E L-. + The control code is the CR, LF, FF, VT, DEL, BEL, or ESC code. F i g u r e 5 . 3 C o n t r o l c o d e r e c e i v e timin:g BOZP-1500-OOOlA...
DC1 code Transferred data I I Strobe Busy Acknowledge -7-rF I D ! E.4 Select Note: P-J This is the timing chart for when the DC1 code is received while the Select signal is 0. When the DC1 code is received whil#e the Select signal is 1, the Select signal is ignored. Figure 5.4 DC1 code receive timing chart 5 -6 B02P-1500-OOOlA...
Data Bit 1 1 Data Bit 8 Transferred data ///////// Undefined //////// u L--- Strobe A Busy Acknowledge B Select =i Fault A = 2.5 MS or more B=lOO~oorless Note: When receiving the DC3 code, the printer goes offline and does not issue the Acknowledge signal. Figure 5.5 DC3 code receive timing VFU command code X‘IF Data Data Bit 1 1 X'IF Data Data Bit 8 Strobe A = 2.5 /a or more B= lOO/~sormore Note: The Busy signal is set to 1 each time FCB command code X'IF' and data are sent. Figure 5.
Start code VFU data X‘ID' I Stop code X'IE' I Data Bit I l Data Bit 8 Data Strobe Note: The Busy signal is st to 1 ech time an FCB data byte is received during a sequence between the start and stop codes. Figure 5.7 FCB data receive timing chart 5.2.2 Physical specifications of interface signals The physical specifications of Centronics-interface signals consist of electrical specifications, interface cable specifications, and connector assignment specifications.
-Driver - Receiver Figure (2) Interface +5 v 5.8 Centronics-compatibel SN7414 interface signal driver/receiver cable Shielded twisted-pair cables must be used for the interface cable. cable length must be 25 feet (7.62 m) or less. (3) Connector and pin The assignment An Amphenol-type can be used as the interface connector to the printer. Figure 5.9 shows connector pin assignment. BOZP-1500-OOOlA...
Pin / No. i Data Strobe 19 / Data Bit 1 20 ; Data Bit 2 4 Signal naloe I (Data Strobe) RTN I 1 2 I I Pin NO. Signal name / (Data i Bit 1) RTN (Data Bit 2) RTN I Data Bit 3 22 (Data 5 Data Bit 4 23 (Data Bit 5) RTN 6 Data Bit 5 24 (Data Bit, 5) KCN 7 Data Bit 6 25 (Data Bit 6) RTN 8 Data Bit 7 26 (Data 9 Data Bit 8 27 (Data Bit 8) RTN Ackmwledge 28 ~ iAckmwledge:l -4RTN 29 1 ,I (Busy) RTN 10 11 Busy 14 16 Note: 1 Sel.
5.3 Character and Control Codes Table 5.2 shows character and control codes. Table areas enclosed in boldfaced lines contain control codes, other areas contain character codes (ASCII codes). The table shows character codes for a-bit mode. In 7-bi.t mode, character codes X'OO' to X'7E' can be used. Character codes with an asterisk vary with the print band for each country, as shown in the lower table. Table Noie: 5.
5.3.1 Character The AS~CII codes code is used as standard the character code. If the printer receives a character code not specified in the character code table or not included on the print band, the code is changed to the space code (X120') or to a character code specified by setting, and no character is printed.
c. FF code (X'OC') When receiving the FF code, the printer advances the form to the channel-l position (TOF) specified by data in the FCB or format control tape (FCT). When channel 1 is not specified, the printer treats the first line on a page as the TOF and advances the form to that position. d. CR code (X'OD') The CR code indicates the end of a line. When it receives the CR code, the printer prints characters corresponding to the received character codes starting from column 1.
