TERIDIAN 73S8024RN

73S8024RN
Low Cost Smart Card Interface
DATA SHEET
January 2009
DESCRIPTION
ADVANTAGES
The Teridian 73S8024RN is a single smart card (ICC)
interface IC that can be controlled by a dedicated control
bus. The 73S8024RN has been designed to provide full
electrical compliance with ISO-7816-3, EMV 4.0
(EMV2000) and NDS specifications.
•
Interfacing with the system controller is done through a
control bus, composed of digital inputs to control the
interface, and one interrupt output to inform the system
controller of the card presence and faults.
The card clock can be generated by an on-chip oscillator
using an external crystal or by connection to a clock
signal.
The 73S8024RN incorporates an ISO-7816-3
activation/deactivation sequencer that controls the card
signals. Level-shifters drive the card signals with the
selected card voltage (3V or 5V), coming from an internal
Low Drop-Out (LDO) voltage regulator. This LDO
regulator is powered by a dedicated power supply input
VPC. Digital circuitry is separately powered by a digital
power supply VDD.
•
•
•
•
FEATURES
•
Card Interface:
ƒ Complies with ISO-7816-3, EMV 4.0 and NDS
ƒ A LDO voltage regulator provides 3V / 5V to the card
from an external power supply input
ƒ Provides at least 90mA to the card
ƒ ISO-7816-3 Activation / Deactivation sequencer with
emergency automated deactivation on card removal
or fault detected by the protection circuitry
ƒ Protection includes 3 voltage supervisors that detect
voltage drops on VCC (card), VDD (digital)**, and VPC
(regulator) power supplies
ƒ The VDD voltage supervisor threshold value can be
externally adjusted**
ƒ Over-current detection 150mA max
ƒ Card clock stop high or low*
ƒ 2 card detection inputs, 1 for each possible user
polarity
ƒ Auxiliary I/O lines, for C4 / C8 contact signals*
ƒ Card CLK clock frequency up to 20MHz
•
System Controller Interface:
ƒ 3 Digital inputs control the card activation /
deactivation, card reset and card voltage
ƒ 4 Digital inputs control the card clock (division rate
and card clock stop modes)
ƒ 1 Digital output, interrupt to the system controller,
allows the system controller to monitor the card
presence and faults.
ƒ Crystal oscillator or host clock, up to 27MHz
•
Regulator Power Supply:
ƒ 4.75V to 5.5V (EMV 4.0)
ƒ 4.85V to 5.5V (NDS)
•
Digital Interfacing: 2.7V to 5.5V
•
•
6kV ESD Protection on the card interface
Package: SO28, 20QFN or 32QFN
With its embedded LDO regulator, the 73S8024RN is a
cost effective solution for any application where a 5V
(typically -5% +10%) power supply is available.
Hardware support for auxiliary I/O lines, C4 / C8 contacts,
is provided*.
Emergency card deactivation is initiated upon card
extraction or upon any fault generated by the protection
circuitry. The fault can be a card over-current, a VDD
(digital power supply)**, a VPC (regulator power supply), a
VCC (card power supply) or an over-heating fault.
The card over-current circuitry is a true current detection
function, as opposed to VCC voltage drop detection, as
usually implemented in ICC interface ICs.
The VDD voltage fault has a threshold voltage that can be
adjusted with an external resistor or resistor network. It
allows automated card deactivation at a customized VDD
voltage threshold value. It can be used, for instance, to
match the system controller operating voltage range.
APPLICATIONS
•
•
•
Set-Top-Box Conditional Access and Pay-perView
Point of Sales and Transaction Terminals
Control Access and Identification
* Pins/functions not available on 20-pin QFN package.
** User VDD_FLT threshold configuration not available on
20-pin QFN package.
Rev. 1.8
Traditional step-up converter is replaced by a LDO
regulator:
Æ Greatly reduced power dissipation
Æ Fewer external components are required
Æ Better noise performance
Æ High current capability (90mA supplied to the card)
SO28 package is pin-to-pin compatible with
industry-standard TDA8004 and TDA8024
Card clock STOP (high and low) mode
Small format (4x4x0.85mm) 20QFN package option
True card over-current detection
© 2009 Teridian Semiconductor Corporation
1
73S8024RN Data Sheet
DS_8024RN_020
FUNCTIONAL DIAGRAM
VDDF_ADJ
VDD
21 [20] {12}
NC
VPC
5 [2,9,16,25,32]
18 [17]
6 [3] {2}
6
VPC FAULT
DIGITAL POWER SUPPLY
VDD VOLTAGE SUPERVISOR
VOLTAGE REFERENCE
{13} [21] 22
GND
VDD FAULT
VCC FAULT
ICC FAULT
{10} [18] 19
Int_Clk
CMDVCC
{11} [19] 20
RSTIN
{20} [31] 3
5V/3V
{14} [22] 23
OFF
DIGITAL
CIRCUITRY
&
FAULT LOGIC
{18} [29] 1
CLKDIV1
{19} [30] 2
CLKDIV2
{15} [23] 24
XTALIN
{16} [24] 25
XTALOUT
[4] 7
CLKSTOP
[5] 8
CLKLEV
{17} [26] 26
I/OUC
[27]
AUX1UC 27
[28]
AUX2UC 28
R-C
OSC.
ISO-7816
SEQUENCER
XTAL
OSC
LDO
REGULATOR
&
VOLTAGE
SUPERVISORS
4 [1] {1}
GND
14 [12] {6}
GND
17 [15] {9}
VCC
ICC RESET
BUFFER
16 [14] {8}
RST
ICC CLOCK
BUFFER
15 [13] {7}
CLK
10 [7] {4}
PRES
CLOCK
GENERATION
9 [6] {3}
PRES
OVER
TEMP
TEMP FAULT
11 [8] {5}
I/O
ICC I/O BUFFERS
13 [11]
AUX1
12 [10]
AUX2
Pin numbers reference the 28SO package.
