BIXOLON service manual Interface Specifications, SRP-350/352plusA&C, 3-5-1b RS-232C I/F Cable

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3-5 Interface Specifications

SRP-350/352plusA&C

3-5 Interface Specifications

3-5-1 RS-232C Serial Interface

3-5-1(a) Specification

Item

Description

Remark

Data Transmission

• Serial

 

Synchronization

• Asynchronous

 

HandShaking

• H/W : DTR/DSR

XON : ASC Code 11h

(Flow Control)

• S/W : XON/XOFF

XOFF:ASC Code 13h

Signal Level

• Logic1 (MARK) : -3V ~ -15V

 

• Logic0 (SPACE) : +3V ~ +15V

 

 

 

Baud Rate

• 2400/4800/9600/19200/38400/57600/115200 Bps

 

Data Word Length

• 8 bit

 

Parity

• None

 

Connector

• DB25P Female (I/F PBA)

 

 

Table 3-14 RS-232C Specification

 

Note : The HandShaking (Flow Control) / Data Word Length / Baud Rate / Parity functions depend on the DIP Switch settings. Refer to the Operation Manual.

3-5-1(b) RS-232C I/F Cable

Printer Side: D-SUB25P-Male

CONN : User Spec

Ferrite Core : 1 Turn (OP-118E : 18.2 x 12.5 x 25.5)

In Case PC : D-SUB25P-Female or

 

D-SUB9P-Female

Figure 3-6 RS-232C Cable

Rev. 2.01

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Contents Service Manual SRP-350/352plusA&CThermal Printer Rev Table of Contents SRP-350/352plusA&C5. Disassembly and Assembly 6. Adjustments and Maintenance7. Troubleshooting 4. Hardware1. Precaution Segment 1-1 Safety Precautions1-2 Servicing Precaution a Remove or reinstall any component or assembly1-3 Precaution for Electrostatically Sensitive Devices ESDs 1-4 Operational Precautions1. Some semiconductor solid state devices are easily damaged by static electricity. Such components are called Electrostatically Sensitive Devices ESDs examples include integrated circuits and some field-effect transistors. The following techniques will reduce the occurrence of component damaged caused by static electricity 2. Installation and Operation 2-1 Installation2-1-1 AC Adapter Installation 2-1-2 Interface Cable Installation2-1-5 Wall Mount Installation SRP-350/352plusA&C 2-2 Operation 2-2-1 Setting the DIP switches2-2-2 Setting the DIP switch RS-232C Serial Interface 2-2-3 Setting the DIP switch IEEE1284 Parallel, USB Interface ※ Auto Cutter Enable / Disable selection2-2-4 Hexadecimal Dumping 2-2-5 The self Test ModeFigure 3-13 The Self-Test Sheet 2-2-6 Setting the Memory Switches SRP-350/352plusA&C 3. Product Specifications 3-1 Appearance3-1-1 Printer Dimensions mm 3-1-2 AC Adapter Dimensions mm3-1-3 Feature Locations-SRP-350/352plusA/C TYPE 3-2 General Specifications SRP-350/352plusCOS RS-232 Serial CommunicationSRP-350/352plusCOP IEEE1284 Parallel Communication SRP-350/352plusCO USB Communication3-3 Thermal Printer Specifications 3-3-1 Printer Specification3-3-2 Character Specification Description3-3-3 Paper Specification 3-3-4 Reliability and Environment Specification※ Note PD 160R3-3-6 TPH Thermal Printer Head Specification 1 180dpi 3-3-5 Printable Area3-3-7 Other Component Specification 3-4 SMPS Specifications 3-4-1 SMPS Switching Mode Power Supply Specification3-4-2 SMPS Output Connector 3-5 Interface Specifications 3-5-1 RS-232C Serial Interface 3-5-1a Specification3-5-1b RS-232C I/F Cable 3-5-1d Signal Description 3-5-1c Cable ConnectionPrinter Host2-5-2a Forward Mode Specification Compatibility mode 3-5-1e H/W Flow Control3-5-1f S/W Flow Control ※ Note Refer to the Operation Manual about XON/XOFF flow control3-5-2c Signal Specification Compatibility/Nibble/Byte mode 3-5-2c IEEE1284 I/F CablenAck Busy3-5-3a Specification 3-5-3b Signal Description3-5-3 USB2.0 Interface 3-5-3c Cable3-5-4d Construction Series A Connectors Series B Connectors※ Note Minimum conductor construction must be stranded tinned copper From the3-6 Cash Drawer Specifications ※ Note +24V is always output through pin 4 during power on3-6-1 Drawer Cable 3-6-2 Cable Connection4-1 Wiring Diagram 4. HardwareFigure 4-1 Board Wiring Diagram 4-2 Block Diagram Figure 4-2 Block Diagram4-3 Special Circuit Descriptions 4-3-1 Power Circuit4 CPU, Flesh, SRAM, Reset Voltage +3.3V VOLTAGE4-3-2 RESET Circuit Reset signal is signal in order to start-up CPU under Power-onFigure 4-4 Reset Block Diagram Figure 4-5 Reset Waveform ASM811 REUSF-T4-3-3 Buzzer and Cash Drawer Circuits 1 Buzzer Driving Circuit 2 Cash Drawer Driving Circuit4-3-4 I/F PBA Detect Block Diagram 4-3-5 RS-232C Communication Block DiagramUPD70F3107 4-3-6 Parallel Communication Block Diagram 4-3-7 USB Communication Block Diagram4-3-8 DIP Switch Circuit DATA#1,2 LATCHSTROBE1 4-3-9 Thermal Printer Head Circuit5. Disassembly and Assembly 5-1 Case lower block1 Scrw 2 Brkt Dip Switch 3 Case Lower 4 Foot Rubber8 Screw 1 Screw 2 Brkt PCB 6 Main PCB5 PCB Serial Parallel Screw5-2 Case Upper block 1.Push the button to open the Cove Open. 2.Remove the four screws1.Remove the two screws 3.Remove the three screws. 4.Separate the Manual cutter fromRoller Platen Assembly 1 Spring Hook4 Brkt-Hook 3 Screw 1.Remove the E-Ring. 2.Separate the Spring tension, the5-3 Frame block 3 Cover Housing4 Screw 1 Screw4 Screw 7 Connector Spring TPH 5.Separate the Connector from the Heat-sink1.Remove the screw 2 Heatsink Assy 1 Screw1 Screw 2 Frame Main 3 Brkt PCB 4 Power Switch Frame MainWasher Slip6. Adjustments and Maintenance 6-1 Adjustment6-1-1 Remaining Roll Paper Adjustment 6-1-2 Paper Jam 6-2 Maintenance ※ Caution Turn off the printer power before cleaning7. Troubleshooting 7-1 Power ProblemOk? On SMPS 7-2 System Problem 7-3 Panel PBA and Sensor Problem 7-4 Thermal Printer Head and Feed Motor Problem 7-5 Auto Cutter and Drawer Problem 7-6 Dip S/W and I/F PBA Select Problem Input Ok?Select Ok? 7-7 RS-232C Serial Communication Problem 7-8 IEEE-1284 Parallel Communication Problem 7-9 USB2.0 Communication Problem Main PBA I/FFailure? Reverse Mode