73S1210F-68IM/F Maxim Integrated Products, 73S1210F-68IM/F Datasheet - Page 100

73S1210F-68IM/F

Manufacturer Part Number

73S1210F-68IM/F

Description

IC SMART CARD READER 68-QFN

Manufacturer

Maxim Integrated Products

Datasheet

1.73S1210F-44MFPC.pdf (126 pages)

Specifications of 73S1210F-68IM/F

Core Processor

80515

Core Size

8-Bit

Speed

24MHz

Connectivity

I²C, SmartCard, UART/USART

Peripherals

LED, POR, WDT

Number Of I /o

Program Memory Size

32KB (32K x 8)

Program Memory Type

FLASH

Ram Size

2K x 8

Voltage - Supply (vcc/vdd)

2.7 V ~ 6.5 V

Oscillator Type

Internal

Operating Temperature

-40°C ~ 85°C

Package / Case

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Eeprom Size

Data Converters

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

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Price

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Bonase Electronics (HK) Co., Limited

Part Number:

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73S1210F Data Sheet

Block Wait Time Registers (BWTB0): 0xFE1B  0x00, (BWTB1): 0xFE1A  0x00,

(BWTB2): 0xFE19  0x00, (BWTB3): 0xFE18  0x00

These registers are used to set the Block Waiting Time(27:0) (BWT). All of these parameters define the

maximum time the 73S1210F will have to wait for a character from the smart card. These registers serve

a dual purpose. When T=1, these registers are used to set up the block wait time. The block wait time

defines the time in ETUs between the beginning of the last character sent to smart card and the start bit

of the first character received from smart card. It can be used to detect an unresponsive card and should

be loaded by firmware prior to writing the last TX byte. When T=0, these registers are used to set up the

work wait time. The work wait time is defined as the time between the leading edge of two consecutive

characters being sent to or from the card. If a timeout occurs, an interrupt is generated to the firmware.

The firmware can then take appropriate action. A Wait Time Extension (WTX) is supported with the 28-

bit BWT.

Character Wait Time Registers (CWTB0): 0xFE1D  0x00, (CWTB1): 0xFE1C  0x00

These registers are used to hold the Character Wait Time(15:0) (CWT) or Initial Waiting Time(15:0) (IWT)

depending on the situation. Both the IWT and the CWT measure the time in ETUs between the leading

edge of the start of the current character received from the smart card and the leading edge of the start of

the next character received from the smart card. The only difference is the mode in which the card is

operating. When T=1 these registers are used to configure the CWT and these registers configure the IWT

when the ATR is being received. These registers should be loaded prior to receiving characters from the

smart card. Firmware must manage which time is stored in the register. If a timeout occurs, an interrupt is

generated to the firmware. The firmware can then take appropriate action.

100

MSB

BWT.15

BWT.23

CWT.15

CWT.7

BWT.7

–

CWT.14

BWT.14

BWT.22

CWT.6

BWT.6

–

CWT.13

BWT.13

BWT.21

CWT.5

BWT.5

Table 100: The BWTB3 Register

Table 101: The CWTB0 Register

Table 97: The BWTB0 Register

Table 98: The BWTB1 Register

–

Table 102: The CWTB1 Register

Table 99: The BWTB2 Register

BWT.12

BWT.20

CWT.12

BWT.4

CWT.4

–

BWT.11

BWT.19

BWT.27

CWT.11

BWT.3

CWT.3

CWT.10

BWT.10

BWT.18

BWT.26

CWT.1

BWT.1

BWT.17

BWT.25

CWT.2

CWT.9

BWT.2

BWT.9

BWT.16

BWT.24

DS_1210F_001

BWT.0

BWT.8

CWT.0

CWT.8

LSB

Rev. 1.4

73S1210F-68IM/F Maxim Integrated Products, 73S1210F-68IM/F Datasheet - Page 100

73S1210F-68IM/F

Specifications of 73S1210F-68IM/F

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