[Pin numbers] reference the 32QFN package.
{Pin numbers} reference the 20QFN package.
Figure 1: 73S8024RN Block Diagram
2
Rev. 1.8
DS_8024RN_020
73S8024RN Data Sheet
Table of Contents
1 Pin Description ....................................................................................................................................5 2 System Controller Interface................................................................................................................7 3 Power Supply and Voltage Supervision ............................................................................................8 4 Card Power Supply ..............................................................................................................................9 5 Over-Temperature Monitor .................................................................................................................9 6 On-Chip Oscillator and Card Clock ...................................................................................................9 7 Activation Sequence .........................................................................................................................10 8 Deactivation Sequence .....................................................................................................................12 9 OFF and Fault Detection ...................................................................................................................13 10 I/O Circuitry and Timing ....................................................................................................................13 11 Typical Application Schematic.........................................................................................................15 12 Electrical Specification .....................................................................................................................16 12.1 Absolute Maximum Ratings .........................................................................................................16 12.2 Recommended Operating Conditions .........................................................................................16 12.3 Package Thermal Parameters.....................................................................................................16 12.4 Smart Card Interface Requirements............................................................................................17 12.5 Characteristics: Digital Signals ....................................................................................................19 12.6 DC Characteristics.......................................................................................................................20 12.7 Voltage / Temperature Fault Detection Circuits ..........................................................................20 13 Mechanical Drawing (20QFN) ...........................................................................................................21 14 Package Pin Designation (20QFN) ...................................................................................................22 15 Mechanical Drawing (32QFN) ...........................................................................................................23 16 Package Pin Designation (32QFN) ...................................................................................................24 17 Mechanical Drawing (SO) .................................................................................................................25 18 Package Pin Designation (SO) .........................................................................................................25 19 Ordering Information .........................................................................................................................26 20 Related Documentation ....................................................................................................................26 21 Contact Information ..........................................................................................................................26 Revision History ........................................................................................................................................27 Rev. 1.8
3
73S8024RN Data Sheet
DS_8024RN_020
Figures
Figure 1: 73S8024RN Block Diagram .......................................................................................................... 2 Figure 2: Activation Sequence – RSTIN Low When CMDVCC Goes Low ................................................ 10 Figure 3: Activation Sequence – RSTIN High When CMDVCCB Goes Low ............................................. 11 Figure 4: Deactivation Sequence ............................................................................................................... 12 Figure 5: Timing Diagram – Management of the Interrupt Line OFF ......................................................... 13 Figure 6: I/O and I/OUC State Diagram...................................................................................................... 14 Figure 7: I/O – I/OUC Delays Timing Diagram ........................................................................................... 14 Figure 8: 73S8024RN – Typical Application Schematic ............................................................................. 15 Figure 9: 20QFN Mechanical Drawing ....................................................................................................... 21 Figure 10: 20QFN Pin Out .......................................................................................................................... 22 Figure 11: 32QFN Mechanical Drawing ..................................................................................................... 23 Figure 12: 32QFN Pin Out .......................................................................................................................... 24 Tables
Table 1: Choice of VCC Pin Capacitor ........................................................................................................... 9 Table 2: Card Clock Frequency .................................................................................................................... 9 4
Rev. 1.8
DS_8024RN_020
1
73S8024RN Data Sheet
Pin Description
CARD INTERFACE
Name
Pin
28SO
11
Pin
20QFN
5
AUX1
13
–
AUX2
12
–
RST
CLK
16
15
8
7
PRES
10
4
PRES
9
3
VCC
17
9
GND
14
6
I/O
Pin
Description
32QFN
8
Card I/O: Data signal to/from card. Includes a pull-up
resistor to VCC.
11
AUX1: Auxiliary data signal to/from card. Includes a
pull-up resistor to VCC.
10
AUX2: Auxiliary data signal to/from card. Includes a
pull-up resistor to VCC.
14
Card reset: provides reset (RST) signal to card.
13
Card clock: provides clock signal (CLK) to card. The rate
of this clock is determined by the external crystal
frequency or frequency of the external clock signal applied
on XTALIN and CLKDIV selections.
7
Card Presence switch: active high indicates card is
present. Should be tied to GND when not used, but it
Includes a high-impedance pull-down current source.
6
Card Presence switch: active low indicates card is
present. Should be tied to VDD when not used, but it
Includes a high-impedance pull-up current source.
15
Card power supply – logically controlled by sequencer,
output of LDO regulator. Requires an external filter
capacitor to the card GND.
12
Card ground.
MISCELLANEOUS INPUTS AND OUTPUTS
Name
Pin
28SO
24
Pin
20QFN
15
Pin
32QFN
23
XTALOUT
25
16
24
VDDF_ADJ
18
–
17
NC
5
–
2, 9,
16, 25,
32
XTALIN
Description
Crystal oscillator input: can either be connected to crystal
or driven as a source for the card clock.
Crystal oscillator output: connected to crystal. Left open
if XTALIN is being used as external clock input.
VDD fault threshold adjustment input: this pin can be used
to adjust the VDDF values (that controls deactivation of the
card). Must be left open if unused.
Non-connected pin.
POWER SUPPLY AND GROUND
Name
VDD
Pin
28SO
21
Pin
20QFN
12
Pin
32QFN
20
VPC
GND
GND
6
4
22
2
1
13
3
1
21
Rev. 1.8
Description
System interface supply voltage and supply voltage for
internal circuitry.
LDO regulator power supply source.
LDO Regulator ground.
Digital ground.
