ML65L245CS Ver la hoja de datos (PDF) - Fairchild Semiconductor
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ML65L245CS Datasheet PDF : 10 Pages
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FUNCTIONAL DESCRIPTION
The ML65245 and ML65L245 are very high speed non-
inverting transceivers with three-state outputs which are
ideally suited for bus-oriented applications. They provide
a low propagation delay by using an analog design
approach (a high speed unity gain buffer), as compared to
conventional digital approaches. The ML65245 and
ML65L245 follow the pinout and functionality of the
industry standard FCT245 series of transceivers and are
intended to replace them in designs where the
propagation delay is a critical part of the system design
considerations. The ML65245 and ML65L245 are capable
of driving load capacitances several times larger than
their input capacitance. They are configured so that
signals pass from Ai to Bi, or from Bi to Ai, depending on
the state of the T/R pin. All of the signal lines can be
made high impedance via the OE pin.
These unity gain analog buffers achieve low propagation
delays by having the output follow the input with a small
offset. The output rise and fall times will closely match
those of the input waveform. All inputs and outputs have
Schottky clamp diodes to handle undershoot or overshoot
noise suppression in unterminated applications. All
outputs have ground bounce suppression (typically
< 400mV), high drive output capability with almost
immediate response to the input signal, and low output
skew.
The IOL current drive capability of a buffer/line driver is
often interpreted as a measure of its ability to sink current
ML65245**/ML65L245*
in a dynamic sense. This may be true for CMOS buffer/
line drivers, but it is not true for the ML65245 and
ML65L245. This is because the their sink and source
current capability depends on the voltage difference
between the output and the input. The ML65245 can sink
or source more than 100mA to a load when the load is
switching due to the fact that during the transition, the
difference between the input and output is large. IOL is
only significant as a DC specification, and is 25mA.
Architectural Description
Until now, buffer/line drivers have been implemented in
CMOS logic and made to be TTL compatible by sizing
the input devices appropriately. In order to buffer large
capacitances with CMOS logic, it is necessary to cascade
an even number of inverters, each successive inverter
larger than the preceding, eventually leading to an
inverter that will drive the required load capacitance at
the required frequency. Each inverter stage represents an
additional delay in the gating process because in order for
a single gate to switch, the input must slew more than
half of the supply voltage. The best of these CMOS buffers
has managed to drive a 50pF load capacitance with a
delay of 3.2ns. Micro Linear has produced an octal
transceiver with a delay less than 1.7ns by using a unique
circuit architecture that does not require cascaded logic
gates. The ML65245 uses a feedback technique to
produce an output that follows the input. If the output
voltage is not close to the input, then the feedback
circuitry will source or sink enough current to the load
capacitance to correct the discrepancy.
VCC
R8
Q1
R3
R4
R1
IN
Q4
Q3
Q5
R5
R2
Q6
R6
Q2
R7
OUT
Q7
GND
Figure 5. One buffer cell of the ML65245
REV. 1.0 10/25/2000
5
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