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TOSHIBA TEC Bar Code Printer
B-850 Series
External Equipment Interface Specification
First Edition: December 8, 2000
Second Edition: February 9, 2001
Third Edition: July 19, 2002����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������
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TABLE OF CONTENTS Page 1. SCOPE ....................................................................................................................................... 1 2. GENERAL DESCRIPTION......................................................................................................... 1 3. INTERFACE................................................................................................................................ 3 3.1 SERIAL INTERFACE.....................................
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Page 6.3.15 Feed Command................................................................................................................ 142 6.3.16 Eject Command................................................................................................................ 147 6.3.17 Forward/Reverse Feed Command ................................................................................... 148 6.3.18 Storage Area Allocate Command .............................................................
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Page 9. STATUS RESPONSE................................................................................................................. 199 9.1 SERIAL INTERFACE............................................................................................................. 199 9.1.1 Functions .......................................................................................................................... 199 9.1.2 Status Format ..............................................................
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1. SCOPE This specification applies to the external equipment interface for use with the TPCL (TEC Printer Control Language) of the B-850 general-purpose thermal label/tag printers. 2. GENERAL DESCRIPTION The external equipment interface connects a printer to the host computer through a serial interface (RS- 232C), parallel interface (Centronics), or a network for making various settings and printing labels. PCL emulation (Printer Control Language for Hewlett Packard laser printer) is enabled by
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Available PCMCIA cards • LAN card SCCE589ET series only, manufactured by 3COM • ATA card ATA flash card using flash memory manufactured by SanDisk or HITACHI. • Flash memory card Device Manufacturer’s Capacity Operation Manufacturer Item Code Code Code 1 MB Read only Maxell EF-1M-TB AA D0H 1CH Mitsubishi MF81M1-GBDAT01 D0H 1CH 4 MB Read/Write Maxell EF-4M-TB CC 88H B0H Maxell EF-4M-TB DC ADH 04H Read only Centennial FL04M-15-11119-03 ADH 01H Technologies INC. INTEL IMC004FLSA A2H 89H Simple T
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3. INTERFACE 3.1 SERIAL INTERFACE (1) Type: Conforming to RS-232C (2) Mode of Communication: Full duplex (3) Transmission Speed: 2400 bps 4800 bps 9600 bps 19200 bps (4) Synchronization Method: Start-stop synchronization (5) Start Bit: 1 bit (6) Stop Bit: 1 bit (7) Data Length: 7 bits 8 bits (8) Parity: NONE EVEN ODD (9) Error Detection: Parity Error Vertical parity error check Framing Error This error occurs if no stop bit is found in the frame specified starting with the start bit. Overrun Err
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(13) Transmission Control: XON/XOFF (DC1/DC3) Protocol READY/BUSY (DTR) Protocol XON/XOFF (DC1/DC3) Protocol + READY/BUSY (DTR) Protocol RTS Protocol XON/XOFF (DC1/DC3) Protocol When initialized after the power is turned on, this printer becomes ready to receive data and sends an XON code (11H). (Transmission or non-transmission of the XON code is selectable by means of the parameter setting.) The printer sends an XOFF code (13H) when the blank positions in the receive buffer are 800 bytes o
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XON/XOFF (DC1/DC3) Protocol + READY/BUSY (DTR) Protocol When initialized after the power is turned on, this printer becomes ready to receive data and turns the DTR signal to the “High” level (READY). The printer also sends an XON code (11H). When the blank positions in the receive buffer are 800 bytes or less, the printer turns the DTR signal to the “Low” level (BUSY) and sends an XOFF code (13H). When the blank positions in the receive buffer are 2K bytes or more, the printer turns the DTR
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(14) Input/Output Signals TD RD RTS Printer Host CTS DSR SG DTR (15) Connector Pin Assignment and Signal Description Signal Pin No. Function Signal Direction Name 1 (N.C) 2TD Line for data which the printer sends to the host Printer → Logic 1 is a Low level, while logic 0 is a High level. It is in the Low (Mark) state when no transmission is in progress. 3RD Line for data which the printer receives from the host ← Host Logic 1 is a Low level, while logic 0 is a High level. It is in the Low