5
73S8024RN Data Sheet
DS_8024RN_020
MICROCONTROLLER INTERFACE
Name
Pin
28SO
19
Pin
20QFN
10
5V/#V
3
20
CLKSTOP
7
–
CLKLVL
8
–
CLKDIV1
CLKDIV2
1
2
18
19
CMDVCC
Pin
Description
32QFN
18
Command VCC (negative assertion): Logic low on this pin
causes the LDO regulator to ramp the VCC supply to the
card and initiates a card activation sequence, if a card is
present.
31
5 volt / 3 volt card selection: Logic one selects 5 volts for
VCC and card interface, logic low selects 3 volt operation.
When the part is to be used with a single card voltage,
this pin should be tied to either GND or VDD. However, it
includes a high impedance pull-up resistor to default this
pin high (selection of 5V card) when not connected.
4
Stops the card clock signal during a card session when
set high (card clock STOP mode). Internal pull-down
resistor allows this pin to be left as an open circuit if the
clock STOP mode is not used.
5
Sets the logic level of the card clock STOP mode when
the clock is de-activated by setting pin 7 high. Logic low
selects card STOP low. Logic high selects card STOP
high. Internal pull-down resistor allows this pin to be left
as an open circuit if the clock STOP mode is not used.
29
Sets the divide ratio from the XTAL oscillator (or external
30
clock input) to the card clock. These pins include
pull-down resistors.
OFF
23
14
22
RSTIN
20
11
19
I/OUC
26
17
26
AUX1UC
27
–
27
AUX2UC
28
–
28
6
CLKDIV1
CLKDIV2
CLOCK RATE
0
0
XTALIN/8
0
1
XTALIN/4
1
1
XTALIN/2
1
0
XTALIN
Interrupt signal to the processor. Active Low - Multifunction indicating fault conditions and card presence.
Open drain output configuration. It includes an internal
21kΩ pull-up to VDD.
Reset Input: This signal is the reset command to the card.
System controller data I/O to/from the card. Includes a
pull-up resistor to VDD.
System controller auxiliary data I/O to/from the card.
Includes a pull-up resistor to VDD.
System controller auxiliary data I/O to/from the card.
Includes a pull-up resistor to VDD.
Rev. 1.8
DS_8024RN_020
73S8024RN Data Sheet
2 System Controller Interface
Three separated digital inputs allow direct control of the card interface from the host as follows:
•
Pin CMDVCC: When low, starts an activation sequence.
•
Pin RSTIN: controls the card Reset signal (when enabled by the sequencer).
•
Pin 5V/#V: Defines the card voltage.
Card clock is controlled by four digital inputs:
•
CLKDIV1 and CLKDIV2 define the division rate for the clock frequency, from the input clock
frequency (crystal or external clock).
•
CLKSTOP (active high) allows card power down mode by stopping the card clock.
•
CLKLEV defines the card clock level of the card power down mode.
Interrupt output to the host: As long as the card is not activated, the OFF pin informs the host about the
card presence only (Low = No card in the reader). When CMDVCC is set low (Card activation sequence
requested from the host), low level on OFF means a fault has been detected (e.g. card removal during
card session, or voltage fault, or thermal / over-current fault) that automatically initiates a deactivation
sequence.
Rev. 1.8
7
73S8024RN Data Sheet
DS_8024RN_020
3 Power Supply and Voltage Supervision
The 73S8024RN smart card interface IC incorporates a LDO voltage regulator. The voltage output is
controlled by the digital input 5V/#V. This regulator is able to provide either 3V or 5V card voltage from
the power supply applied on the VPC pin.
Digital circuitry is powered by the power supply applied on the VDD pin. VDD also defines the voltage
range to interface with the system controller.
Three voltage supervisors constantly check the presence of the voltages VDD, VPC and VCC. A card
deactivation sequence is forced upon fault of any of these voltage supervisors. The two voltage
supervisors for VPC and VCC are linked so that a fault is generated to activate a deactivation sequence
when the voltage VPC becomes lower than VCC. It allows the 73S8024RN to operate at lower VPC voltage
when using 3V cards only. The voltage regulator can provide a current of at least 90mA on VCC that
comply easily with EMV 4.0 and NDS specifications. The VPC voltage supervisor threshold values are
defined from applicable standards (EMV and NDS). A third voltage supervisor monitors the VDD voltage.
It is used to initialize the ISO-7816-3 sequencer at power-on, and to deactivate the card at power-off or
upon fault. The voltage threshold of the VDD voltage supervisor is internally set by default to 2.3V
nominal. However, it may be desirable, in some applications, to modify this threshold value. The pin
VDDF_ADJ (pin 18 in the SO package, pin 17 in the 32QFN package, not supported in the 20QFN
package) is used to connect an external resistor REXT to ground to raise the VDD fault voltage to another
value VDDF. The resistor value is defined as follows:
REXT= 56kΩ /(VDDF - 2.33)
An alternative method (more accurate) of adjusting the VDD fault voltage is to use a resistive network of
R3 from the pin to supply and R1 from the pin to ground (see applications diagram). In order to set the
new threshold voltage, the equivalent resistance must be determined. This resistance value will be
designated Kx. Kx is defined as R1/(R1+R3). Kx is calculated as:
Kx = (2.789 / VTH) - 0.6125 where VTH is the desired new threshold voltage.
To determine the values of R1 and R3, use the following formulas.
R3 = 24000 / Kx
R1 = R3*(Kx / (1 – Kx))
Taking the example above, where a VDD fault threshold voltage of 2.7V is desired, solving for Kx gives:
Æ Kx = (2.789 / 2.7) - 0.6125 = 0.42046.
Solving for R3 gives:
Æ R3 = 24000 / 0.42046 = 57080.
Solving for R1 gives:
Æ R1 = 57080 *(0.42046 / (1 – 0.42046)) = 41412.
Using standard 1 % resistor values gives R3 = 57.6KΩ and R1 = 42.4KΩ.
