logic

NL17SZ08

Key datasheet specifications and the closest alternatives, ranked by parametric similarity and grounded in the manufacturer datasheet.

01 — Overview

This onsemi datasheet covers the NL17SZ08, a single 2-input AND gate in Logic categories. It defines electrical characteristics and pinouts for SC-88A, SOT-553, SOT-953, UDFN6, and SC-74A packages. Key parameters include 1.65V to 5.5V operation, 2.7ns typical propagation delay at 5V, and overvoltage tolerance up to 5.5V. The device supports partial power-down protection and sources/sinks 24mA at 3.0V. It features less than 100 FETs complexity, is Pb-free/RoHS compliant, and meets AEC-Q100 automotive standards with storage from -65°C to +150°C.

02 — Key specifications

Datasheet parameters

ParameterMinTypMaxConditions
quiescent current 1 µA VIN = VCCor GND; 5.5
output voltage 0 V 5.5 V Tri-State Mode (Note 1); V
output current 50 mA
supply voltage range 1.65 V 5.5 V V
operating temperature -55 °C 125 °C °C
input capacitance 2.5 pF VCC = 5.5 V, VIN = 0 V or VCC
output capacitance 2.5 pF VCC = 5.5 V, VIN = 0 V or VCC
isolation voltage 20 MV
propagation delay 6.3 ns 12 ns RL = 1 MΩ, CL = 15 pF; 1.65 to 1.95
output voltage high 1.29 V 1.4 V VIN = VIHor VILIOH = –100 μAIOH = –4 mAIOH = –8 mAIOH = –12 mAIOH = –16 mAIOH = –24 mAIOH = –32 mA; 1.65
output voltage low 80 mV 240 mV VIN = VIHor VILIOL = 100 μAIOL = 4 mAIOL = 8 mAIOL = 12 mAIOL = 16 mAIOL = 24 mAIOL = 32 mA; 1.65
03 — Alternatives

Closest matches to NL17SZ08

NL17SZ125 1.6× lower output current, 1.4× higher propagation delay, 1.2× higher output voltage low
74LVC2G14GM 10.0× lower quiescent current, 1.4× higher input capacitance, 1.2× higher output voltage low
NC7WZ17 1.6× lower operating temperature, 1.3× higher propagation delay, 1.2× higher output voltage
NC7WZ16 1.6× lower output voltage low, 1.2× higher operating temperature, 1.2× higher output voltage
74LVC245A 10.0× lower quiescent current, 4.0× higher output capacitance, 2.5× higher output voltage low
SN74AHC1G14DBVR 2.5× higher propagation delay, 1.4× higher output voltage high, 1.2× higher output voltage low
74HC595D 8.3× higher propagation delay, 1.4× higher output voltage high, 1.4× lower output current
74HC14BQ 6.5× higher propagation delay, 2.0× lower output current, 1.4× higher output voltage high
04 — FAQ

Frequently asked questions

What is the input capacitance when VCC = 5.5 V and VIN = 0 V or VCC?

The input capacitance is 2.5 pF.

What is the isolation voltage of the NL17SZ08?

The isolation voltage is 20 MV.

What is the maximum operating temperature?

The maximum operating temperature is 125 °C.

What is the output capacitance of the NL17SZ08 when VCC = 5.5 V and VIN = 0 V or VCC?

The output capacitance is 2.5 pF.

What is the maximum output current for the NL17SZ08?

The output current is 50 mA.

What is the output voltage in Tri-State Mode (Note 1)?

The output voltage is 5.5 V in Tri-State Mode (Note 1).

What is the output voltage high when VIN = VIH or VILIOH = –100 μA, IOH = –4 mA, IOH = –8 mA, IOH = –12 mA, IOH = –16 mA, IOH = –24 mA, or IOH = –32 mA at 1.65 V?

The output voltage high is 1.4 V.

What is the output voltage low specification for the NL17SZ08?

The output voltage low is 80 mV when VIN = VIH or VIL, IOL = 4 mA, and VCC = 1.65 V.

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