(4) DC1 code (X'll'f and DC3 code (X113') When it receives the DC1 code, the printer goes online a.nd can receive data from the host. The DC1 code is the only code receivable when the In onli.ne mode, the printer is in the busy state (Busy signal = 1). printer sets the Select signal to 1 and turns on the START/STOP lamp on the operator panel. When it receives the DC3 code, the printer goes offiine (deselect state). In offline mode, the printer sets the Select signal TIO 0 and turns off the START/STOP lamp.
5.4.1 Loading from the mainframe to the FCB The forms feed information must be loaded in the FCB before froms feed, except when an LF, FF, or CR control code is specified. The data loaded in the FCB is used for forms feed control by the VT or FF code or the FCB command transferred just after the print data. Following to the start code (X'lD'), the forms feed data is sent in Z-byte units for every line and is terminated by the stop code (X'lE'). Figure 6.10 shows an example of loading the data in the FCB.
5.4.2 Loading from an FCT to the FCB The FCT is a looped paper tape with punched holes and sprocket holes for feeding. There are 2 types of FCT; &channel and 12-channel. The punched hole data is read by the FCT unit and loaded in the FCB. The FCT is read automatically when the printer is turned on or when the RUN switch on the FCT unit is pressed in offline mode. The RZN :switch enables a new FCT to be read.
5.5 FCB Commands A FCB command is sent from the host via the I/O interface, to control forms feed. Following the FCB control code (X'lF'), a l-byte FCB command is issued. The n-line Skip commands and Skip to Channel-n commands are FCB commands. 5.5.1 n-line Skip commands When one of the data items shown in Table 5.3 follows the FCB command control code sent after print data, the printer determines the data to be the n-line Skip command.
5.5.2 Skip to Channel-n commands When one of the data items shown in Table 5.4 follows the FCB command control code issued after print data, the printer determines that th,e data is the Skip to Channel-n command. The printer prints all the data in the PDB and advances the form to the line corresponding to the specified channel position in the FCB data. Table 5.4 shows the relationships between the Skip to channel-n command data and channel numbers. Table 5.
CHAPTER 6 RS-232-C INTERFACE This chapter describes the RS-232-C interface used for the I/O interface connected to the M304x series line printer (printer). The printer conforms with the EIA RS-232-C interface logical level and has various functions. 6.1 Operation Outline The basic printer functions are as follows: - Feeds forms according to Line Feed (LF), Carriage.Return (FF), and Vertical Tab (VT) codes.
6.2 ,Interface Signals This section explains specifications. 6.2.1 Interface the signal interface signal functions and physical lines The RS-232-C interface uses negative logic when the positive voltage is 0 and the negative voltage is logical 1. Table 6.1 lists the RS-232-C interface signal lines and their functions. Table Signal Signal name Received @.D) I 7 interface lines I 1 I signal Funceions This signal line receives serial data from the host.
Transmitted Data (TD) and Received Data (RD) lines are connected to the universal synchronous asynchronous receiver/transmitter (USART) through a transmitter/receiver (T/R). The Data Terminal Ready (DTR), Request to Send (RTS), and Clear to Send (CTS) control lines are provided for these data lines and are also connected to USART through the T/R. The USART transmit/receive request line (IRQ) is connected to the interface microprocessor (MPU) via &bit bus lines and address lines.
Table L Signal name Data Set Ready (DSR) %ta Terminal .eady (DTR) T 6.1 RS-232-C interface signal lines - IZontinued - 1 ) - -3 v 3 v / - Direction Functions SysteHrinfer + When this signal is 0, the host is ready to transmit data (data modr!). ‘&en this signal is 1, the printer ignores data on the Receive Data (RD) line. Data on the RD line can be validated regardless of this signal state. This signal is 0 when the host is in data mode. It is 1 when the host ir; in test mode (e.g.
Table Signal level Signal name 1 RS-232-C interface signal Direction 0 -3v RSVUSS 6.1 lines - Continued Functions System--Printer 3v channel (SWSRS) If the Reverse Channel line prorocol is not selected by setting at the operator panel, this signal stays at 1. If selecwd, the signal state is as follows: This signal is set to 0 when DTR is 0 or :he interface buffer is empty or almost empty (threshold is set at the operator panel).