These values give an equivalent resistance of Kx = 0.4228, a 0.6% error.
If the 2.3V default threshold is used, this pin must be left unconnected. The 20QFN package has the VDD
fault threshold fixed at this default value.
8
Rev. 1.8
DS_8024RN_020
73S8024RN Data Sheet
4 Card Power Supply
The card power supply is internally provided by the LDO regulator, and controlled by the digital
ISO-7816-3 sequencer. Card voltage selection is carried out by the digital input 5V/#V.
Choice of the VCC Capacitor:
Depending on the applications, the requirements in terms of both VCC minimum voltage and transient
currents that the interface must be able to provide to the card are different. An external capacitor must be
connected between the VCC pin and to the card ground in order to guarantee stability of the LDO
regulator, and to handle the transient requirements. The type and value of this capacitor can be
optimized to meet the desired specification. Table 1 shows the recommended capacitors for each VPC
power supply configuration and applicable specification.
Table 1: Choice of VCC Pin Capacitor
Specification Requirements
System Requirements
Min VCC Voltage
Allowed During
Transient Current
Max
Transient
Current
Charge
Min VPC
Power
Supply
Required
EMV 4.0
4.6V
30nA.s
4.75V
ISO-7816-3
4.5V
20nA.s
4.75V
NDS
4.6V
40nA.s
4.85V
Specification
Capacitor
Type
X5R/X7R
w/
ESR <
100mΩ
Capacitor Value
3.3 μF
1 μF
1 μF
Note: Capacitor value for NDS implementation is also defined by the deactivation time requirement.
5 Over-Temperature Monitor
A built-in detector monitors die temperature. Upon an over-temperature condition, a card deactivation
sequence is initiated, and an error or fault condition is reported to the system controller.
6 On-Chip Oscillator and Card Clock
The 73S8024RN device has an on-chip oscillator that can generate the smart card clock using an
external crystal (connected between the pins XTALIN and XTALOUT) to set the oscillator frequency.
When the clock signal is available from another source, it can be connected to the pin XTALIN, and the
pin XTALOUT should be left unconnected.
The card clock frequency may be chosen between four different division rates, defined by digital inputs
CLKDIV 1 and CLKDIV 2, as per Table 2.
Table 2: Card Clock Frequency
CLKDIV1
0
0
1
1
CLKDIV2
0
1
0
1
CLK
⅛ XTALIN
¼ XTALIN
XTALIN
½ XTALIN
Card power down mode (card clock STOP) is supported and is controllable through the dedicated digital
inputs CLKSTOP and CLKLEV (not supported in the 20QFN package).
Rev. 1.8
9
73S8024RN Data Sheet
DS_8024RN_020
7 Activation Sequence
The 73S8024RN smart card interface IC has an internal 10ms delay at power on reset or on the
application of VDD > VDDF. No activation is allowed at this time. The CMDVCC (edge triggered) must then
be set low to activate the card. In order to initiate activation, the card must be present; there can be no
over-temperature fault or no VDD fault.
The following steps show the activation sequence and the timing of the card control signals when the
system controller sets CMDVCC low while the RSTIN is low:
•
CMDVCC is set low.
•
Next, the internal VCC control circuit checks the presence of VCC at the end of t1. In normal operation,
the voltage VCC to the card becomes valid during t1. If VCC does not become valid, the OFF goes low
to report a fault to the system controller, and the power VCC to the card is shut off.
•
Turn I/O (AUX1, AUX2) to reception mode at the end of (t2).
•
CLK is applied to the card at the end of (t3).
•
RST is a copy of RSTIN after (t4). RSTIN may be set high before t4, however the sequencer will not
set RST high until 42000 clock cycles after the start of CLK.
CMDVCC
VCC
I/O
CLK
RSTIN
RST
t1
t2
t3
t4
t1 = 0.510 ms (timing by 1.5MHz internal Oscillator)
t2 = 1.5μs, I/O goes to reception state
t3 = >0.5μs, CLK starts
t4 ≥ 42000 card clock cycles. Time for RST to become the copy of RSTIN
Figure 2: Activation Sequence – RSTIN Low When CMDVCC Goes Low
10
Rev. 1.8
DS_8024RN_020
73S8024RN Data Sheet
The following steps show the activation sequence and the timing of the card control signals when the
system controller pulls the CMDVCC low while the RSTIN is high:
•
CMDVCC is set low.
•
Next, the internal VCC control circuit checks the presence of VCC at the end of t1. In normal operation,
the voltage VCC to the card becomes valid during this time. If not, OFF goes low to report a fault to
the system controller, and the power VCC to the card is shut down.
•
Due to the fall of RSTIN at (t2), turn I/O (AUX1, AUX2) to reception mode.
•
CLK is applied to the card at the end of (t3), after I/O is in reception mode.
•
RST is to be a copy of RSTIN after (t4). RSTIN may be set high before t4, however the sequencer will
not set RST high until 42000 clock cycles after the start of CLK.
CMDVCC
VCC
I/O
CLK
RSTIN
RST
t1
t2
t3
t4
t1 = 0.510 ms (timing by 1.5MHz internal Oscillator)
t2 = 1.5μs, I/O goes to reception state
t3 = > 0.5μs, CLK active
t4 ≥ 42000 card clock cycles. Time for RST to become the copy of RSTIN
Figure 3: Activation Sequence – RSTIN High When CMDVCCB Goes Low
Rev. 1.8
11
73S8024RN Data Sheet
DS_8024RN_020
8 Deactivation Sequence
Deactivation is initiated either by the system controller by setting the CMDVCC high, or automatically in
the event of hardware faults. Hardware faults are over-current, overheating, VDD fault, VPC fault, VCC fault,
and card extraction during the session. To be noted that VPC and VCC faults are linked together so that a
fault is generated when VPC goes lower than VCC.
