Impact Dot Matrix Printers
PRINTER
PRINT METHOD | 9-pin, serial impact dot matrix |
PRINT FONT | 7 x 9 / 9 x 9 |
COLUMN CAPACITY | 40 or 42 columns / 33 or 35 columns |
CHARACTER SIZE | 1.2(W) x 3.1 (H) mm / 1.6 (W) x 3.1 (H) mm |
CHARACTER SET | 95 Alphanumeric characters, 37 International characters, 128 x 12 Graphic characters Traditional / Simplified Chinese, Thai, Japanese, Korean |
PRINT SPEED | Approx. 4.7 LPS (40 columns, 16CPI) / Approx. 6 LPS (30 columns, 16 CPI) |
DATA BUFFER | 4 KB or 40 bytes |
INTERFACE | RS-232C, Bi-directional parallel, Dealer Option: USB, 10 Base-T |
PAPER DIMENSIONS | 57.5 + 0.5, 69.5 + 0.5, 76mm 0.5mm x dia. 83.0mm (roll) |
PAPER THICKNESS | 0.06 to 0.085mm |
COPY CAPABILITY | One original and one copy |
INKED RIBBON | ERC-38 (black, black and red) |
RIBBON LIFE | Black: 3 x 106 characters B/R: 15 x 105 characters (black) 75 x 104 characters (red) |
POWER SUPPLY | AC adapter (included) |
POWER CONSUMPTION | Approx. 31 W average |
D.K.D. FUNCTION | 2 drivers |
RELIABILITY
MTBF | 18 x 10^4 hours |
MCBF | 18 x 10^6 lines |
EMI STANDARDS | VCCI class A, FCC class A, CE marking, AS / NZS 3548 class B |
SAFETY STANDARDS | UL, CSA, TV (EN60950) |
PRODUCT OPTIONS
FACTORY OPTION | Paper near-end sensor |
PS-180 | Power Supply |
RIBBON CASETTE | (Purple, Black, Black and Red) |
WH10 | Wall Hanging Bracket |
OVERALL DIMENSIONS | A Type: 160mm (W) x 286mm (D) x 157.5mm (H) (Approx. 2.7Kg) B Type: 160mm (W) x 248mm (D) x 138.5mm (H) (Approx. 2.5Kg) C Type: 160mm (W) x 248mm (D) x 138.5mm (H) (Approx. 2.3Kg) |
Usage Conditions
Epson products are designed and made to give highly reliable use and long life when used according to its specifications. With any system, product or device used in situations where human life may be involved or at risk, Epson advises that you should take all necessary steps to ensure the suitability of your Epson product for inclusion in your system, and recommends that you include fail-safe procedures and redundancy support or backup equipment in your system, to maintain the maximum safety margin and optimum system reliability.