LTC4558EUD LINER [Linear Technology], LTC4558EUD Datasheet - Page 8
LTC4558EUD
Manufacturer Part Number
LTC4558EUD
Description
Dual SIM/Smart Card Power Supply and Interface
Manufacturer
LINER [Linear Technology]
Datasheet
1.LTC4558EUD.pdf
(12 pages)
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LTC4558
OPERATION
Table 1. Channel and Voltage Truth Table
Bidirectional Channels
The bidirectional channels are level shifted to the appro-
priate V
transistor performs the level shifting. The gate of the NMOS
transistor is biased such that the transistor is completely
off when both sides have relinquished the channel. If one
side of the channel asserts a LOW, then the transistor will
convey the LOW to the other side. Note that current passes
from the receiving side of the channel to the transmitting
side. The low output voltage of the receiving side will be
dependent upon the voltage at the transmitting side plus
the IR drop of the pass transistor.
When a card socket is selected, it becomes a candidate
to drive data on the DATA pin and likewise receive data
from the DATA pin. When a card socket is deselected, its
I/O pin will be pulled HIGH and communication with the
DATA pin will be disabled. If both channels are disabled,
a weak pull-up ensures that the DATA pin is held HIGH,
as long as DV
The LTC4558 features two independent SIM/Smart Card
channels. Only one of these channels may be open for
communication at a time however both channels can be
enabled and made ready for communication using the
ENABLEA and ENABLEB pins. This allows faster transi-
tion from one channel to the other. Each channel is able
to produce two voltage levels, 1.8V and 3V. The channel
selection and voltage selection are controlled by the CSEL,
VSELA and VSELB pins as shown in the table below:
8
CSEL
0
0
0
0
1
1
1
1
CCA,B
VSELA
0
0
1
1
0
0
1
1
voltages at the I/OA,B pins. An NMOS pass
CC
is powered.
VSELB
0
1
0
1
0
1
0
1
SELECTED
CARD
A
A
A
A
B
B
B
B
1.8V
1.8V
1.8V
1.8V
3V
3V
3V
3V
A
VOLTAGES
1.8V
1.8V
1.8V
1.8V
3V
3V
3V
3V
B
Dynamic Pull-Up Current Sources
The current sources on the bidirectional pins (DATA,I/OA,B)
are dynamically activated to achieve a fast rise time with
a relatively small static current. Once a bidirectional pin
is relinquished, a small start-up current begins to charge
the node. An edge rate detector determines if the pin is
released by comparing its slew rate with an internal refer-
ence value. If a valid transition is detected, a large pull-up
current enhances the edge rate on the node. The higher
slew rate corroborates the decision to charge the node
thereby affecting a dynamic form of hysteresis.
Reset Channels
When a card is selected, the reset channel provides a level
shifted path from the RSTIN pin to the RST pin of the
selected card. When a card is deselected, the last state of
the RSTA,B pin is latched. This allows a deselected card to
remain active, and therefore eliminates delays associated
with card initialization.
Clock Run Mode
Various SIM/Smart Cards may have different requirements
for the state of the clock pin when the channel is not open
for communication. The CLKRUNA,B pins allow the user to
select whether the clock is brought LOW after the channel
is deselected or allowed to run. If a channel is enabled,
bringing its CLKRUN pin HIGH will transmit the clock to
the corresponding card socket, whether or not the channel
is selected using the CSEL.
SUPPLY
LOCAL
Figure 1. Dynamic Pull-Up Current Source
I
START
BIDIRECTIONAL
PIN
dv
dt
+
–
4558 F01
V
REF
4558f
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