Datasheet
LTC4290/LTC4271
14
429071fa
For more information www.linear.com/LTC4290
CND (Pin 9): Clock Transceiver Negative Input Output
(Digital). Connect to CNA through a data transformer.
DPD (Pin 10): Data Transceiver Positive Input Output
(Digital). Connect to DPA through a data transformer.
DND (Pin 11): Data Transceiver Negative Input Output
(Digital). Connect to DNA through a data transformer.
V
DD33
(Pins 12, 20): V
DD
IO Power Supply. Connect to
a 3.3V power supply relative to DGND. V
DD33
must be
bypassed to DGND near the LTC4271 with at least a 0.1μF
capacitor.
RESET (Pin 14): Reset Input, Active Low. When the RESET
pin is low, the LTC4290/LTC4271 is held inactive with all
ports off and all internal registers reset to their power-up
states. When RESET is pulled high, the LTC4271 begins
normal operation. RESET can be connected to an exter
-
nal capacitor or RC network to provide a power turn-on
delay
. Internal filtering of the
RESET pin prevents glitches
less than 1μs wide from resetting the LTC4290/LTC4271.
Internally pulled up to V
DD
.
INT (Pin 15): Interrupt Output, Open Drain. INT will pull low
when any one of several events occur in the LTC4271. It will
return to a high impedance state when bits 6 or 7 are set
in the Reset PB register (1Ah). The INT signal can be used
to generate an interrupt to the host processor, eliminating
the need for continuous software polling. Individual INT
events can be disabled using the INT Mask register (01h).
See LTC4271 Software Programming documentation for
more information. The INT pin is only updated between
I
2
C transactions.
SDAOUT (Pin 16): Serial Data Output, Open Drain Data
Output for the I
2
C Serial Interface Bus. The LTC4271 uses
two pins to implement the bidirectional SDA function to
simplify optoisolation of the I
2
C bus. To implement a stan-
dard bidirectional SDA pin, tie SDAOUT and SDAIN together.
See Applications Information for more information.
SDAIN (Pin 17): Serial Data Input. High impedance data
input for the I
2
C serial interface bus. The LTC4271 uses two
pins to implement the bidirectional SDA function to simplify
optoisolation of the I
2
C bus. To implement a standard
bidirectional SDA pin, tie SDAOUT and SDAIN together.
See Applications Information for more information.
SCL (Pin 18): Serial Clock Input. High impedance clock
input for the I
2
C serial interface bus. The SCL pin should
be connected directly to the I
2
C SCL bus line. SCL must
be tied high if the I
2
C serial interface bus is not used.
CAP1 (Pin 19): Core Power Supply Bypass Capacitor. Con-
nect a 1µF Bypass capacitance to DGND for the internal
1.8V regulator
. Do not use other capacitor values.
AUTO (Pin 21):
AUTO Pin Mode Input. AUTO pin mode
allows the LTC4271 to detect and power up a PD even if
there is no host controller present on the I
2
C bus. The
AUTO pin determines the state of the internal registers
when the LTC4271 is reset or comes out of V
DD
UVLO
(see LTC4271 Software Programming documentation). The
states of these register bits can subsequently be changed
via the I
2
C interface. Internally pulled down to DGND. Must
be tied locally to either V
DD
or DGND.
GP1 (Pin 22): General Purpose Digital Input Output for
customer applications. Referenced to DGND.
GP0 (Pin 23): General Purpose Digital Input Output for
customer applications. Referenced to DGND.
MSD (Pin 24): Maskable Shutdown Input. Active low. When
pulled low, all ports that have their corresponding mask
bit set in the mconfig register (17h) will be reset. Internal
filtering of the MSD pin prevents glitches less than 1μs
wide from resetting ports. The MSD Pin Mode register can
configure the MSD pin polarity. Internally pulled up to V
DD
.
DGND (Exposed Pad Pin 25): Digital Ground. DGND should
be connected to the return from the V
DD
supply.
pin Functions