Table Signal name 6.1 RS-232-C Signal level signal lines - Direcrion Continued Functions ;yscemcPrinter 1 Test Mode (TM) interface If the host detects that the LL signal is on and the local loopback rest is executable, it sets this signal on (0). If the host turns this signal on in response to the LL signal being an, the host does not set this signal off (1) until the LL signal is ser to 1.
6.2.2 Physical specifications of interface signals The physical specifications of RS-232-C interface signals con,sist of electrical cable specifications, and connector pin assignment specifications, interface specifications. (1) Electrical specifications Signal levels must be within the following ranges: Low level (off) High level (on) Note: -3 v +3 V or less or more These signal levels are measured at the interface connector. Signals with incorrect levels may be sent at power on and power off.
Table The RS-232-C interface signals operate according to the printer status. 6.3 lists the printer statuses. Figures 6.3 to 6.8 show the timing charts for this interface. Interface operation varies depending on the message protocols prepared for the printer. For message protocol details, see Section 6.4. Table 6.
Note: Figure For ,@! to 0, see Table 6.3. 6.3 Reverse Channel line-protocol (Drop DTR in START/STOP mode) Note: For @ to @ and @ to 0, see Table 6.3. Figure 6.4 Reverse Channel line-protocol (DTR Constant On mode) 6 - 10 B02P-1500-OOOlA...
Note: Figure 6.5 XON/XOFF protocol (Drop DTR in START/STOP mode and Half-duplex mode) Note: Figure 6.6 For @ to 0, see Table 6.3. For @ to @ and 0, see Table 6.3. XONjXOFF protocol (Drop DTR in START/STOP mode and Full-duplex mode) BOZP-1500-OOOlA...
Note: For @ to 0, 0, and @, Figure Note: 6.7 DTR line For @ to 0, see Table 6.3. protocol see Table 6.3. Figure 6.8 RTS line protocol (Drop DTR in START/STOP mode) 6 - 12 B02P-1500-OOOlA...
(2) Interface cable A pair of shielded cables must be used as the interface cable. length must be 25 feet (7.5 m) or less. (3) Connector and pin The cable assignment 25-pin standard interface connector (female type) is used. The connector cover is made of metal and is connected to the FG of the The interface connector cover is completely shielded. cabinet. A !Shielded (cable \ Figure Figure 6.10 shows and signals. the 6.9 Interface correspondence cable between B02P-1500-OOOlA...
25 24--------------- _---_ Pin ! NO. Signal 1 Frame 8 I 1 10 1 6.3 Character and N o . Ground Received Line Signal Detector 9 Figure Pin name 6.10 ,s ,J Signal rime 14 (Reserved~ 21 (Reserved) I 1 I (Reserved) 22 Ring (Reserved) 23 (Reserve'd) RS-232-C Control interface connector pin Indicator assignment Codes Table 6.4 shows character and control codes.
Table Note: 6.4 Character (ASCII) and control codes Codes with an asterisk in the table above vary depending on the print band for each country, as follows: X'7D' B02P-1500-OOOlA...
6.3.1 Character codes The ASCII code is used as the standard character code. If the printer is set in 7-bit mode and the host operates in 8-bit mode, the printer regards the received data as 7-bit data and checks data parity. If the data has a correct parity, the printer prints the data as correct 7-bit data. If not, a transmission error occurs. When receiving character codes, the printer sequentially loads them in to its interface buffer.
If horizontal tab data is loaded and there is no right tab stop of the current horizontal print position within the horizontal tab stops specified in the horizontal tab data, this code is also converted to a space code (X120'). Example 2: Column Horizontal 1 2 3 4 5 6 7 8 9 . . . . . 20 21 22 23 24 25 26 tab v stop 1 1 Data A B C D E F G H I T.... A B C (09) D E F Printing ABCDEFGHI.....A DEF B C (4) LF (X'OA') code The LF code directs the printer to feed one line.
