264M DOT MATRIX PRINTER DP8340R SERIES [SERIAL INTERFACE] USERS MANUAL
Federal Communications Commission Radio Frequency Interference Statement This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment.
TABLE OF CONTENTS 1. OUTLINE .............................................................................................. 1 2. UNPACKING AND INSTALLATION ................................................ 2 2-1. Unpacking .................................................................................... 2 2-2. Installation of Paper Holders and Re-Roll Prevention Guard ......................................................................... 3 2-3. Handling Notes............................................
8. INTERFACE FOR MODEL DP8340RD (D-SUB 25 PIN CONNECTOR) ......................................................... 30 8-1. Interface Specifications .............................................................. 30 8-2. Interface Circuit ......................................................................... 31 8-2-1. RS-232C .......................................................................... 31 8-2-2. Current Loop ................................................................... 31 8-3.
1. OUTLINE The DP8340R series of serial dot matrix printers is for use in ECR, POS, electronic instruments, banking machines and computer peripheral equipment. The DP8340R series include the following features; 1) 2 color printing (Red and Black) 2) High-speed bidirectional printing (2 line/sec, 29 or 44 columns per line) 3) 9-pin print head 4) The interface conforms to RS-232C in M type, and to RS-232C/20mA Current Loop in D type.
2. UNPACKING AND INSTALLATION 2-1. Unpacking After opening the box, check if all necessary accessories are included. (A) Printer 1 Printer 2 User’s Manual 3 Paper Holders 4 Re-Roll Prevention Guard 5 Ink Ribbon 6 DIP Switch Cover (B) Power Supply Unit 1 1 Power Supply Unit 2 User’s Manual Figure 2-1.
2-2. Installation of Paper Holders and Re-Roll Prevention Guard Install the Paper Holders in the intermost holes in the rear of the printer. Figure 2-2.
Install the Re-Roll Prevention Wire in the holes of the printer cover. Twisting the Wire as shown in the figure below, will make the installation easier. Figure 2-3. Installation of Re-Roll Prevention 2-3. Handling Notes (1) (2) (3) Install the printer near an easily accessible socket-outlet. Place the unit on a flat and stable surface for operation. Do not connect the AC Power Plug to the same outlet used for other noise generating devices (large motors, etc.).
3. PART IDENTIFICATION AND NOMENCLATURE 3-1. Power Supply Unit DC Power Connector (Output) Shape of AC Power plug will vary according to destinations. Figure 3-1.
3-2. Printer Figure 3-2. Printer: Front View Figure 3-3.
3-3. Part Functional Description (1) (2) (3) (4) (5) AC Power Plug DC Power Outlet Printer Cover POWER Lamp ON LINE Lamp Connect to an outlet of the specified voltage. Supplies DC 12V power to the printer. Protects the printer against dust and reduces noise. Lights up (green LED) when power is on. Lights up (green LED) when the unit is in the online mode. (6) ALARM Lamp Lights up (red LED) when printer operation is not normal, or the printer is out of paper.
4. INSTALLATION OF INK RIBBON AND PAPER 4-1. Installation of Ink Ribbon (1) Turn power off, lift the Printer Cover up and remove it. Note: Be careful not to touch the print head immediately after printing, because it can get very hot. Figure 4-1. Printer Cover Removal (2) (3) (4) Unwind ribbon so that the spools are separated as shown in Figure 4-3. Hold the ribbon taut as shown with the drive pins facing down and slide the ribbon between the print head and the platen.
Ribbon Life Ribbon life Description Black SF-03B (Fuji Kagakushi Kogyo Co., Ltd.) Approx. 0.8 million characters Figure 4-2. Installation of Ink Ribbon Figure 4-3. Ribbon Spools 4-2. Removal of Ink Ribbon Hold the spool and lift gently, rotating it until the ribbon sags. Push the ribbon detecting lever out, lift the spool until it comes off the shaft. Remove the second spool in a similar manner. (Do not apply excessive force when lifting spools.
4-3. Paper Insertion 4-3-1. For Roll Paper (1) (2) (3) (4) Cut the Roll Paper end straight and square. Hold the roll so that the paper comes from the bottom. Attach the Roll Paper to the Holders Paper by slipping one side of the roll onto the Hub and pulling the other Hub out to allow the roll to slip in place. Insert the paper evenly into the Paper Insertion Slot. Turn the Power Switch “ON”, and press the FEED Button. The paper will be fed into the unit. Figure 4-4. Paper Insertion (1) Figure 4-5.