The following steps show the deactivation sequence and the timing of the card control signals when the
system controller sets the CMDVCC high or OFF goes low due to a fault or card removal:
•
RST goes low at the end of t1.
•
CLK is set low at the end of t2.
•
I/O goes low at the end of t3. Out of reception mode.
•
VCC is shut down at the end of time t4. After a delay t5 (discharge of the VCC capacitor), VCC is low.
CMDVCC
-- OR --
OFF
RST
CLK
I/O
VCC
t1
t1 =
t2 =
t3 =
t4 =
t5 =
t2
t3
t4
t5
> 0.5μs, timing by 1.5MHz internal Oscillator
> 7.5μs
> 0.5μs
> 0.5μs
depends on VCC filter capacitor.
For NDS application, CF=1μF makes t1 + t2 + t3 + t4 + t5 < 100μs
Figure 4: Deactivation Sequence
12
Rev. 1.8
DS_8024RN_020
73S8024RN Data Sheet
9 OFF and Fault Detection
There are two different cases that the system controller can monitor the OFF signal: to query regarding
the card presence outside card sessions, or for fault detection during card sessions.
Outside a card session: In this condition, CMDVCC is always high, OFF is low if the card is not present,
and high if the card is present. Because it is outside a card session, any fault detection will not act upon
the OFF signal. No deactivation is required during this time.
During a card session: CMDVCC is always low, and OFF falls low if the card is extracted or if any fault
detection is detected. At the same time that OFF is set low, the sequencer starts the deactivation
process.
The Figure 5 shows the timing diagram for the signals CMDVCC, PRES, and OFF during a card session
and outside the card
rd session:
OFF is low by
card extracted
OFF is low by
any fault
PRES
OFF
CMDVCC
VCC
outside card session
within card session
within card
session
Figure 5: Timing Diagram – Management of the Interrupt Line OFF
10 I/O Circuitry and Timing
The states of the I/O, AUX1, and AUX2 pins are low after power on reset and they are in high when the
activation sequencer turns on the I/O reception state. See the Activation Sequence section for more
details on when the I/O reception is enabled. The states of I/OUC, AUX1UC, and AUX2UC are high after
power on reset.
Within a card session and when the I/O reception state is turn on, the first I/O line on which a falling edge
is detected becomes the input I/O line and the other becomes the output I/O line. When the input I/O line
rising edge is detected then both I/O lines return to their neutral state.
Figure 6 shows the state diagram of how the I/O and I/OUC lines are managed to become input or output.
The delay between the I/O signals is shown in Figure 7.
Rev. 1.8
13
73S8024RN Data Sheet
DS_8024RN_020
Neutral
State
No
I/O
reception
Yes
I/O
&
not I/OUC
No
Yes
No
I/OUC
&
not I/O
Yes
I/OUC
in
I/OICC
in
No
No
I/OUC
I/O
yes
yes
Figure 6: I/O and I/OUC State Diagram
I/O
I/OUC
tI/O_HL
Delay from I/O to I/OUC:
Delay from I/OUC to I/O:
tI/O_LH
tI/O_HL = 100ns
tI/OUC_HL = 100ns
tI/OUC_HL
tI/OUC_LH
tI/O_LH = 25ns
tI/OUC_LH = 25ns
Figure 7: I/O – I/OUC Delays Timing Diagram
14
Rev. 1.8
DS_8024RN_020
73S8024RN Data Sheet
11 Typical Application Schematic
AUX2UC_to/from_uC
AUX1UC_to.from_uC
See NOTE 5
I/OUC_to/from_uC
VDD
See NOTE 6
CLKDIV1_from_uC
See NOTE 3
CLKDIV2_from_uC
5V/3V_select_from_uC
External_clock_from uC
VDD
- OR -
VPC
C4
100nF
C5
10uF
See NOTE 2
CLKSTOP_from_uC
CLKLVL_from_uC
1
2
3
4
5
6
7
8
9
10
11
12
13
14
See NOTE 5
CLKDIV1
CLKDIV2
5V3V_
GND
NC
VPC
CLKSTOP
CLKLVL
PRESB
PRES
I/O
AUX2
AUX1
GND
73S8024RN
AUX2UC
AUX1UC
I/OUC
XTALOUT
XTALIN
OFF_
GND
VDD
RSTIN
CMDVCC_
VDDF_ADJ
VCC
RST
CLK
SO28
28
27
26
25
24
23
22
21
20
19
18
17
16
15
R3
Rext2
C2
VDD
See NOTE 1
C6
100nF
R1
Rext1
Y1
22pF
C3
CRYSTAL
22pF
See NOTE 4
See note 7
OFF_interrupt_to_uC
RSTIN_from_uC
CMDVCC_from_uC
8
7
6
5
4
3
2
1
NDS & ISO7816=1uF, EMV=3.3uF
Low ESR (<100mohms) C1
C1 should be placed near the SC
connecter contact
C8
I/O
VPP
GND
C4
CLK
RST
VCC
SW-2
SW-1
R2
NOTES:
Card detection
1) VDD = 2.7V to 5.5V DC.
20K
switch is
normally closed
2) VPC = 4.75V(EMV, ISO)/4.85(NDS) to 5.5V DC
3) Required if external clock from uP is used.
4) Required if crystal is used.
Y1, C2 and C3 must be removed if external clock is used.
5) Optional. Can be left open.
6)Internal pull-up allows it to be left open if unused.
7) R1 and R3 are external resistors that adjust the VDD
fault voltage. Can be left open.
10
9
VDD
CLK track should be routed
far from RST, I/O, C4 and
C8.
Smart Card Connector
Figure 8: 73S8024RN – Typical Application Schematic
Rev. 1.8
15
73S8024RN Data Sheet
DS_8024RN_020
12 Electrical Specification
12.1 Absolute Maximum Ratings
Operation outside these rating limits may cause permanent damage to the device. The smart card
interface pins are protected against short circuits to VCC, ground, and each other.