(6) FF (X'OC') code The FF code directs the printer to feed fo~rms on the next page. up to the line at the top of If forms control buffer (FCB; in this manual, it is also called EVFU) data is loaded, the line on which channel 1 is specified is Ithe line at the TOF. If the printer receives print data before receiving.this code, it prints Then, the horizontal print position is set to the data, then feeds forms. column 1. (7) CR (X'OD') code The CR code sets the horizontal print position in column 1.
6.4 Message Protocols The following protocols have been prepared for this printer: . XON/XOFF protocol . Reverse Channel line (pin 19/11) protocol . DTR line protocol . RTS line protocol The protocols above report the interface buffer state (almost empty or almost full) to the host and operate according to the printer start/stop state. 6.4.
6.4.3 DTR line protocol The DTR line protocol is the same as the Reverse Channel line protocol. This signal is turned from off (1) to on (0) under the following conditions: . Printer is in the start state and, . The interface buffer is empty or almost empty. This signal is turned from on to off under one of the following conditions: . Printer is in the stop state (error occured, operator pressed the START/STOP switch) or, cover open, end of forms, or . The interface buffer is almost full.
6.5 Commands when detecting one of the control sequences listed in Table 6.5, the printer regards it as a command and starts the comand operation. Table 6.5 Commands and their control seq'uences control sequence Comnand name 7-bit mode Load FCB (EVFU) Data 1B 50 23 (PS) 1B SC 90 23 (PS) 9C Select Verrical 1B 5B (P) 20 47 9B (P) 20 47 Set to Pitch Initial Stare B-bit mode II 63 Skip to Channel-n lB 50 22 (P) lB SC / 90 22 (PI 9c Move lB 5B (P) 61 I I 9B (P) 61 Space n-lines l.
Example of control sequence data 90 2.3 Ll;l;Z;L10;3;L22;12;T66 9C 1 L Parameter X130' - 0 X131' -1 X132' - 2 X133' - 3 X134'--- 4 X'35' - 5 X'36'- 6 X'37' X'38' X' 39' X'3B' X'4C X'52' X'54' sequence -1 8 9 -; L R T Codes used in the parameter sequence Ll (4C 31) in the parameter sequence above indicates line 1. ";1;2" (3B 31 3B 32) indicates channels 1 and 2. That is, channels 1 and 2 are specified on the first line at the top of the form.
(2) Select Vertical Pitch command The Select Vertical Pitch command specifies the printer line feed pitch (6 or 8 lpi). When 6 lpi is specified, the parameter is 31 32 30, as follows: 1B 5B or i 9B 3 1 3 2 ab 2 0 4 7 t L---Parameter When 8 lpi is specified, the parameter is 39 30, as follows: IB 5B or 39 30 20 47 9 B 17 Parameter If the parameter has a value other than the value abcve, it is regarded as an invalid control sequence and the specified operati,on is not performed.
. A channel other than channels 1 to 12 is specified. . Parameters are not defined. Under the conditions above, the printer regards the control sequence as invalid, and prints received data and feeds one line. Move Horizontal Position command The Move Horizontal Position command moves according to the following calculation: the horizontal print position The horizontal print position + column count specified in the parameter.
Example 2: Right margin 1 3 6 Column 1 2 3 4 5 6 7 8 9 . . . . . 133 1 3 4 1 3 5 1 3 6 Data ABCDEFGHI..... A 9B 31 30 61 B C D s --Parameter Ti-Command Printing A B C D E F G H I ..... t -LF code A BCD b. If the New Line on Right Margin function is not set: A right margin overflow error occurs. feeds one line, then stops. The print,er prints data and Example 3: COlUIUl 1 2 3 4 5 6 7 8 9 . . . . . 133 1 3 4 1 3 5 1316 Data ABCDEFGHI.....