4-3-2. Roll Paper Installation (When using the optional Printer Cover 8340R) When installing roll paper with the optional “Ptinter Cover 8340R”, please use the following procedure. (1) Turn power off, lift the Printer Cover up and remove it. Note: Be careful not to touch the print head immediately after printing because it can get very hot. (2) Insert paper into the printer, and feed the paper so it extends 3 inches or more above the top surface of the printer.
4-3-3. Validation Option Installation The validation printing requires the optional printer cover 8340R. Refer to item 4-3-2 for the installation. (1) Turn power ON. (2) Enter the printer the validation mode. (Refer to the control code “GS” in Chapter 5.) (3) Insert the material to be validated against the right side of the slot in the Printer Cover 8340R. Figure 4-8. Insertion of Material to be validated 4-4.
5. CONTROL CODES CODE FUNCTION LF (0A)H Print and line feed instruction OUTLINE The LF code causes the data in the line buffer to be printed, followed by a single line feed. When the line buffer is empty, only the feed takes place. CODE CR (0D)H Print and line feed instruction FUNCTION OUTLINE Same function as of LF code. However, when the DIP switch 2-4 is ON, the CR code becomes invalid.
CODE FUNCTION SI (0F)H Inverted print instruction OUTLINE This function causes the printing to be inverted. This code must be received at the beginning of a line. If this code is received anywhere other than at the beginning of a line, it is disregarded. Accordingly, normal characters and inverted characters, can not be mixed on the same line. CODE DC2 (12)H Release from inverted print instruction FUNCTION OUTLINE The inverted print instruction is released by this code.
CODE FUNCTION ESC a n (1B)H (61)H n n-line feed OUTLINE After printing the data in the current line, n lines are fed by this code. The value of n ranges from 1 to 120. CODE ESC C n (1B)H (43)H n Sets page length in lines FUNCTION OUTLINE This code sets the length of a page to n lines. The value of n ranges from 1 to 120. On initialization, the page length default condition will be 42 lines. The line feed pitch is onesixth inch.
CODE FUNCTION ESC @ (1B)H (40)H Printer initialization OUTLINE All printing conditions except ESC BEL n1 n2, the line buffer and data buffer are set to the power on default condition. CODE ESC BEL n1 n2 (1B)H (07)H n1 n2 Sets peripheral unit drive pulse duration. FUNCTION OUTLINE This command sets the pulse duration for peripheral unit drive (Paper Cutter, Take-Up Device, cash drawer, etc.
FUNCTION FS (1C)H Trigger peripheral unit drive (immediate) OUTLINE Causes a peripheral drive pulse to be generated immediately CODE ENQ (05)H Enquiry CODE FUNCTION OUTLINE When this code is received, the printer outputs status data. If it is input after text data input in the STX-ETX mode, the printer outputs status data and the check byte. CODE STX (02)H Start of text FUNCTION OUTLINE When this code is received, the printer enters the STX-ETX mode.
CODE FUNCTION ESC M (1B)H (4D)H Select 15 CPI OUTLINE This code causes the printer to print at 15 CPI. The number of columns per line is 44. When the power is turned on, the 15 CPI mode is selected. CODE GS (1D)H Validation printing instruction FUNCTION OUTLINE REMARKS This code causes the printer to perform validation printing of a maximum of 32 subsequent characters (at 15 CPI, from the thirteenth to the forty-forth column).
Character Code List Character Code 1 LF 2 CR (0A)H (0D)H 3 SO 4 DC4 5 ESC-1 7 SI 8 DC2 9 ESC E (0E)H (14)H (1B)H (2D)H(01)H (1B)H (2D)H (31)H (1B)H (2D)H(00)H (1B)H (2D)H (30)H (0F)H (12)H (1B)H (45)H 10 11 12 13 14 ESC F ESC 4 ESC 5 ESC a n ESC C n (1B)H (46)H (1B)H (34)H (1B)H (35)H (1B)H (61)H n (1B)H (43)H n 15 ESC N n (1B)H (4E)H n 16 17 18 19 (1B)H (4F)H (0C)H (1B)H (40)H (1B)H (07)H n1 n2 6 ESC-0 ESC O FF ESC @ ESC BEL n1 n2 20 BEL 21 FS (07)H (1C)H 22 23 24 25 26 27 28 (05)H (02)H
6. GENERAL SPECIFICATIONS Printing method Serial impact dot matrix printing, 9 wires Number of print columns 29 columns (10CPI), 44 columns (15CPI) Print speed Approx. 2 lines/sec Print direction Bi-directional Line spacing 1/6 inch Paper feed method Friction Feed Paper feed speed Approx.
