Maximum ratings, Operating range, Dc electrical characteristics – Cypress CY14B101K User Manual

CY14B101K

Document Number: 001-06401 Rev. *I

Page 15 of 28

Maximum Ratings

Exceeding maximum ratings may impair the useful life of the
device. These user guidelines are not tested.

Storage Temperature ................................. –65

°C to +150°C

Ambient Temperature with
Power Applied ............................................ –55

°C to +125°C

Supply Voltage on V

CC

Relative to GND ..........–0.5V to 4.1V

Voltage Applied to Outputs
in High Z State ....................................... –0.5V to V

CC

+ 0.5V

Input Voltage...........................................–0.5V to Vcc + 0.5V

Transient Voltage (<20 ns) on
Any Pin to Ground Potential .................. –2.0V to V

CC

+ 2.0V

Package Power Dissipation
Capability (T

A

= 25°C) ................................................... 1.0W

Surface Mount Pb Soldering
Temperature (3 Seconds) .......................................... +260

°C

DC Output Current (1 output at a time, 1s duration) ... 15 mA

Static Discharge Voltage.......................................... > 2001V
(MIL-STD-883, Method 3015)

Latch Up Current ................................................... > 200 mA

Operating Range

Range

Ambient Temperature

V

CC

Commercial

0

°C to +70°C

2.7V to 3.6V

Industrial

–40

°C to +85°C

DC Electrical Characteristics

Over the Operating Range (VCC = 2.7V to 3.6V)

[8, 9]

Parameter

Description

Test Conditions

Min

Max

Unit

I

CC1

Average V

CC

Current

t

RC

= 25 ns

t

RC

= 35 ns

t

RC

= 45 ns

Dependent on output loading and cycle
rate. Values obtained without output
loads.
I

OUT

= 0 mA.

Commercial

65
55
50

mA
mA

Industrial

70
60
55

mA
mA

I

CC2

Average V

CC

Current

during STORE

All Inputs Do Not Care, V

CC

= Max

Average current for duration t

STORE

6

mA

I

CC3

Average V

CC

Current at

t

AVAV

= 200 ns, 3V, 25°C

Typical

WE > (V

CC

– 0.2V). All other inputs cycling.

Dependent on output loading and cycle rate.
Values obtained without output loads.

10

mA

I

CC4

Average V

CAP

Current

during AutoStore Cycle

All Inputs Do Not Care, V

CC

= Max

Average current for duration t

STORE

3

mA

I

SB

V

CC

Standby Current

WE > (V

CC

– 0.2V). All others V

IN

< 0.2V or

> (V

CC

–0.2V). Standby current level after nonvolatile

cycle is complete. Inputs are static. f = 0 MHz

3

mA

I

IX

Input Leakage Current

V

CC

= Max, V

SS

< V

IN

< V

CC

–1

+1

μA

I

OZ

Off State Output Leakage
Current

V

CC

= Max, V

SS

< V

IN

< V

CC

, CE or OE > V

IH

–1

+1

μA

V

IH

[10]

Input HIGH Voltage

2.0

V

CC

+ 0.5

V

V

IL

Input LOW Voltage

V

SS

– 0.5

0.8

V

V

OH

Output HIGH Voltage

I

OUT

= –2 mA

2.4

V

V

OL

Output LOW Voltage

I

OUT

= 4 mA

0.4

V

V

CAP

Storage Capacitor

Between V

CAP

pin and V

SS

, 5V rated

17

120

μF

Notes

8. The HSB pin has I

OUT

= –10

μA for V

OH

of 2.4 V, this parameter is characterized but not tested.

9. The INT pin is open drain and does not source or sink current when interrupt register bit D3 is low.
10. V

IH

changes by 100 mV when V

CC

> 3.5V.

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