Parameter
Rating
Supply Voltage VDD
-0.5 to 6.0 VDC
Supply Voltage VPC
-0.5 to 6.0 VDC
Input Voltage for Digital Inputs
-0.3 to (VDD +0.5) VDC
Storage Temperature
-60 to 150°C
Pin Voltage (except card interface)
-0.3 to (VDD +0.5) VDC
Pin Voltage (card interface)
-0.3 to (VCC + 0.5) VDC
ESD Tolerance – Card interface pins
+/- 6kV
ESD Tolerance – Other pins
+/- 2kV
*Note: ESD testing on smart card pins is HBM condition, 3 pulses, each polarity referenced to ground.
Note: Smart Card pins are protected against shorts between any combinations of Smart Card pins.
12.2 Recommended Operating Conditions
Parameter
Rating
Supply Voltage VDD
2.7 to 5.5 VDC
Supply Voltage VPC
4.75 to 5.5 VDC
NDS Supply Voltage VPC
4.85 to 5.5 VDC
Ambient Operating Temperature
-40°C to +85°C
Input Voltage for Digital Inputs
0V to VDD + 0.3V
12.3 Package Thermal Parameters
16
Package
Rating
28 SO
44 °C / W
32QFN
47 °C / W (with bottom pad soldered)
32QFN
78 °C / W (without bottom pad soldered)
20QFN
53 °C / W (with the bottom pad soldered)
20QFN
90 °C / W (without the bottom pad soldered)
Rev. 1.8
DS_8024RN_020
73S8024RN Data Sheet
12.4 Smart Card Interface Requirements
Symbol
Parameter
Condition
Min
Typ
Max
Unit
-0.1
0.1
V
-0.1
0.4
V
4.60
5.25
V
4.75
5.25
V
4.55
2.80
5.25
3.2
V
V
4.6
5.25
V
2.76
3.2
V
4.6
5.25
V
4.65
5.25
V
2.76
3.2
V
350
65
mV
mA
90
mA
Card Power Supply (VCC) Regulator
General conditions, -40°C < T < 85°C, 4.75v < VPC < 5.5v, 2.7v < VDD < 5.5v
NDS conditions, 4.85v < VPC < 5.5v
VCC
VCCrip
ICCmax
ICCF
VSR - VSF
VSRN VSFN
Card supply voltage
including ripple and
noise
VCC Ripple
Card supply output
current
ICC fault current
VCC slew rate VCC slew rate
CF
External filter capacitor
(VCC to GND)
CFNDS
External filter capacitor
(VCC to GND)
Rev. 1.8
Inactive mode
Inactive mode
ICC = 1mA
Active mode; ICC <65mA; 5v
Active mode; ICC <65mA; 5v,
NDS condition
Active mode; ICC <90mA; 5v
Active mode; ICC <90mA; 3v
Active mode; single pulse of
100mA for 2μs; 5 volt, fixed load
= 25mA
Active mode; single pulse of
100mA for 2μs; 3v, fixed load =
25mA
Active mode; current pulses of
40nAs with peak |ICC | <200mA,
t <400ns; 5v
Active mode; current pulses of
40nAs with peak |ICC | <200mA,
t <400ns; 5v,
NDS condition
Active mode; current pulses of
40nAs with peak |ICC | <200mA,
t <400ns; 3v
fRIPPLE = 20K – 200MHz
Static load current, VCC>4.6
Static load current, VCC>4.55 or
2.7 volts as selected
CF = 3.3μF on VCC
CF = 1.0μF on VCC
NDS applications
CF should be ceramic with low
ESR (<100mΩ).
NDS applications
CF should be ceramic with low ESR
(<100mΩ).
90
0.02
0.050
150
0.08
V/μs
mA
0.06
0.160
0.26
V/μs
1
3.3
5
μF
0.5
1.0
1.5
μF
17
73S8024RN Data Sheet
Symbol
Parameter
DS_8024RN_020
Condition
Min
Typ
Max
Unit
Interface Requirements – Data Signals: I/O, AUX1, AUX2, and host interfaces: I/OUC, AUX1UC,
AUX2UC.
ISHORTL, ISHORTH, and VINACT requirements do not pertain to I/OUC, AUX1UC, and AUX2UC.
VOH
Output level, high (I/O, AUX1,
AUX2)
VOH
Output level, high (I/OUC,
AUX1UC, AUX2UC)
VOL
VIL
Output level, low
Input level, high (I/O, AUX1,
AUX2)
Input level, high (I/OUC,
AUX1UC, AUX2UC)
Input level, low
VINACT
Output voltage when outside
of session
ILEAK
IIL
Input leakage
Input current, low
ISHORTL
Short circuit output current
ISHORTH
Short circuit output current
tR, tF
Output rise time, fall times
tIR, tIF
Input rise, fall times
VIH
VIH
RPU
Internal pull-up resistor
FDMAX
TFDIO
Maximum data rate
Delay, I/O to I/OUC, AUX1 to
AUX1UC, AUX2 to AUX2UC,
I/OUC to I/O, AUX1UC to
AUX1, AUX2UC to AUX2
(respectively falling edge to
falling edge and rising edge
to rising edge)
Input capacitance
TRDIO
CIN
18
IOH =0
IOH = -40μA
IOH =0
IOH = -40μA
IOL=1mA
0.9 VCC
0.75 VCC
0.9 VDD
0.75 VDD
VCC+0.1
VCC+0.1
VDD+0.1
VDD+0.1
0.3
V
V
V
V
V
1.8
VCC+0.30
V
1.8
VDD
+0.30
V
-0.3
IOL = 0
IOL = 1mA
VIH = VCC
VIL = 0
For output low,
shorted to VCC
through 33 ohms
For output high,
shorted to ground
through 33 ohms
For I/O, AUX1,
AUX2, CL = 80pF,
10% to 90%.