Power supply unit Four supplies available with following ratings Input Output AC 100 – 240 V 47Hz – 63 Hz 0.8 A Max DC 12.0 V ± 5% Paper specification Paper type Size Paper width Roll diameter Thickness (single) (2 copy) Paper end One line validation Ink ribbon specification Color Ribbon material Ribbon size Spool Recommended ribbon Operating conditions Storage conditions Head life Printer reliability 2.0 A Ordinary and carbonless copy paper 82.55 ± 0.5mm (3.25 inches) 80 mm outer diameter (Max) 0.
Figure 6-1. Roll Paper and Print Area Figure 6-2.
60mm Figure 6-3. External Dimensions (Printer) 36mm 120mm 2.0m Shape of AC Power plug will vary according to destinations. Figure 6-4.
7. INTERFACE FOR MODEL DP8340RM (MODULAR JACK CONNECTOR) 7-1.
7-3. Setting of the DIP Switches 7-3-1.
7-4. Connectors and Signals Direction 1 2 Signal Name GND GND 3 TXD OUT 4 5 RXD RTS IN OUT 6 FAULT OUT 7 GND — 8 DTR OUT Pin No. — — Function Shield Ground Frame Ground This pin carries data from the printer. (Return channel) This pin carries data to the printer. This is SPACE when the printer power is ON. This is MARK when the printer is abnormal. (Refer to Error Condition Alarm Mode *1.) Or there is a paper error. Signal ground.
7-5. Interface Connections For interface connections, refer to the instructions for interface of the host computer. The following gives basic examples. M TYPE ONLY Figure 7-4. Interface Connections using Modular/D-Sub 25 Adapter to IBM PC (Use with straight through cable wiring) Before selecting interface cable wiring, it is necessary to know the wiring of the modular interconnect cable. Figure 7-5. below shows the way to determine if the cable is straight connected, or cross connected.
Figure 7-6. Wiring of cable for direct connection between DP8340 and IBM PC serial part 7-6. Peripheral Unit Drive Circuit The Control Board of this unit is equipped with a circuit for driving a peripheral unit (Paper Cutter, Take-Up Device, Cash Drawer, etc.) The Control Board Connector (CN3) is used to connect the Peripheral Unit to the Drive Circuit. When using this circuit connect the peripheral unit cable to the CN3 Connector (cable is not included).
M TYPE ONLY Figure 7-8. Cable Connection 7-6-2. Peripheral Drive Circuit D1 Absolute Ratings (Ta = 25˚C) Voltage Breakdown 100V Peak Forward Current 1A Drive Output 12V, MAX. 1A Figure 7-9. Drive Circuit Caution: Do not use external power supply with peripheral drive circuit. 7-6-3. Control Codes Codes for Drive Circuit control are ESC BEL n1 n2, BEL and FS. Refer to the Control Codes in Chapter 5.
8. INTERFACE FOR MODEL DP8340RD (D-SUB 25 PIN CONNECTOR) 8-1.
8-2. Interface Circuit 8-2-1. RS-232C Input (RXD, CTS) D TYPE ONLY Output (DTR, FAULT, TXD, RCH, RTS) Figure 8-1. RS232-C Interface 8-2-2. Current Loop Input (TTY-RXD, TTY-RXDR) Output (TTY-TXD, TTY-TXDR) Note: Resistance should be set so that Current Loop is restricted to the range of 10 ~ 20 mA. Figure 8-2.
8-3. Setting of the DIP Switches 8-3-1.
8-4. Jumper Setting The serial interface is set to the RS-232C mode upon shipment from the factory. When using in the 20mA current loop mode, it is necessary to set the jumpers. The jumpers built into the Control Board allow for setting of functions shown in the table. However, the Bottom Cover must be removed to perform this setting. For setting the Jumper, disconnect the power source beforehand. D 8-4-1. Removal of the Bottom Cover TYPE ONLY Figure 8-4. Removal of the Bottom Cover 8-4-2.
8-5. Connectors and Signals Pin No. Signal Name Direction Function 1 GND — 2 TXD OUT 3 4 RXD RTS IN OUT 5 CTS IN 6 DSR IN 7 8 GND N/C — 9 TTY TXDR — 10 TTY TXD OUT 11 RCH OUT 12 13 N/C GND — 14 FAULT OUT 15 ~ 16 N/C 17 TTY TXDR — 18 TTY RXDR — 19 TTY RXD IN 20 DTR OUT 21 ~ 22 N/C 23 TTY RXDR — 24 TTY TXD OUT 25 TTY RXD IN Frame Ground This pin carries data from the printer. (Return channel) This pin carries data to the printer.
