NLSX3013 Datasheet, PDF(5/10 Page) ON Semiconductor – 8-Bit 100 Mb/s Configurable Dual-Supply Level Translator

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NLSX3013 Datasheet, PDF (5/10 Pages) ON Semiconductor – 8-Bit 100 Mb/s Configurable Dual-Supply Level Translator

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NLSX3013

DC ELECTRICAL CHARACTERISTICS

â405C to +855C

Symbol

Parameter

VIHC I/O VCC Input HIGH

Voltage

VILC I/O VCC Input LOW

Voltage

VIHL I/O VL Input HIGH

Voltage

Test Conditions

(Note 1)

VCC (V)

(Note 2)

VL (V)

(Note 3)

1.3 to 4.5 0.9 to (VCC â 0.4)

Min

0.8 *

VCC

Typ

(Note 4)

1.3 to 4.5 0.9 to (VCC â 0.4) 0.8 * VL

Max

0.2 *

VCC

Unit

VILL I/O VL Input LOW

Voltage

1.3 to 4.5 0.9 to (VCC â 0.4)

0.2 * VL V

VIH Control Pin Input HIGH

Voltage

TA = +25Â°C

1.3 to 4.5 0.9 to (VCC â 0.4) 0.8 * VL

VIL Control Pin Input LOW

Voltage

TA = +25Â°C

1.3 to 4.5 0.9 to (VCC â 0.4)

0.2 * VL V

VOHC I/O VCC Output HIGH

Voltage

I/O VCC Source Current = 1.3 to 4.5 0.9 to (VCC â 0.4) 0.8 *

20 mA

VCC

VOLC I/O VCC Output LOW

I/O VCC Sink Current = 20 mA 1.3 to 4.5 0.9 to (VCC â 0.4)

Voltage

VOHL I/O VL Output HIGH

Voltage

I/O VL Source Current = 20 mA 1.3 to 4.5 0.9 to (VCC â 0.4) 0.8 * VL

0.2 * V

VCC

VOLL I/O VL Output LOW

Voltage

I/O VL Sink Current = 20 mA 1.3 to 4.5 0.9 to (VCC â 0.4)

0.2 * VL V

1. Normal test conditions are VEN = 0 V, CIOVCC = 15 pF and CIOVL = 15 pF, unless otherwise specified.

2. VCC is the supply voltage associated with the high voltage port, and VCC ranges from +1.3 V to 4.5 V under normal operating conditions.

3. VL is the supply voltage associated with the low voltage port. VL must be less than or equal to (VCC â 0.4) V during normal operation. However,

during startup and shutdown conditions, VL can be greater than (VCC â 0.4) V.

4. Typical values are for VCC = +2.8 V, VL = +1.8 V and TA = +25Â°C. All units are production tested at TA = +25Â°C. Limits over the operating

temperature range are guaranteed by design.

POWER CONSUMPTION

Symbol

Parameter

Test Conditions

(Note 5)

VCC (V)

(Note 6)

VL (V)

(Note 7)

IQâVCC Supply Current from EN = VL; I/O VCCn = 0 V, I/O VLn = 0 V, 1.3 to 3.6 0.9 to (VCC â 0.4)

VCC

I/O VCCn = VCC or I/O VLn = VL and Io = 0

IQâVL Supply Current from EN = VL; I/O VCCn = 0 V, I/O VLn = 0 V, 1.3 to 3.6 0.9 to (VCC â 0.4)

I/O VCCn = VCC or I/O VLn = VL and Io = 0

â405C to +855C

Min Typ Max

1.0

Unit

EN = VL, I/O VCCn = 0 V, I/O VLn = 0 V,

I/O VCCn = VCC or I/O VLn = (VCC â

0.2 V) and Io = 0

< (VCC â 0.2)

ITSâVCC VCC Tristate Output

Mode Supply

Current

EN = 0 V

1.3 to 3.6 0.9 to (VCC â 0.4) â

2.0

1.0 mA

ITSâVL

IOZ

VL Tristate Output

Mode Supply

Current

I/O Tristate Output

Mode Leakage

Current

EN = 0 V

1.3 to 3.6 0.9 to (VCC â 0.4) â

VCC â 0.2

1.3 to 3.6 0.9 to (VCC â 0.4) â

VCC â 0.2

0.2 mA

2.0

0.15 mA

2.0

IEN Output Enable Pin

Input Current

1.3 to 3.6 0.9 to (VCC â 0.4) â

1.0 mA

5. Normal test conditions are VEN = 0 V, CIOVCC = 15 pF and CIOVL = 15 pF, unless otherwise specified.

6. VCC is the supply voltage associated with the high voltage port, and VCC ranges from +1.3 V to 4.5 V under normal operating conditions.

7. VL is the supply voltage associated with the low voltage port. VL must be less than or equal to (VCC â 0.4) V during normal operation. However,

during startup and shutdown conditions, VL can be greater than (VCC â 0.4) V.

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