For I/OUC,
AUX1UC, AUX2UC,
CL=50Pf, 10% to
90%.
Output stable for
>200ns
Edge from master to
slave, measured at
50%
0.8
0.1
0.3
10
0.65
V
V
V
μA
mA
15
mA
15
mA
100
ns
1
μs
8
11
14
kΩ
100
1
200
MHz
60
25
90
ns
10
pF
ns
Rev. 1.8
DS_8024RN_020
Symbol
73S8024RN Data Sheet
Parameter
Condition
Min
IOH =-200μA
IOL=200μA
IOL = 0
IOL = 1mA
0.9 VCC
0
Vcc = 3V
Vcc = 5V
CL = 35pF for CLK,
10% to 90%
CL = 200pF for RST,
10% to 90%
CL =35Pf,
FCLK ≤ 20MHz
0.3
0.5
Typ
Max
Unit
VCC
0.3
0.1
0.3
30
70
V
V
V
V
mA
mA
V/ns
V/ns
8
ns
100
ns
55
%
Max
Unit
0.8
VDD + 0.3
0.45
V
V
V
V
24
kΩ
-5
5
μA
-0.3
0.7 VDD
0.3 VDD
VDD+0.3
V
V
-30
30
μA
27
MHz
52
%
Reset and Clock for card interface, RST, CLK
VOH
VOL
Output level, high
Output level, low
VINACT
Output voltage when outside
of session
IRST_LIM
ICLK_LIM
CLKSR3V
CLKSR5V
Output current limit, RST
Output current limit, CLK
CLK slew rate
CLK slew rate
tR, tF
Output rise time, fall time
δ
Duty cycle for CLK
45
12.5 Characteristics: Digital Signals
Symbol
Parameter
Condition
Min
Typ
Digital I/O Except for OSC I/O
VIL
VIH
VOL
VOH
Input Low Voltage
Input High Voltage
Output Low Voltage
Output High Voltage
ROUT
Pull-up resistor, OFF
|IIL1|
Input Leakage Current
-0.3
0.7 VDD
IOL = 2mA
IOH = -1mA
VDD - 0.45
16
GND < VIN < VDD
21
Oscillator (XTALIN) I/O Parameters
VILXTAL
VIHXTAL
GND < VIN < VDD
fMAX
Input Low Voltage - XTALIN
Input High Voltage - XTALIN
Input Current XTALIN
Max freq. Osc or external
clock
δin
External input duty cycle limit
tR/F < 10% fIN,
45% < δCLK < 55%
IILXTAL
Rev. 1.8
48
19
73S8024RN Data Sheet
DS_8024RN_020
12.6 DC Characteristics
Symbol
IDD
Parameter
Condition
Min
Typ
Max
Unit
2.7
7.0
mA
VCC on, ICC=0
I/O, AUX1,
AUX2=high,
Clock not toggling
450
650
μA
CMDVCC High
345
550
μA
Typ
Max
Unit
2.4
V
Supply Current
IPC
Supply Current
IPCOFF
VPC supply current when
VCC = 0
12.7 Voltage / Temperature Fault Detection Circuits
Symbol
VDDF
VPCF
VCCF
TF
20
Parameter
VDD fault
(VDD Voltage supervisor
threshold)
VPC fault
(VPC Voltage supervisor
threshold)
VCC fault
(VCC Voltage supervisor
threshold)
Die over temperature fault
Condition
Min
No external resistor
on VDDF_ADJ pin
2.15
VPC<VCC, a transient
event
VCC - 0.2
V
VCC = 5v
4.20
4.55
V
VCC= 3v
2.5
2.7
V
115
145
°C
Rev. 1.8
DS_8024RN_020
73S8024RN Data Sheet
13 Mechanical Drawing (20QFN)
0.85 NOM / 0.90 MAX
0.02 NOM / 0.05 MAX
0.20 REF
4.0
2.0
20
1
2
4.0
2.0
SEATING
PLANE
SIDE VIEW
TOP VIEW
0.18 / 0.30
2.50 / 2.70
1.25 / 1.35
0.20 MIN
0.18 / 0.30
2.50 / 2.70
2
K
1.25 / 1.35
1
0.35 / 0.45
PIN #1 ID
R 0.20
20
19
0.50
0.20 MIN
BOTTOM VIEW
Figure 9: 20QFN Mechanical Drawing
Rev. 1.8
21
73S8024RN Data Sheet
DS_8024RN_020
CLKDIV1
I/OUC
XTALOUT
17
16
CAUTION: Use handling procedures necessary
for a static sensitive component
18
19 CLKDIV2
20
5V/#V
14 Package Pin Designation (20QFN)
GND
1
15
XTALIN
VPC
2
14
OFF
PRES
3
13
GND
PRES
4
12
VDD
I/O
5
11
RSTIN
6
7
8
9
10
GND
CLK
RST
VCC
CMDVCC
TERIDIAN
8024RN
Figure 10: 20QFN Pin Out
22
Rev. 1.8
DS_8024RN_020
73S8024RN Data Sheet
15 Mechanical Drawing (32QFN)
0 .8 5 N O M . / 0 .9 M A X .
0 .0 0 / 0 .0 0 5
5
0 .2 0 R E F .
