NLSX4014
www.onsemi.com
10
IMPORTANT APPLICATIONS INFORMATION
Level Translator Architecture
The NLSX4014 auto sense translator provides
bi−directional voltage level shifting to transfer data in
multiple supply voltage systems. This device has two
supply voltages, V
L
and V
CC
, which set the logic levels on
the input and output sides of the translator. When used to
transfer data from the V
L
to the V
CC
ports, input signals
referenced to the V
L
supply are translated to output signals
with a logic level matched to V
CC
. In a similar manner, the
V
CC
to V
L
translation shifts input signals with a logic level
compatible to V
CC
to an output signal matched to V
L
.
The NLSX4014 consists of four bi−directional channels
that independently determine the direction of the data flow
without requiring a directional pin. The one−shot circuits
are used to detect the rising or falling input signals. In
addition, the one shots decrease the rise and fall time of the
output signal for high−to−low and low−to−high transitions.
Input Driver Requirements
For proper operation, the input driver to the auto sense
translator should be capable of driving 2.0 mA of peak
output current.
Output Load Requirements
The NLSX4014 is designed to drive CMOS inputs.
Resistive pullup or pulldown loads of less than 50 kW
should not be used with this device. The NLSX3373 or
NLSX3378 open−drain auto sense translators are alternate
translator options for an application such as the I
2
C bus that
requires pullup resistors.
Enable Input (EN)
The NLSX4014 has an Enable pin (EN) that provides
tri−state operation at the I/O pins. Driving the Enable pin
to a low logic level minimizes the power consumption of
the device and drives the I/O V
CC
and I/O V
L
pins to a high
impedance state. Normal translation operation occurs
when the EN pin is equal to a logic high signal. The EN pin
is referenced to the V
L
supply and has Over−Voltage
Tolerant (OVT) protection.
Uni−Directional versus Bi−Directional Translation
The NLSX4014 can function as a non−inverting
uni−directional translator. One advantage of using the
translator as a uni−directional device is that each I/O pin
can be configured as either an input or output. The
configurable input or output feature is especially useful in
applications such as SPI that use multiple uni−directional
I/O lines to send data to and from a device. The flexible I/O
port of the auto sense translator simplifies the trace
connections on the PCB.
Power Supply Guidelines
It is recommended that the V
L
supply should be less than
or equal to the value of the V
CC
minus 0.4 V. The
sequencing of the power supplies will not damage the
device during the power up operation; however, the current
consumption of the device will increase if V
L
exceeds V
CC
minus 0.4 V. In addition, the I/O V
CC
and I/O V
L
pins are
in the high impedance state if either supply voltage is equal
to 0 V.
For optimal performance, 0.01 to 0.1 mF decoupling
capacitors should be used on the V
L
and V
CC
power supply
pins. Ceramic capacitors are a good design choice to filter
and bypass any noise signals on the power supply voltage
lines to the ground plane of the PCB. The noise immunity
will be maximized by placing the capacitors as close as
possible to the supply and ground pins, along with
minimizing the PCB connection traces.
The NLSX4014 provides power supply isolation if either
supply voltage V
L
or V
CC
is equal to 0 V. The isolation
occurs because the I/O pins are in the high impedance state.
It is recommended that pulldown resistors should be used
if the V
L
or V
CC
are floated or in a high impedance state.
A pulldown resistor connected from the supply voltage to
ground ensures that the translator’s supply voltage is equal
to 0 V.