DS8113 Maxim, DS8113 Datasheet - Page 12
DS8113
Manufacturer Part Number
DS8113
Description
The DS8113 smart card interface is a low-cost, analog front-end for a smart card reader, designed for all ISO 7816, EMV™, and GSM11-11 applications
Manufacturer
Maxim
Datasheet
1.DS8113.pdf
(17 pages)
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When a session is completed, the host microcontroller
sets the CMDVCC line high to execute an automatic
deactivation sequence and returns the card interface to
the inactive mode (Figure 5).
The V
80mA continuously at 5V, 65mA at 3V, and 30mA at
1.8V. An internal overload detector triggers at approxi-
mately 120mA. Current samples to the detector are fil-
tered. This allows spurious current pulses (with a
duration of a few µs) up to 200mA to be drawn without
causing deactivation. The average current must stay
below the specified maximum current value. To main-
tain V
ESR < 100mΩ) should be connected to CGND and
placed near the DS8113’s VCC pin, and a 100nF or
220nF capacitor (220nF is the best choice) with the
same ESR should be connected to CGND and placed
near the smart card reader’s C1 contact.
Smart Card Interface
12
1) RST goes low (t
2) CLK is held low (t
3) I/O, AUX1, and AUX2 are pulled low (t
4) V
5) When V
6) All card contacts become low impedance to GND;
7) The internal oscillator returns to its lower frequency.
______________________________________________________________________________________
times the period of the internal oscillator (approxi-
mately 25µs).
tion sequence is complete (at t
I/OIN, AUX1IN, and AUX2IN remain at V
up through an 11kΩ resistor).
CC
CC
CC
voltage accuracy, a 100nF capacitor (with an
starts to fall (t
generator has a capacity to supply up to
CC
reaches its inactive state, the deactiva-
Deactivation Sequence
10
).
12
14
= t
= t
10
10
V
+ 0.5 × T) where T is 64
+ 1.5 × T).
CC
DE
).
Generator
13
= t
DD
10
(pulled
+ T).
The following fault conditions are monitored:
There are two different cases (Figure 6):
The DS8113 has a debounce feature with an 8ms typi-
cal duration (Figure 6). When a card is inserted, output
OFF goes high after the debounce time delay. When
the card is extracted, an automatic deactivation
sequence of the card is performed on the first true/false
transition on PRES and output OFF goes low.
• Short-circuit or high current on VCC
• Removal of a card during a transaction
• V
• Card voltage generator operating out of the speci-
• Overheating
• CMDVCC High Outside a Card Session. Output
• CMDVCC Low Within a Card Session. Output
fied values (V
too high)
OFF is low if a card is not in the card reader and
high if a card is in the reader. The V
monitored—a decrease in input voltage generates
an internal power-on reset pulse but does not
affect the OFF signal. Short-circuit and tempera-
ture detection is disabled because the card is not
powered up.
OFF goes low when a fault condition is detected,
and an emergency deactivation is performed auto-
matically (Figure 7). When the system controller
resets CMDVCC to high, it may sense the OFF
level again after completing the deactivation
sequence. This distinguishes between a card
extraction and a hardware problem (OFF goes high
again if a card is present). Depending on the con-
nector’s card-present switch (normally closed or
normally open) and the mechanical characteristics
of the switch, bouncing can occur on the PRES sig-
nals at card insertion or withdrawal.
DD
dropping
DDA
too low or current consumption
Fault Detection
DD
supply is
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