(7) Load Horizontal Tab Stop Data command The Load Horizontal Tab Stop Data command loads horizontal tab stop data into the horizontal control buffer (HCB). Example: 9B 35;31 35;32 35;33 35 20 4E 1 I Parameter sequence Codes used in Data command. horizontal tab the horizontal the horizontal the parameter sequence are the same as those of the Load FCB Code 35 in the parameter sequence above indicates that the stop is to be set at column 5. Code 31 35 indicates that tab stop is to be set at column 15.
(10) Half-line Feed command The Half-line Feed command specifies half-line (l/Z) feeding. This command is valid if the line feed pitch is 6 lpi. If the line feed pitch is 8 lpi, this command is ignored. This command operates in the same way as the line feed (LF) function except that the number of lines to be fed is not 1 but l/Z. As a result, the line feed pitch is l/12 lpi.
6.6 Printer Status Table 6.6 lists printer status responses for the Status Request command the reset condition of each status. Table 6.6 Printer status status ! code 1 4 Odd half space FUSE 5 7 10 Description Printer status HMRCHK :(Hammer error) FAX (Blower error) I . The printer in 6 lpi mode performed, the Ihalf line , feed function and the printing line is at (TOF + N ) inch + 1112, 3/i2, 5112, 7112, 9/12, or U/12 / inches). , me fuse was blown. ) Status / I Error ~ A hammer error occurred.
Table Sf2ltUS code 29 Printer Printer / ErrOr lbe printer tried to execute the Skip I:O command, but the specified channel number to 12. ErrOr channel) channel) Ihe specified channel number in the load FCB (EVFU) 1Error data was not 1 to 12. The printer regards it as an LDERR error. NOCHNL LDERR (Illegal continued The printer tried to execute the Skip 'to Channel n command, but FCB WFIJ) was not loaded.
Table 6.6 Printer status status code Printer Status Description 52 53 BOF channel 02 BOF = channel 62 54 BOF channel 12 BOF = channel 12 58 148BAND Ihe 48-character printer. 59 ' 64BAND The 64-character printer. 60 96 BAND The 96-character printer. set print band is mounted aon set print band is mounted on the printer SO/S1 enabled The U/SO 69 New Line on CR enabled When the CR code is received, the function converts it to CR + LF becomes enabled.
Table status I code 86 a7 I I Printer status 6.6 Printer status - continued 1 Error/ Description StatUS Monitor receied line signal detector 1 RTS with wait I ccs / status for status ! status 1 90 I g3 I RTS constant / status ON ~~mw~~efor Drop DTR with START/STOP --i+zkz switch mode is enabled. Ihe message protocol XONlXOFF is enabled. 95 Reverse channel enabled Reverse channel line almost full = on The message protocol Reverse Channel is enabled.
Table 106 1 0 7 6 - 32 Printer status - continued Description _.__ 105 6.6 / Data terminal ready / Printer stop state Printer error stop state If the DTR status. signal is on, the printer reports this When the START/STOP switch is pressed and the printer stops printing (stop state), the ;rr:incer reports this scatus. Ghen an error occurs on the printer and rhe stops printing, the printer repor:s rhis statxs. BOZP-1500-OOOlA...
CHAPTER 7 PRINT BAND SPECIFICATIONS This chapter shows the following: . Standard print band list; . Standard character sets; Shows the print bands for the M304x series. Shows the character arrangement of each print band. (Example) US ASCII 64+ ro Specification No.: B300-2930-TllZA Reference type catalog No.: B30U-2930-01 1 10 OZZ=Y-$X-)] 40 50 O&V/-U*@T.'S\MRlLQ-, 8 ? 3 @ 0 60 64 KP%JOI/IN"l Classification of print band Specification No.
7.
US ASCII 64 char, OCR-B Specification No.: B300-2930-T604A Reference type catalog No.: B30U-2930-0604A US ASCII 64 char, I-font Specification No.: B300-2930-T605A Reference type catalog No.: B30lJ-2930-0605A US ASCII 64 char, Pica 10 Specification No.: B300-2930-T609A Reference type catalog No.: B30U-2930-0609A 40 I/- U*@T.' 50 S\MRlLQ 60 64 - KP % J 0 t I N" US ASCII 64 char, OCR-A Specification No.: B300-2930-T637A Reference type catalog No.: B30lJ-2930-0637A 40 /YU*@T.
