NCN6001DTBR2G ON Semiconductor, NCN6001DTBR2G Datasheet - Page 26

NCN6001DTBR2G

Manufacturer Part Number

NCN6001DTBR2G

Description

IC INTERFACE SMART CARD 20TSSOP

Manufacturer

ON Semiconductor

Datasheet

1.NCN6001DTBR2.pdf (36 pages)

Specifications of NCN6001DTBR2G

Applications

Smart Card

Interface

Microcontroller

Voltage - Supply

2.75 V ~ 5.5 V

Package / Case

20-TSSOP

Mounting Type

Surface Mount

Maximum Operating Temperature

+ 85 C

Minimum Operating Temperature

- 25 C

Mounting Style

SMD/SMT

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

NCN6001DTBR2GOS
NCN6001DTBR2GOS
NCN6001DTBR2GOSTR

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SMART CARD CLOCK DIVIDER

threefold:

the microprocessor to get the Duty Cycle window as defined

by the ISO7816−3 specification.

programming functions when CS is Low as depicted in

Figure 26 and Figure 25. The clock input stage (CLK_IN)

can handle a 20 MHz frequency maximum signal, the

divider being capable to provide a 1:4 ratio. Of course, the

ratio must be defined by the engineer to cope with the Smart

Card considered in a given application and, in any case, the

output clock [CRD_CLK] shall be limited to 20 MHz

maximum. In order to minimize the dI/dt and dV/dV

developed in the CRD_CLK line, the output stage includes

a special function to adapt the slope of the clock signal for

different

MOSI register (Table 2: WRT_REG Bits Definitions and

Functions) whatever be the clock division.

ISO7816−3 specification, the divider is synchronized by the

The main purpose of the built−in clock generator is

In addition, the NCN6001 adjusts the signal coming from

The byte content of the SPI port, B2 & B3, fulfills the

In order to avoid any duty cycle out of the smart card

1. Adapts the voltage level shifter to cope with the

2. Provides a frequency division to adapt the Smart

3. Controls the clock state according to the smart

VCC

CLK_IN

SYNC

different voltages that might exist between the

MPU and the Smart Card.

Card operating frequency from the external clock

source.

card specification.

applications.

Programming

This function is programmed by the

CRD_CLK

Division

Figure 26. Basic Clock Divider and Level Shifter

CRD_CLK Slope

Programming

ASYNC

SYNC

http://onsemi.com

SEL

DIGITAL_MUX

OUT

last flip flop, thus yielding a constant 50% duty cycle,

whatever be the divider ratio (Figure 25). Consequently, the

output CRD_CLK frequency division can be delayed by

four CLK_IN pulses and the microcontroller software must

take this delay into account prior to launch a new data

transaction. On the other hand, the output signal Duty Cycle

cannot be guaranteed 50% if the division ratio is 1 and if the

input Duty Cycle signal is not within the 46–56% range.

automatically routed to the level shifter and control block

according to the mode of operation.

NOTE: Bits [B0...B3] come from SPI data

The input signals CLK_IN and MOSI/b3 are

CLOCK_IN

CLOCK : 1

CLOCK : 2

CLOCK : 4

Figure 25. Typical Clock Divider Synchronization

CRD_CLK

LEVEL SHIFTER

AND CONTROL

CLOCK programming is activated

by the B2 + B3 logic state

Clock is updated upon

CLOCK: 4 rising edge

These bits program

CLOCK = 1:1 ratio

CRD_CLK

CRD_VCC

Internal

CLOCK

Divider

NCN6001DTBR2G ON Semiconductor, NCN6001DTBR2G Datasheet - Page 26

NCN6001DTBR2G

Specifications of NCN6001DTBR2G

Available stocks

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