![]() What happens if the impedance of the trace is lower than the sum of impedance of the driver and the series termination resistor?.What happens if the impedance of the trace is higher than the sum of the impedance of the driver and the series termination resistor?.What do I do with the unused input, output and I/O pins?.What are the key features of VCX family?.What are the key features of ST, STX families?.What are the key features of SSTV family?.What are the key features of LVTC family?.What are the key features of LPT family?.What are the key features of LCX family?.What are the key features of FCT family?.What are the key features of ALVC family?.What are the key feature of SSTVF family?.What are the current drives for FCT logic?.What are the competitive advantages of Pericom SOTiny Gate logic over other gate logic families in the market?.Is there a replacement for an obsolete part?.Is LVTC compatible with BiCMOS LVT logic?.Is LCX compatible with other 3.3V CMOS families such as LVC?.Is ALVTC compatible with ALVT BiCMOS logic?.How to minimize the logic drivers's output jitter?.How to match the impedance of a logic driver and its output trace?.How to extract the output impedance R_out of the NMOS and PMOS from IBIS model?.How to determine the operation frequency range of a device?.How fast is the speed for SOTiny Gate logic?.How does LVTC logic provide "live insertion" protection?.How do I choose the termination resistance for a driver with unbalanced PMOS and NMOS?.How can I get the output impedance of a trace?.Do I need to match the impedance of a driver and its trace with heavy capacitive load?.Can the PI74FCTxx logic devices work with 3.3V inputs and power?.Can I short several driver outputs together in order to drive a 50-ohm load?.Can I apply any voltage in the nominal range (1.8V-2.5V for PI74AVC164245, and 1.5V-2.5V for PI74AVC164245LA) to the VCCA pin? For example, can I apply 2.0V to VCCA?.Can AVC+ operate at different voltages?.Can ALVTC operate at different voltages?.Can a logic driver tolerate a heavy undershoot?.The I OFF circuitry disables the output, preventing the damaging backflow current through the device when it is in powered down. This device is fully specified for partial power-down applications using I OFF. A LOW level at pin OE causes the outputs to be in a high-impedance OFF-state. The active HIGH OE pin is referenced to V CCA and controllable by a signal in either VCCA or VCCB domain. Port A is referenced to V CCA and port B is referenced to V CCB. PI3CLS9606 can be used for both open drain as well as push- pull application which allows for level translation applications using 13C and I2C protocols. V CCA must be ≤V CCB to ensure proper operation. V CCA can be supplied at any voltage between 0.72V and 1.98V and V CCB can be supplied at any voltage between 0.72V and 1.98V. It features two 1-bit input-output ports (An and Bn), one output enable input (OE) and two supply pins (V CCA and V CCB). The PI3CLS9606 is a 2-bit, dual supply translating transceiver with auto direction sensing, that enables bidirectional voltage level translation for traditional I2C-bus/SMBus applications, and 12.5 MHz 13C-bus applications.
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