US ASCII 9 6 char, Pica 10 Specification No.: B300-2930-T6lOA Reference type catalog No.: B30U-2930-0610A 1 10 40 J- U*@T.' 20 50 S\EIRlLQ 60 64 65 74 ^KP%JOtIN"'ejoty-afkpuzb 94 a4 30 96 UK ASCII 64 char Specification No.: B300-2930-T137A Reference type catalog No.: B30I.k2930-0137A UK ASCII 64 char, OCR-B Specification No.: B300-2930-T603A Reference type catalog No.: B30I.k2930-0603A UK ASCII 64 char, I-font Specification No.: B300-2930-T607A Reference type catalog No.
UK ASCII 96 char, I-font Specification No.: B300-2930-T607A Reference type catalog No.: B30IJ-2930-0607A 1 40 /-U*@T. 20 10 50 'S\MRlLQ 74 60 64 65 -KP%JOfIN"-ejoty-afkpuzb 04 94 96 glqvO{chmrwidinsx} 2erman ASCII 64 char Specification No. B300-2930-T123A Reference type catalog No.: B30U-2930-0123A German ASCII 64 char, OCR-B Specification No.: B300-2930-T619A Reference type catalog No.: B30U-2930-0619A 20 1 10 O
German ASCII 96 char Specification No.: B300-2930-T124A Reference type catalog No.: B30U-2930-0124A German ASCII 96 char, Pica 10 Specification No.: B300-2930-T614A Reference type catalog No.: B30U-2930-0614A German ASCII 96 char, OCR-B Specification No.: B300-2930-T620A Reference type catalog No.: B30U-2930-0620A 1 10 OZZ=Y+SX-)sO&V KP % J 0 ii IN w - eiotyRafkuuzb 1 84 94 96 glqv0ichmrw~dinsx~ French ASCII 64 char Specification No.
Swedish ASCII 64 char Specification No.: B300-2930-T127A Reference type catalog No.: B3OU-2930-0127A Swedish ASCII 64 char, OCR-B Specification No.: B300-2930-T617A Reference type catalog No.: B30U-2930-0617A 40 J- IJ*tT.' 50 60 ~~MR~LQ~~KP%JO#IN" 64 Swedish ASCII 96 char Specification No.: B300-2930-T128A deference type catalog No.: B30U-2930-0128A Swedish ASCII 96 char, OCR-B Specification No.: B300-2930-T618A Reference type catalog No.: B30U-2930-0618A 1 10 O
Danish ASCII 96 char Specification No.: B300-2930-T130A Reference type catalog No.: B30U-2930-0130A 1 40 / 10 u*ET.' 20 60 SO SOMRlLQ~KPXJO#IN" 84 94 96 glqvo;echmrwud.insxa 7-8 B02P-1500-OOOlA...
7.3 Type Catalog B30U-2930-0112A/0113A US ASCII ptint band Print band Note: specification: B300-2930-T112A : B300-2930-T113A (63 characters) (94 characters) Following characters are provided only for B300-2930-T113A. B02P-1500-OOOlA...
B30LJ-2930-0604A US ASCII 64 ch, OCR-B, print band Print band spedification: B300-2930-T604A ,-7 7 - 10 B02P-1500-OOOlA...
B30U-2930-0605/a UA ASCII 64 ch, I-font, print bnad Print band specification: B300-2930-T605A B02P-1500-OOOlA...
B30U-2930-0637A UA ASCII 64 ch, OCR-A, print band Print 7 - 12 band specification: B300-2930-T637A B02P-1500-OOOlA...
B30U-2930-0602A US ASCII 96 ch, OCR-B, print band Print band specification: B300-2930-T602A - BO2P-1500-OOOlA...
