Operation Manual
Page 5
... Interface Timing ........ 84 85 89 -iv- A1-2 Driver Circuit Diagram ..... Fig. A1-1 Control Circuit Diagram Fig. Fig. 41 Alignment of Side Edges 32 Fig. 42 Form Position Setting Mark 32 Fig. 43 Print Area 3 2 Fig. 44 Setting of Cut Paper Sheet 33 Fig. 45 Printer with Cut Paper Sheet Set Completely 33... Feed Knob 41 Fig. 51 Loosening All 4 Screws 41 Fig. 52 Pulling Out Wires Hooked to Control Panel 42 Fig. 53 Construction of Type II Printer 43 Fig. 54 Location of DIP Switches 4 4 Fig. 55 Setting DIP Switches 4 4 Fig. 56 Setting Amount of Line Spacing 48 Fig. 57 Setting Form ...
... Interface Timing ........ 84 85 89 -iv- A1-2 Driver Circuit Diagram ..... Fig. A1-1 Control Circuit Diagram Fig. Fig. 41 Alignment of Side Edges 32 Fig. 42 Form Position Setting Mark 32 Fig. 43 Print Area 3 2 Fig. 44 Setting of Cut Paper Sheet 33 Fig. 45 Printer with Cut Paper Sheet Set Completely 33... Feed Knob 41 Fig. 51 Loosening All 4 Screws 41 Fig. 52 Pulling Out Wires Hooked to Control Panel 42 Fig. 53 Construction of Type II Printer 43 Fig. 54 Location of DIP Switches 4 4 Fig. 55 Setting DIP Switches 4 4 Fig. 56 Setting Amount of Line Spacing 48 Fig. 57 Setting Form ...
Operation Manual
Page 88
... head for head carriage is quite compact. 1.2. Al-l, and the driver circuit diagram in the precision and electronic industry fields. APPENDIX 1 Construction of MX-80 Type II and MX-80 F/T Type II The EPSON MX-80 Type I I and MX-80 F/T Type II dot matrix printers (hereinafter referred to as "Type II Printer") consist of the stepper motor corresponds to 1/3 inch paper advance...
... head for head carriage is quite compact. 1.2. Al-l, and the driver circuit diagram in the precision and electronic industry fields. APPENDIX 1 Construction of MX-80 Type II and MX-80 F/T Type II The EPSON MX-80 Type I I and MX-80 F/T Type II dot matrix printers (hereinafter referred to as "Type II Printer") consist of the stepper motor corresponds to 1/3 inch paper advance...
Operation Manual
Page 91
... generates 5V DC for the logic circuit, and 24V DC to the parallel interface connector. 1.3. This line should be initiated remotely by a TTL driver or its equivalent. Printer initialization Printer initialization is interrupted and reapplied (i.e., by turning the Power Switch off and on). (2) Initialization may be driven by activating the INIT signal to...
... generates 5V DC for the logic circuit, and 24V DC to the parallel interface connector. 1.3. This line should be initiated remotely by a TTL driver or its equivalent. Printer initialization Printer initialization is interrupted and reapplied (i.e., by turning the Power Switch off and on). (2) Initialization may be driven by activating the INIT signal to...