2.5
1
2.5
2
3
5
S E A T IN G
PLANE
S ID E V IE W
TOP VIEW
0.35 / 0.45
3.0 / 3.75
0.18 / 0.3
CHAMFERED
0.30
1.5 / 1.875
1
2
3
3.0 / 3.75
0.25
1.5 / 1.875
0.5
0.2 MIN.
0.35 / 0.45
0.5
0.25
BOTTOM VIEW
Figure 11: 32QFN Mechanical Drawing
Rev. 1.8
23
73S8024RN Data Sheet
DS_8024RN_020
16 Package Pin Designation (32QFN)
NC
5V/#V
CLKDIV2
CLKDIV1
AUX2UC
AUX1UC
I/OUC
NC
32
31
30
29
28
27
26
25
CAUTION: Use handling procedures necessary
for a static sensitive component
GND
1
24
XTALOUT
NC
2
23
XTALIN
VPC
3
22
OFF
CLKSTOP
4
21
GND
CLKLVL
5
20
VDD
PRES
6
19
RSTIN
PRES
7
18
CMDVCC
I/O
8
17
VDDF_ADJ
10
11
12
13
14
15
16
AUX2
AUX1
GND
CLK
RST
VCC
NC
NC
9
TERIDIAN
S8024RN
Figure 12: 32QFN Pin Out
24
Rev. 1.8
DS_8024RN_020
73S8024RN Data Sheet
17 Mechanical Drawing (SO)
.050 TYP. (1.270)
.305 (7.747)
.285 (7.239)
PIN NO. 1
BEVEL
.715 (18.161)
.695 (17.653)
.420 (10.668)
.390 (9.906)
.0115 (0.29)
.003 (0.076)
.110 (2.790)
.092 (2.336)
.016 nom (0.40)
.335 (8.509)
.320 (8.128)
Figure 13: 28 Lead SO
18 Package Pin Designation (SO)
CAUTION: Use handling procedures necessary
for a static sensitive component
(Top View)
1
28
AUX2UC
CLKDIV2
2
27
AUX1UC
5V3V
3
26
I/OUC
GND
4
25
XTALOUT
NC
5
24
XTALIN
VPC
6
23
OFF
CLKSTOP
7
22
GND
CLKLVL
8
21
VDD
PRES
9
20
RSTIN
PRES
10
19
CMDVCC
I/O
11
18
VDDF_ADJ
AUX2
12
17
VCC
AUX1
13
16
RST
GND
14
15
CLK
TERIDIAN
73S8024RN
CLKDIV1
Figure 14: 28SO 73S8024RN Pin Out
Rev. 1.8
25
73S8024RN Data Sheet
DS_8024RN_020
19 Ordering Information
Part Description
73S8024RN-SOL
28-pin Lead-Free SO
73S8024RN-SOL
28-pin Lead-Free SO Tape / Reel
73S8024RN-32QFN
32-pin Lead-Free QFN
73S8024RN-32QFN
32-pin Lead-Free QFN Tape / Reel
73S8024RN-20QFN
20-pin Lead-Free QFN
73S8024RN-20QFN
20-pin Lead-Free QFN Tape / Reel
Order No.
Packaging Mark
73S8024RN-IL/F
73S8024RN-IL
73S8024RN-ILR/F
73S8024RN-IL
73S8024RN-32IM/F
S8024RN
73S8024RN-32IMR/F
S8024RN
73S8024RN-20IM/F
8024RN
73S8024RN-20IMR/F
8024RN
20 Related Documentation
The following 73S8024RN documents are available from Teridian Semiconductor Corporation:
73S8024RN Data Sheet (this document)
73S8024RN Combination 28SO/20QFN Demo Board User Guide
73S8024RN 28SO Demo Board User’s Guide
Achieving EMV Electrical Compliance with the TERIDIAN 73S8024RN
Dual Footprint Layout
73S8024RN vs NXP TDA8024T
Implementing the TERIDIAN 73S8024RN in NDS Applications
21 Contact Information
For more information about Teridian Semiconductor products or to check the availability of the
73S8024RN, contact us at:
6440 Oak Canyon Road
Suite 100
Irvine, CA 92618-5201
Telephone: (714) 508-8800
FAX: (714) 508-8878
Email: [email protected]
For a complete list of worldwide sales offices, go to http://www.teridian.com.
26
Rev. 1.8
DS_8024RN_020
73S8024RN Data Sheet
Revision History
Revision
Date
Description
1.1
5/18/2004
First publication.
1.2
11/5/2004
1.3
4/27/2005
1.4
7/15/2005
1.5
8/23/2005
1.6
12/5/2007
Removes leaded package options, replaces 32QFN punched with SAWN
mechanical dimensions, update 28SO package dimensions.
1.7
1/17/2008
Changed dimension of bottom exposed pad on 32QFN mechanical package
figure.
1.8
1/19/2009
In Figure 1, modified the device block diagram to make pin 2 a no connect.
Also, changed the pin description.
In Figure 9, changed the mechanical drawing for the 20QFN package.
Added the NDS logo to page 1 and assigned document number.
Added the Related Documentation and the Contact Information sections.
Added 20QFN package option and ordering information. Updated 32 QFN
ordering information.
© 2009 Teridian Semiconductor Corporation. All rights reserved.
Teridian Semiconductor Corporation is a registered trademark of Teridian Semiconductor Corporation.
Simplifying System Integration is a trademark of Teridian Semiconductor Corporation.
All other trademarks are the property of their respective owners.
Teridian Semiconductor Corporation makes no warranty for the use of its products, other than expressly
contained in the Company’s warranty detailed in the Teridian Semiconductor Corporation standard Terms
and Conditions. The company assumes no responsibility for any errors which may appear in this
document, reserves the right to change devices or specifications detailed herein at any time without
notice and does not make any commitment to update the information contained herein. Accordingly, the
reader is cautioned to verify that this document is current by comparing it to the latest version on
http://www.teridian.com or by checking with your sales representative.
Teridian Semiconductor Corp., 6440 Oak Canyon Rd., Suite 100, Irvine, CA 92618
TEL (714) 508-8800, FAX (714) 508-8877, http://www.Teridian.com
Rev. 1.8
27