Datasheet MC1488 (ON Semiconductor) - 3

HerstellerON Semiconductor
BeschreibungQuad Line EIA-232D Driver
Seiten / Seite14 / 3 — MC1488. MAXIMUM RATINGS. Rating. Symbol. Value. Unit. ELECTRICAL …
Revision9
Dateiformat / GrößePDF / 343 Kb
DokumentenspracheEnglisch

MC1488. MAXIMUM RATINGS. Rating. Symbol. Value. Unit. ELECTRICAL CHARACTERISTICS. Characteristic. Min. Typ. Max. SWITCHING CHARACTERISTICS

MC1488 MAXIMUM RATINGS Rating Symbol Value Unit ELECTRICAL CHARACTERISTICS Characteristic Min Typ Max SWITCHING CHARACTERISTICS

Modelllinie für dieses Datenblatt

Textversion des Dokuments

MC1488 MAXIMUM RATINGS
(TA = +25°C, unless otherwise noted.)
Rating Symbol Value Unit
Power Supply Voltage VCC + 15 Vdc VEE − 15 Input Voltage Range VIR − 15 p VIR p Vdc 7.0 Output Signal Voltage VO ±15 Vdc Power Derating (Package Limitation, SO−14 and Plastic Dual−In−Line Package) PD 1000 mW Derate above TA = + 25°C 1/RqJA 6.7 mW/°C Operating Ambient Temperature Range TA 0 to + 75 °C Storage Temperature Range Tstg − 65 to + 175 °C Stresses exceeding Maximum Ratings may damage the device. Maximum Ratings are stress ratings only. Functional operation above the Recommended Operating Conditions is not implied. Extended exposure to stresses above the Recommended Operating Conditions may affect device reliability.
ELECTRICAL CHARACTERISTICS
(VCC = + 9.0 ± 1% Vdc, VEE = −9.0 ± 1% Vdc, TA = 0 to 75°C, unless otherwise noted.)
Characteristic Symbol Min Typ Max Unit
Input Current − Low Logic State (VIL = 0) IIL − 1.0 1.6 mA Input Current − High Logic State (VIH = 5.0 V) IIH − − 10 mA Output Voltage − High Logic State VOH Vdc (VIL = 0.8 Vdc, RL = 3.0 kW, VCC = + 9.0 Vdc, VEE = − 9.0 Vdc) + 6.0 +7.0 − (VIL = 0.8 Vdc, RL = 3.0 kW, VCC = + 13.2 Vdc, VEE = − 13.2 Vdc) + 9.0 +10.5 − Output Voltage − Low Logic State VOL Vdc (VIH = 1.9 Vdc, RL = 3.0 kW, VCC = + 9.0 Vdc, VEE = − 9.0 Vdc) − 6.0 − 7.0 − (VIH = 1.9 Vdc, RL = 3.0 kW, VCC = + 13.2 Vdc, VEE = − 13.2 Vdc) − 9.0 − 10.5 − Positive Output Short−Circuit Current, Note 1 IOS+ + 6.0 + 10 + 12 mA Negative Output Short−Circuit Current, Note 1 IOS− − 6.0 − 10 − 12 mA Output Resistance (VCC = VEE = 0, ⎥VO⎜ = ± 2.0 V) ro 300 − − Ohms Positive Supply Current (RI = ∞) ICC mA (VIH = 1.9 Vdc, VCC = + 9.0 Vdc) − + 15 + 20 (VIL = 0.8 Vdc, VCC = + 9.0 Vdc) − + 4.5 + 6.0 (VIH = 1.9 Vdc, VCC = + 12 Vdc) − + 19 + 25 (VIL = 0.8 Vdc, VCC = + 12 Vdc) − + 5.5 + 7.0 (VIH = 1.9 Vdc, VCC = + 15 Vdc) − − + 34 (VIL = 0.8 Vdc, VCC = + 15 Vdc) − − + 12 Negative Supply Current (RL = ∞) IEE (VIH = 1.9 Vdc, VEE = − 9.0 Vdc) − − 13 − 17 mA (VIL = 0.8 Vdc, VEE = − 9.0 Vdc) − − − 500 mA (VIH = 1.9 Vdc, VEE = − 12 Vdc) − − 18 − 23 mA (VIL = 0.8 Vdc, VEE = − 12 Vdc) − − − 500 mA (VIH = 1.9 Vdc, VEE = − 15 Vdc) − − − 34 mA (VIL = 0.8 Vdc, VEE = − 15 Vdc) − − − 2.5 mA Power Consumption PC mW (VCC = 9.0 Vdc, VEE = − 9.0 Vdc) − − 333 (VCC = 12 Vdc, VEE = − 12 Vdc) − − 576
SWITCHING CHARACTERISTICS
(VCC = +9.0 ± 1% Vdc, VEE = −9.0 ± 1% Vdc, TA = +25°C.) Propagation Delay Time (zI = 3.0 k and 15 pF) tPLH − 275 350 ns Fall Time (zI = 3.0 k and 15 pF) tTHL − 45 75 ns Propagation Delay Time (zI = 3.0 k and 15 pF) tPHL − 110 175 ns Rise Time (zI = 3.0 k and 15 pF) tTLH − 55 100 ns 1. Maximum Package Power Dissipation may be exceeded if all outputs are shorted simultaneously.
http://onsemi.com 3