UA ASCII 96 ch, Pica 10, print band Print band specification: B300-2930-T610A I3 E G .E Is P ca f T?E z 2 3 5 6 -8-- 4 0 B e B f3 E * E wx B tf z 7 - 14 + B02P-1500-OOOlA...
B30U-2930-0317A/0318A U.K. ASCII print band Print band specification: B300-2930-T137A : B300-2930-T138A (63 characters) (94 characters) 7 Note: Following characters are provided only for B300-2930-T138A. @@@@@@@@@I@@@ i!B@@@@@@@&i@@@ B02P-1500-OOOlA...
B30U-2930-0603A UK ASCII Print 64 ch, OCR-B, print band band specification: B300-2930-T603A 1.5 lmml - 16 B02P-lSOO-OOOlA...
B30l.L2930-0607A UK ASCII 64 ch, I-font, print band Print band specification: B300-2930-T607A B02P-1500-OOOlA...
B30U-29300-0601A I1 UK ASCII 96 ch, OCR-B print band Print 7 - 18 band specification: B300-2930-T601A B02P-1500-OOOlA...
UK ASCII 96 ch, I-font, print band Print band specification: B300-2930-T608A B02P-1500-OOOlA...
B30U-2930-0123A/0124A - 1 German ASCII print band Print band Note: 7 - 20 specification: B300-2930-T123A : B300-2930-T124A (63 characters) (94 characters) Following characters are provided only for B300-2930-T124A. B02P-1500-OOOlA...
B30U-2930-0619A German ASCII 64 ch, OCR-B, print band Print band specification: B300-2930-T619A B02P-1500-OOOlA...
B30U-2930-0641A II 7 - 22 B02P-1500-OOOlA...
U-2930-0614A German ASCII 96 ch, Pica 10, print band Print band specification: B300-2930-T614A B02P-1500-OOOlA...
B30V-2930-0620A &rman A SCII 96 ch, OCR-B, print band Print band ' - 24 specification: B300-2930-ThZOA B02P-1500-OOOlA...
B30U-2930-0125A/0126A Fresh ASCII print band Print I band Note: specification: B300-2930-T125A : B300-2930-T126A Following characters are (63 characters) (94 characters) -7 provided B02P-1500-OOOlA...
B30U-2930-0127A/0128A Swedish ASCII print band Print band Note: 7 - 26 specification: B300-2930-T127A : B300-2930-T128A (63 characters) (94 characters) Following characters are provided only for B3013-2930-T128A B02P-1500-OOOlA.e.
B30U-2930-0617A Swedish ASCII 64 ch, OCR-B, print band Print band specification: B300-2930-T617A i-4 -4 t - - B02P-1500-OOOlA...
B30U-2930-0618A Swedish ASCII 96 ch, OCR-B, print band Print band specification: B300-2930-T618A 1.5 imml 7 - 28 B02P-1500-OOOlA...
B30U-2930-0129A/0130A B02P-1500-OOOlA...
CHAPTER 8 SPECIFICATION LIST This chapter shows specifications of print bands, options, and expendable supplies. B02P-1500-OOOlA...
8.
8.2 Options Ifem 1 Description Specification ~Line counter BOZB-1500-OOOIA 2 I FCT unit (8 ch) ! 3 ~ FCT unit (12 ch) BOZB-1500-0002A / BOZB-1500-0003A 4 Long line interface BOZB-1500-0004A 5 Powered stacker BOZE-1500-0005A 6 Rear panel BOZB-1500-0008A 7 8 9 DPC-AMP type interface connector BOZB-1500-0023A i ~DPC-AMP type ~ BOZE-1500-0024A interface connecmr ~ I iPaper puller i BOZB-1500-006L4 Note 1) Remark :Format control cape unit for 8 ch.
..,._. “l__l _,l_-_l, p..,-l,i , . , - -.-- ~,.“,. ._, ,,“_ .,.. ;.,, ., . ,.. , ., ., , ,,,,. ,,,,,,,,,, . .,,. ,.
