Maximum ratings, Operating range – Cypress Quad HOTLink II CYV15G0404RB User Manual

CYV15G0404RB

Document #: 38-02102 Rev. *C

Page 19 of 27

Maximum Ratings

Excedding maximum ratings may shorten the device life. User
guidelines are not tested

Storage Temperature .................................. –65°C to +150°C

Ambient Temperature with
Power Applied............................................. –55°C to +125°C

Supply Voltage to Ground Potential ............... –0.5V to +3.8V

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

CC

+ 0.5V

Output Current into LVTTL Outputs (LOW)..................60 mA

DC Input Voltage ....................................–0.5V to V

CC

+ 0.5V

Static Discharge Voltage.......................................... > 2000 V
(MIL-STD-883, Method 3015)

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

Power Up Requirements

The CYV15G0404RB requires one power supply. The voltage
on any input or I/O pin cannot exceed the power pin during
power up.

Operating Range

Range

Ambient Temperature

V

CC

Commercial

0°C to +70°C

+3.3V ±5%

Notes

6. Tested one output at a time, output shorted for less than one second, less than 10% duty cycle.
7. This is the minimum difference in voltage between the true and complement inputs required to ensure detection of a logic-1 or logic-0. A logic-1 exists when the

true (+) input is more positive than the complement (

−) input. A logic-0 exists when the complement (−) input is more positive than true (+) input.

8. The common mode range defines the allowable range of TRGCLKx+ and TRGCLKx

− when TRGCLKx+ = TRGCLKx−. This marks the zero-crossing between

the true and complement inputs as the signal switches between a logic-1 and a logic-0.

CYV15G0404RB DC Electrical Characteristics

Parameter

Description

Test Conditions

Min

Max

Unit

LVTTL-compatible Outputs

V

OHT

Output HIGH Voltage

I

OH

=

−4 mA, V

CC

= Min.

2.4

V

V

OLT

Output LOW Voltage

I

OL

= 4 mA, V

CC

= Min.

0.4

V

I

OST

Output Short Circuit Current

V

OUT

= 0V

[6]

, V

CC

= 3.3V

–20

–100

mA

I

OZL

High-Z Output Leakage Current

V

OUT

= 0V, V

CC

–20

20

µA

LVTTL-compatible Inputs

V

IHT

Input HIGH Voltage

2.0

V

CC

+ 0.3

V

V

ILT

Input LOW Voltage

–0.5

0.8

V

I

IHT

Input HIGH Current

TRGCLKx Input, V

IN

= V

CC

1.5

mA

Other Inputs, V

IN

= V

CC

+40

µA

I

ILT

Input LOW Current

TRGCLKx Input, V

IN

= 0.0V

–1.5

mA

Other Inputs, V

IN

= 0.0V

–40

µA

I

IHPDT

Input HIGH Current with Internal Pull Down

V

IN

= V

CC

+200

µA

I

ILPUT

Input LOW Current with Internal Pull Up

V

IN

= 0.0V

–200

µA

LVDIFF Inputs: TRGCLKx

±

V

DIFF

[7]

Input Differential Voltage

400

V

CC

mV

V

IHHP

Highest Input HIGH Voltage

1.2

V

CC

V

V

ILLP

Lowest Input LOW voltage

0.0

V

CC

/2

V

V

COMREF

[8]

Common Mode Range

1.0

V

CC

– 1.2V

V

3-Level Inputs

V

IHH

Three-Level Input HIGH Voltage

Min.

≤ V

CC

≤ Max.

0.87 * V

CC

V

CC

V

V

IMM

Three-Level Input MID Voltage

Min.

≤ V

CC

≤ Max.

0.47 * V

CC

0.53 * V

CC

V

V

ILL

Three-Level Input LOW Voltage

Min.

≤ V

CC

≤ Max.

0.0

0.13 * V

CC

V

I

IHH

Input HIGH Current

V

IN

= V

CC

200

µA

I

IMM

Input MID current

V

IN

= V

CC

/2

–50

50

µA

I

ILL

Input LOW current

V

IN

= GND

–200

µA

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