MAX378 Maxim, MAX378 Datasheet - Page 7
MAX378
Manufacturer Part Number
MAX378
Description
The MAX378 8-channel single-ended (1-of-8) multiplexer and the MAX379 4-channel differential (2-of-8) multiplexer use a series N-channel/P-channel/N-channel structure to provide significant fault protection
Manufacturer
Maxim
Datasheet
1.MAX378.pdf
(12 pages)
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Input switching, however, must be done with a fault-
protected MAX378 multiplexer, to provide the level of
protection and isolation required with most data acqui-
sition inputs. Since external signal sources may contin-
ue to supply voltage when the multiplexer and system
power are turned off, non-fault-protected multiplexers,
or even first-generation fault-protected devices, will
allow many milliamps of fault current to flow from out-
side sources into the multiplexer. This could result in
damage to either the sensors or the multiplexer. A non-
fault-protected multiplexer will also allow input overvolt-
ages to appear at its output, perhaps damaging
Sample/Holds or A/Ds. Such input overdrives may also
cause input-to-input shorts, allowing the high current
output of one sensor to possibly damage another.
The MAX378 eliminates all of the above problems. It
not only limits its output voltage to safe levels, with or
without power applied (V+ and V-), but also turns all
channels off when power is removed. This allows it to
draw only sub-microamp fault currents from the inputs,
and maintain isolation between inputs for continuous
input levels up to ±75V with power supplies off.
The MAX378/MAX379 are fully fault protected for contin-
uous input voltages up to ±60V, whether or not the V+
and V- power supplies are present. These devices use
a “series FET” switching scheme which not only pro-
tects the multiplexer output from overvoltage, but also
limits the input current to sub-microamp levels.
Figures 7 and 8 show how the series FET circuit pro-
tects against overvoltage conditions. When power is
off, the gates of all three FETs are at ground. With a -60V
input, N-channel FET Q1 is turned on by the +60V gate-
Figure 7. -60V Overvoltage with Multiplexer Power OFF
_______________Detailed Description
N-CHANNEL MOSFET
BECAUSE V
IS TURNED ON
OVERVOLTAGE
-60V
GS
= +60V
MOSFET IS OFF
P-CHANNEL
S
_______________________________________________________________________________________
Q
G
1
D
Fault Protection Circuitry
-60V
S
Q
G
2
D
S
Q
G
3
High-Voltage, Fault-Protected
D
Figure 8. +60V Overvoltage with Multiplexer Power OFF
Figure 9. -60V Overvoltage on an OFF Channel with
Multiplexer Power Supply ON
Figure 10. +60V Overvoltage Input to the ON Channel
N-CHANNEL MOSFET
BECAUSE V
N-CHANNEL MOSFET
BECAUSE V
N-CHANNEL MOSFET
BECAUSE V
IS TURNED OFF
IS TURNED ON
IS TURNED OFF
OVERVOLTAGE
OVERVOLTAGE
OVERVOLTAGE
Analog Multiplexers
+60V
+60V
-60V
GS
GS
GS
= -45V
= -60V
= +45V
S
-15V
-15V
Q
V
Q
G
+15V FROM
Q
1
TN = +1.5V
1
-15V FROM
DRIVERS
1
MOSFET IS OFF
DRIVERS
D
P-CHANNEL
+13.5V
S
-60V
+15V
+15V
Q
Q
G
Q
-15V FROM
2
2
+15V FROM
2
DRIVERS
DRIVERS
D
S
-15V
MOSFET IS ON
-15V
MOSFET IS OFF
N-CHANNEL
N-CHANNEL
Q
Q
G
Q
3
3
3
D
+60V FORCED
ON COMMON
CIRCUITRY
EXTERNAL
OUTPUT
LINE BY
OUTPUT
+13.5V
7
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