DS8023-KIT Maxim Integrated Products, DS8023-KIT Datasheet - Page 11

DS8023-KIT

Manufacturer Part Number

DS8023-KIT

Description

EVALUATION KIT FOR DS8023

Manufacturer

Maxim Integrated Products

Datasheet

1.DS8023-RJXTR.pdf (16 pages)

Specifications of DS8023-KIT

Main Purpose

Interface, Smart Card

Utilized Ic / Part

DS8023

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Secondary Attributes

Embedded

Primary Attributes

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Other names

90-08023-KIT

Current page: 11 of 16
Download datasheet (303Kb)

When the host microcontroller is done communicating

with the smart card, it sets the CMDVCC line high to

execute an automatic deactivation sequence and

returns the card interface to the inactive mode.

The following sequence of events occurs during a

deactivation sequence (Figure 5):

The card voltage (V

80mA continuously at 5V, 65mA at 3V, or 30mA at 1.8V.

An internal overload detector triggers at approximately

120mA. Current samples to the detector are filtered.

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.

See the Applications Information section for recommen-

dations to help maintain V

The DS8023 integrates circuitry to monitor the following

fault conditions:

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.

• Short circuit or high current on V

• Card removal while the interface is activated

• V

• Card voltage generator operating out of the speci-

• Overheating

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 internal 11kΩ resistor).

fied values (V

too high)

starts to fall (t

dropping below threshold

reaches its inactive state, the deactiva-

______________________________________________________________________________________

Deactivation Sequence

DDA

too low or current consumption

) generator can supply up to

= t

voltage accuracy.

Fault Detection

+ 0.5 × T), where T is 64

+ 1.5 × T).

Generator

= t

(pulled

+ T).

There are two different cases for how the DS8023

reacts to fault detection (Figure 6):

Depending on the connector’s card-present switch

(normally closed or normally open) and the mechanical

characteristics of the switch, bouncing can occur on

the PRES signals at card insertion or withdrawal. The

DS8023 has a debounce feature with an 8ms typical

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.

A low-power state, stop mode, can be entered by forc-

ing the CMDVCC, 5V/3V, and 1_8V input pins to a

logic-high state. Stop mode can only be entered when

the smart card interface is inactive. In stop mode all

internal analog circuits are disabled. The OFF pin fol-

lows the status of the PRES pin. To exit stop mode,

change the state of one or more of the three control

pins to a logic-low. An internal 220µs (typ) power-up

delay and the 8ms PRES debounce delay are in effect

and OFF is asserted to allow the internal circuitry to sta-

bilize. This prevents smart card access from occurring

after leaving the stop mode. Figure 8 shows the control

sequence for entering and exiting stop mode. Note that

an in-progress deactivation sequence always finishes

before the DS8023 enters low-power stop mode.

• Outside a Card Session (CMDVCC High). Output

• Within a Card Session (CMDVCC Low). Output

Smart Card Interface

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 are 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).

Stop Mode (Low-Power Mode)

supply is

DS8023-KIT Maxim Integrated Products, DS8023-KIT Datasheet - Page 11

DS8023-KIT

Specifications of DS8023-KIT

Related parts for DS8023-KIT