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(16) Interface Circuit Input Circuit SN75189 or equivalent RD CTS DSR Output Circuit SN75188 or equivalent TD RTS DTR Signal Levels Input Voltage H ......+3 ~ +15 V L.......-3 ~ -15 V Output Voltage H ......+6 ~ +13 V L.......-6 ~ -13 V - 7 -���������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������
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3.2 PARALLEL INTERFACE NOTE: V1.0 does not support the nibble mode. The nibble mode will be supported in V1.1 or later. (1) Type: Centronics (2) Mode: Conforms to IEEE1284 compatible mode and nibble mode (3) Data Input Method: Parallel 8 bits (Data 1 ~ 8) (4) Control Signals: Compatible mode Nibble mode nStrobe HostClk nAck PtrClk Busy PtrBusy PError AckDataReq Select Xflag nAutoFd HostBusy nInit nInit nFault nDataAvail nSelectIn IEEE1284 Active (5) Data Input Code: ASCII code European charact
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(9) Input/Output Circuit Configuration and Input/Output Conditions: Signal Configuration +5V Data 1 ~ 8 SN74LS245 or equivalent 1K Logic level Input (Input) +5V nStrobe/HostClk “1” = 2 ~ 5 V nInit/nInit “0” = 0 ~ 0.4 V SN74LS14 or equivalent nAutoFd/HostBusy 1K nSelectIn/IEEE1284 Active 100P +5V Busy/PtrBusy SN7406 or equivalent nFault/nDataAvail 1K Output nAck/PtrClk Select/Xflag Logic level 100P PError/AckDataReq (Input) “1” = 2.4 ~ 5 V “0” = 0 ~ 0.4 V (10) Connector: Printer Amp. Japan 552742
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(11) Connector Pin Diagram (IEEE1284-B Connector): Pin No. Signal Name Compatible Mode Nibble Mode 1 nStrobe HostClk 2 Data 1 Data 1 3 Data 2 Data 2 4 Data 3 Data 3 5 Data 4 Data 4 6 Data 5 Data 5 7 Data 6 Data 6 8 Data 7 Data 7 9 Data 8 Data 8 10 nAck PtrClk 11 Busy PtrBusy 12 PError AckDataReq 13 Select Xflag 14 nAutoFd HostBusy 15 NC NC 16 0V 0V 17 CHASSIS GND CHASSIS GND 18 +5V +5V 19 TWISTED PAIR GND (PIN1) TWISTED PAIR GND (PIN1) 20 TWISTED PAIR GND (PIN2) TWISTED PAIR GND (PIN2) 21 TWISTE
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(12) Input/Output Signals: Compatible mode Data 1 ~ 8 (Printer ← Host) Input data signals for the 1st to 8th bits Logic 1 is the “High” level. Min. data pulse width of 2.5 µsec nStrobe (Printer ← Host) Synchronizing signal for reading the above data Normally at the “High” level. The data is read at the rise of the Low level pulse. Minimum data pulse width of 0.5 µsec Busy (Printer → Host) This signal indicates that the printer is in a Busy state. When initialized after the power is t
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nInit (Printer ← Host) Reset request signal from the host Normally at the “High” level. A low on this input causes the printer to be initialized in the same manner as when the power is turned on. When the nInit signal is input during printing, the printer completes printing one label which is being printed, cancels the next processing, then is initialized in the same manner as when the power is turned on. Minimum pulse width of 0.5 µsec Select (Printer → Host) This is an output signal wh
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Nibble mode Data 1 ~ 8 (Printer ← Host) Input data signals for the 1st to 8th bits Logic 1 is the “High” level. Minimum data pulse width of 2.5 µsec HoltClk (Printer ← Host) Synchronizing signal for reading the above data Normally at the “High” level. The data is read at the rise of the Low level pulse. Minimum data pulse width of 0.5 µsec PtrBusy (Printer → Host) Reverse data transfer phase: Data bit 3 is used for the first transfer. Data bit 7 is used for the second transfer. Indi
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+5 V This is not a signal but a +5 V power supply voltage. The maximum current of 500 mA can be used for external equipement. IEEE1284 Active (Printer ← Host) The signal is used with the HostBusy signal, to request the data transfer in the IEEE1284 mode, or to request the end of the IEEE1284 mode. To request the data transfer in the IEEE1284 mode, the host sets the IEEE1284 Active signal and the HostBusy signal to high and low, respectively. To request the end of the IEEE1284 mode, the ho
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(13) Timing Chart When receiving normal data: One of two types of timing for BUSY-ACK can be selected. (1) Timing 1 (Default) Min. 1 µsec Data 1 ~ 8 (Host → Printer) Min. 1 µsec Min. 1 µsec nStrobe (Host → Printer) Min. 0.5 µsec Busy (Host ← Printer) nAck (Host ← Printer) Approx. 0.7 µsec (2) Timing 2 Data 1 ~ 8 (Host → Printer) nStrobe (Host → Printer) Busy (Host ← Printer) nAck (Host ← Printer) Approx. 5 µsec - 15 -������������������������������������������������������������������������������
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Receiving data when the blank positions in the receive buffer are 712 bytes or less: When the blank positions in the receive buffer are 712 bytes or less, the printer stores the received data in the receive buffer, continues to be in a BUSY state (BUSY signal at the “High” level) for 10 seconds to extend the data read interval when data is set from the host, and reads the data 10 seconds later. If the blank positions become 713 bytes or more while waiting for reading data, the printer will re
