Features: • World's smallest and lowest standby power dual transceiver 0.3 x 1 packages• Dual transceiver meets military data bus requirements, MIL-STD-1553 and MIL-STD-1760• Low power dissipation at full output power• Single +5V power supply • Current source outp...
ACT4468D: Features: • World's smallest and lowest standby power dual transceiver 0.3 x 1 packages• Dual transceiver meets military data bus requirements, MIL-STD-1553 and MIL-STD-1760• L...
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Operating Case Temperature | -55°C to +125°C |
Storage Case Temperature | -65°C to +150°C |
Positive Power Supply Voltage | -0.3 V to +7.0 V |
Receiver Differential Input | ±10 V |
Receiver Input Voltage (Common Mode) | ±5 V |
Driver Peak Output Current | 650 mA |
Total Package Power Dissipation over the Full Operating Case Temperature Rise |
2 Watt (Note: Normal operationconditions require one transmitter on and the other off at any given time. |
Maximum Junction To Case Temperature Rise for the Hottest Device |
10°C |
Thermal Resistance, Junction to Bottom of Case | 5°C/W |
The Aeroflex Circuit T echnology Model ACT4468D is a next generation D.I. monolithic transceiver which provide full compliance with MIL-STD-1553/1760 and data bus requirements in the smallest packages with the lowest standby power consumption and one power supply operation.
The dual channel Model ACT4468D perform the front-end analog function of inputting and outputting data through a transformer to a MIL-STD-1553/1760 data bus.
Design of these transceivers ACT4468D reflects particular attention to active filter performance. This results in low bit and word error rate with superior waveform purity and minimal zero crossover distortion. Efficient transmitter electrical and thermal design provides low internal power dissipation and heat rise at high as well as low duty cycles.
Each channel of the dual transceiver ACT4468D is completely separate from the other and fully independent. This includes power leads as well as signal lines. Hence, each channel may be connected to a different data bus with no interaction.