Figure 8-5. D-Sub 25 Pin Connector *1 Error Condition Alarm Mode If an error condition is detected during operation, the printer will stop printing and cause the FAULT signal to go MARK. All solenoides & motors TYPE will be de-energized. It is necessary to turn the printer power off and on again ONLY in order to recover from the alarm mode. This printer can detect the following error coditions: a. Motor Lock b. Defective timing detector c. Micro-proccessor out of program sequence D 8-6.
8-7. Peripheral Unit Drive Circuit The Control Board of this unit is equipped with a circuit for driving a peripheral unit (Paper Cutter, Take-Up Device, Cash Drawer, etc.) The Control Board Connector (CN3) is used to connect the Peripheral Unit to the Drive Circuit. When using this circuit connect the peripheral unit cable to the CN3 Connector (cable is not included). Use a cable with the following specifications: Note: Do not run cable near devices generating large amounts of electrical noise.
D TYPE ONLY Figure 8-8. Cable Connection 8-7-2. Peripheral Drive Circuit D1 Absolute Ratings (Ta = 25˚C) Voltage Breakdown 100V Peak Forward Current 1A Drive Output 12V, MAX. 1A Figure 8-9. Drive Circuit Caution: Do not use external power supply with peripheral drive circuit. 8-7-3. Control Codes Codes for Drive Circuit control are ESC BEL n1 n2, BEL and FS. Refer to the Control Codes in Chapter 5.
9. DATA STRUCTURE AND CONTROL 9-1. DTR Mode (1 BLOCK) Controls Data Transfer by using DTR line as BUSY FLAG (a) (b) In case of Paper Empty Paper Empty When the paper out detector indicates end of paper, the printer stops printing after a maximum of two lines of printing or paper feed. The printer goes OFF LINE and sets the DTR to “MARK” status immediately after occurrence of a paper empty.
9-2. X-ON/X-OFF Mode The printer transmits an X-ON (Control Code; DC1, Hexadecimal Value; 11H,) signal after power is turned on, if there is no printer error being generated. When this signal is received by the host computer, the host computer transmits the data to the printer. The X-ON signal is output intermittently every three seconds until the host computer receives and responds to this signal.
Paper Empty When the paper out detector indicates end of paper, the printer stops printing after a maximum of two lines of printing or paper feed. The host computer can receive the printer status by transmitting an ENQ code to the printer. The printer goes OFF LINE and sets the DTR to “MARK” status in 5 seconds after occurrence of a paper empty. It is necessary to install paper into the printer and press the ON LINE BUTTON to light the ON LINE LAMP in order to recover from paper empty status.
9-3. STX-ETX Mode The start of the STX-ETX mode should occur with a totally empty print buffer. This can be achieved by sending an ENQ code to the printer and checking the status until the status code indicates an empty buffer. At that point, the STX code is sent by the host computer followed by a data block. While receiving the data block, the printer generates a horizontal parity check character.
STX-ETX Mode Flow Diagram – 42 –
10.
– 44 –
International Character Sets – 45 –
11. WHEN POWER IS SUPPLIED BY THE USER When printer power is supplied by the user rather than through the accessory power source unit, please be careful of the following points. Note 1: The power supply must be +12V +10% –5% 2A or above. An electrolytic capacitor (C = 4700µF/25V to 6800µF/25V) must be connected across the output of the power supply. Note 2: A DC power plug is available as an option. GND +12V GND Reference: Design the power supply referring to the power supply circuit shown below.
VAC 14V C2 100 ~ 200µF/25V VDC 12V +10% –5% ZD1 VZD = 14V (1W) IAC C1 2 ~ 3A 6800µF/25V C3 TR1 4700 ~ 6800µF/25V 2SD633 (TOSHIBA) Other parameters may be determined by user. Figure 11-1.
ELECTRONIC PRODUCTS DIVISION STAR MICRONICS CO., LTD. OVERSEAS SUBSIDIARY COMPANIES STAR MICRONICS AMERICA, INC. 536 Nanatsushinnya, Shimizu, Shizuoka 424-0066 Japan Tel: 0543-47-0112, Fax: 0543-48-5271 70-D Ethel Road West, Piscataway, NJ 08854 U.S.A Tel: 732-572-9512, Fax: 732-572-5095 STAR MICRONICS U.K. LTD. Please access the following URL http://www.star-micronics.co.jp/service/sp_sup_e.htm for the lastest revision of the manual.
