At83c26 – Rainbow Electronics AT83C26 User Manual

70

7511B–SCR–10/05

AT83C26

Table 59. Smart Card 1, 2, 3, 4, 5 Clock (CCLK1, CCLK2, CCLK3, CCLK4, CCLK5)

Symbol

Parameter

Min

Typ

Max

Unit

Test Conditions

V

OL

Output low voltage

0.3

V

Class A: I

OL

= -200µA

Class B: I

OL

= -200µA

Class C: I

OL

= -200µA

V

OH

Output High Voltage

0.8 CVCC

V

Class A: I

OH

= 200µA

Class B: I

OH

= 200µA

Class C: I

OH

= 200µA

t

R

Rise time

16

ns

C

L

= 30pF Class A

C

L

= 30pF Class B

C

L

= 30pF Class C

t

F

Fall time

16

ns

C

L

= 30pF Class A

C

L

= 30pF Class B

C

L

= 30pF Class C

Low level voltage stability

(taking into account PCB design)

-0.25

-0.25

-0.25

0.6

0.4

0.4

V

Class A

Class B

Class C

High level voltage stability

(taking into account PCB design)

CVCC-0.5

CVCC+0.25

V

CVCC= Class A, Class B
or Class C

CCLK

Smart card clock frequency

24

MHz

Table 60. Smart Card n I/Os (CIOn, CC4n, CC8n, CRSTn) (n =1, 2, 3, 4, 5)

Symbol

Parameter

Min

Typ

Max

Unit

Test Conditions

V

IL

Input Low-voltage

-0.5

0.15 CVCC

V

V

IH

Input High Voltage

0.7 CVCC

CVCC + 0.5

V

V

OL

Output Low-voltage

0.3

V

I

OL

= -1mA

V

OH

Output High Voltage

0.8 CVCC

V

Class A: I

OH

= 20µA

Class B: I

OH

= 20µA

Class C: I

OH

= 20µA

I

IL

Input Low Current

500

µA

I

IH

Input High Current

-20

+20

μ

A

I

OS

Output Short Circuit Current

-15

+15

mA

Short to GND or CVCC

Low level voltage stability

(taking into account PCB design)

-0.25

-0.25

-0.25

0.6

0.4

0.4

V

Class A

Class B

Class C

High level voltage stability

(taking into account PCB design)

CVCC-0.5

CVCC+0.25

V

CVCC= Class A, Class B
or Class C

t

R

Rise time

100

μ

s

C

L

= 30pF Class A

C

L

= 30pF Class B

C

L

= 30pF Class C