No. | Partie # | Fabricant | Description | Fiche Technique |
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National Semiconductor |
3V Enhanced CMOS Quad Differential Line Receiver typical low static ICC of 9 mA which makes it ideal for battery powered and power conscious applications. The TRI-STATE ® enables, EN, allow the device to be disabled when not in use to minimize power consumption. The dual enable scheme allows for fl |
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National Semiconductor |
Quad CMOS Differential Line Receiver internal pull-up and pull-down resistors which prevent output oscillation on unused channels. Separate enable pins allow independent control of receiver pairs. The TRI-STATE ® outputs have 6 mA source and sink capability. The DS34C86T is pin compatib |
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National Semiconductor |
CMOS Quad TRISTATE Differential Line Driver n n n n n n n n n TTL input compatible Typical propagation delays: 6 ns Typical output skew: 0.5 ns Outputs won’t load line when VCC = 0V Meets the requirements of EIA standard RS-422 Operation from single 5V supply TRI-STATE outputs for connection t |
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National Semiconductor |
Quad Differential Bus Transceiver n n n n n Pinout for IPI interface Compact 20-pin PLCC package Meets EIA-485 standard for multipoint bus transmission Greater than 60 mA source/sink Thermal Shutdown Protection Pinout and Logic Diagram DS010602-1 Order Number DS36950 See NS Packag |
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National Semiconductor |
Multipoint RS485/RS422 Transceivers/Repeaters TRI-STATE capability. The driver outputs remain in TRI-STATE over the entire common mode range of +12V to −7V. Bus faults that cause excessive power dissipation within the device trigger a thermal shutdown circuit, which forces the driver outputs int |
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National Semiconductor |
Dual High Speed Bi-Directional Differential Transceiver n Industrial Temperat |
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National Semiconductor |
Power-Saver Equalizer ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ 1 to 5 Gbps Operation No Power or Ground Required Equalization effective anywhere in data path Equalizes CML, LV-PECL, LVDS signals Symmetric I/O structures provide equal boost for bidirectional operation 7 dB Maximum Boost |
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National Semiconductor Corporation |
HDMI Retimer ■ Optimized for HDMI/DVI repeater applications ■ TMDS compatible inputs with configurable receive equalization supporting data rates up to 3.4 Gbps emphasis ■ TMDS compatible outputs with configurable transmit de ■ Dedicated CDR on each data channel |
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National Semiconductor |
Quad MOS Clock Driver 2 common enable inputs a refresh input and a clock control input for simplified system designs The circuit was designed for driving highly capacitive loads at high speeds and uses Schottky-clamped transistors PNP transistors are used on all inputs th |
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National Semiconductor |
Multipoint RS485/RS422 Transceivers n Meets EIA standard RS485 for multipoint bus transmission and is compatible with RS-422 n 10 ns driver propagation delays (typical) n Single +5V supply n −7V to +12V bus common mode range permits ± 7V ground difference between devices on the bus n T |
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National Semiconductor |
BTL Trapezoidal Transceivers make them ideal for driving low impedance buses with minimum power consumption. The DS3896 is an octal high speed schottky bus transceiver with common control signals, whereas the DS3897 is a quad device with independent driver input and receiver out |
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National Semiconductor |
Octal TRI-STATE MOS Drivers Y Y Y Y Y Y High speed capabilities Typical 5 ns driving 50 pF 8 ns driving 500 pF TRI-STATE outputs High VOH (3 4V min) High density Eight drivers and two disable controls for TRI-STATE in a 20-pin package PNP inputs reduce DC loading on bus lines |
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National Semiconductor |
Enhanced CMOS Quad Differential Line Driver low static ICC of 100 µA max which makes it ideal for battery powered and power conscious applications. The TRI-STATE ® enable, EN, allows the device to be disabled when the device is not in use to minimize power. The dual enable scheme allows for fl |
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National Semiconductor |
CMOS Dual Peripheral Drivers output transistor protection if the VCC supply is lost by forcing the output into the high impedance OFF state with the same breakdown levels as when VCC was applied Pin-outs are the same as the respective logic functions found in the following popul |
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National Semiconductor |
CMOS Dual Peripheral Drivers |
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National Semiconductor |
Multipoint RS485/RS422 Transceivers TRI-STATE capability. The driver outputs remain in TRI-STATE over the entire common mode range of +12V to −7V. Bus faults that cause excessive power dissipation within the device trigger a thermal shutdown circuit, which forces the driver outputs int |
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National Semiconductor |
Multipoint RS485/RS422 Transceivers/Repeaters n Meets EIA standard RS485 for multipoint bus transmission and is compatible with RS-422 n 15 ns driver propagation delays with 2 ns skew (typical) n Single +5V supply n −7V to +12V bus common mode range permits ± 7V ground difference between devices |
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National Semiconductor |
Multipoint RS485/RS422 Transceivers/Repeaters n Meets EIA standard RS485 for multipoint bus transmission and is compatible with RS-422 n 15 ns driver propagation delays with 2 ns skew (typical) n Single +5V supply n −7V to +12V bus common mode range permits ± 7V ground difference between devices |
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National Semiconductor |
Serializer ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ 5-bit LVDS parallel data interface Programmable transmit de-emphasis Configurable output levels (VOD) Selectable DC-balanced encoder Selectable data scrambler Remote Sense for automatic detection and negotiation of l |
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National Semiconductor |
Quad Peripheral Driver associated with the output structure that make it highly versatile to many applications Each output is capable of 600 mA sink currents and offers 65V standoff voltage in non-inductive applications A clamp network capable of handling 800 mA is incorpo |
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