74LVC1G14GX4-Q100 [NEXPERIA]

Single Schmitt trigger inverterProduction;


型号：	74LVC1G14GX4-Q100
厂家：	Nexperia
描述：	Single Schmitt trigger inverterProduction
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中文：	中文翻译
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74LVC1G14-Q100

Single Schmitt trigger inverter

Rev. 7 — 20 January 2022

Product data sheet

1. General description

The 74LVC1G14-Q100 is a single inverter with Schmitt-trigger inputs. Inputs can be driven from

either 3.3 V or 5 V devices. This feature allows the use of these devices as translators in mixed

3.3 V and 5 V environments. This device is fully specified for partial power down applications using

I_OFF. The I_OFFcircuitry disables the output, preventing the potentially damaging backflow current

through the device when it is powered down.

This product has been qualified to the Automotive Electronics Council (AEC) standard Q100

(Grade 1) and is suitable for use in automotive applications.

2. Features and benefits

•

Automotive product qualification in accordance with AEC-Q100 (Grade 1)

Specified from -40 °C to +85 °C and from -40 °C to +125 °C

•

Wide supply voltage range from 1.65 V to 5.5 V

Overvoltage tolerant inputs to 5.5 V

High noise immunity

CMOS low power dissipation

I_OFFcircuitry provides partial Power-down mode operation

±24 mA output drive (V_CC= 3.0 V)

Latch-up performance exceeds 250 mA

Direct interface with TTL levels

Unlimited rise and fall times

Complies with JEDEC standard:

•

JESD8-7 (1.65 V to 1.95 V)

JESD8-5 (2.3 V to 2.7 V)

JESD8C (2.7 V to 3.6 V)

JESD36 (4.5 V to 5.5 V)

•

ESD protection:

•

MIL-STD-883, method 3015 exceeds 2000 V

HBM JESD22-A114F exceeds 2000 V

MM JESD22-A115-A exceeds 200 V (C = 200 pf, R = 0 Ω)

•

Multiple package options

3. Applications

•

Wave and pulse shaper

Astable multivibrator

Monostable multivibrator

Nexperia

74LVC1G14-Q100

Single Schmitt trigger inverter

4. Ordering information

Table 1. Ordering information

Type number

Package

Temperature range Name

Description

Version

74LVC1G14GW-Q100 -40 °C to +125 °C

TSSOP5

plastic thin shrink small outline package; 5 leads; SOT353-1

body width 1.25 mm

74LVC1G14GV-Q100 -40 °C to +125 °C

74LVC1G14GM-Q100 -40 °C to +125 °C

SC-74A

XSON6

plastic surface-mounted package; 5 leads

SOT753

SOT886

plastic extremely thin small outline package;

no leads; 6 terminals; body 1 × 1.45 × 0.5 mm

74LVC1G14GX4-Q100 -40 °C to +125 °C

X2SON4

plastic thermal enhanced extremely thin

small outline package; no leads; 4 terminals;

body 0.6 × 0.6 × 0.32 mm

SOT1269-2

5. Marking

Table 2. Marking

Type number

Marking code[1]

74LVC1G14GW-Q100

74LVC1G14GV-Q100

74LVC1G14GM-Q100

74LVC1G14GX4-Q100

V14

[1] The pin 1 indicator is located on the lower left corner of the device, below the marking code.

6. Functional diagram

mna023

mna024

mna025

Fig. 1. Logic symbol

Fig. 2. IEC logic symbol

Fig. 3. Logic diagram

7. Pinning information

7.1. Pinning

74LVC1G14

n.c.

GND

001aae976

Transparent top view

aaa-028401

001aab655

Transparent top view

Fig. 4. Pin configuration SOT353-1

(TSSOP5) and SOT753

(SC-74A)

Fig. 5. Pin configuration SOT886

(XSON6)

Fig. 6. Pin configuration SOT1269-2

(X2SON4)

74LVC1G14_Q100

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Product data sheet

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74LVC1G14-Q100

Single Schmitt trigger inverter

7.2. Pin description

Table 3. Pin description

Symbol

Description

TSSOP5 and SC-74A

XSON6

X2SON4

n.c.

1, 5

not connected

data input

GND

ground (0 V)

data output

V_CC

supply voltage

8. Functional description

Table 4. Function table

H = HIGH voltage level; L = LOW voltage level.

Input

Output

9. Limiting values

Table 5. Limiting values

In accordance with the Absolute Maximum Rating System (IEC 60134). Voltages are referenced to GND (ground = 0 V).

Symbol Parameter

Conditions

Min

-0.5

-50

Max

+6.5

Unit

V_CC

V_I

supply voltage

input voltage

output voltage

[1]

V_O

Active mode

V_CC+ 0.5 V

Power-down mode; V_CC= 0 V

V_I< 0 V

+6.5

I_IK

input clamping current

output clamping current

output current

°C

I_OK

I_O

V_O> V_CCor V_O< 0 V

V_O= 0 V to V_CC

±50

+100

I_CC

I_GND

T_stg

P_tot

supply current

ground current

-100

-65

storage temperature

total power dissipation

+150

T_amb= -40 °C to +125 °C

TSSOP5, SC-74A and XSON6 package [2]

X2SON4 package [3]

250

150

[1] The input and output voltage ratings may be exceeded if the input and output current ratings are observed.

[2] For SOT353-1 (TSSOP5) package: P_totderates linearly with 3.3 mW/K above 74 °C.

For SOT753 (SC-74A) package: P_totderates linearly with 3.8 mW/K above 85 °C.

For SOT886 (XSON6) package: P_totderates linearly with 3.3 mW/K above 74 °C.

[3] For SOT1269-2 (X2SON4) package: P_totderates linearly with 1.7 mW/K above 57 °C.

74LVC1G14_Q100

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Product data sheet

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Nexperia

74LVC1G14-Q100

Single Schmitt trigger inverter

10. Recommended operating conditions

Table 6. Recommended operating conditions

Symbol Parameter

Conditions

Min

1.65

Typ

Max

5.5

Unit

V_CC

V_I

supply voltage

input voltage

output voltage

5.5

V_O

Active mode

V_CC

5.5

Power-down mode; V_CC= 0 V

T_amb

ambient temperature

-40

+125 °C

11. Static characteristics

Table 7. Static characteristics

At recommended operating conditions; voltages are referenced to GND (ground = 0 V).

Symbol Parameter

Conditions

-40 °C to +85 °C

Typ[1]

-40 °C to +125 °C Unit

Min

Max

Min

Max

V_OH

HIGH-level output V_I= V_T+or V_T-

voltage

I_O= -100 μA;

V_CC- 0.1

V_CC= 1.65 V to 5.5 V

I_O= -4 mA; V_CC= 1.65 V

I_O= -8 mA; V_CC= 2.3 V

I_O= -12 mA; V_CC= 2.7 V

I_O= -24 mA; V_CC= 3.0 V

I_O= -32 mA; V_CC= 4.5 V

1.2

1.9

2.2

2.3

3.8

1.54

2.15

2.50

2.62

4.11

0.95

1.7

1.9

2.0

3.4

V_OL

LOW-level output V_I= V_T+or V_T-

voltage

I_O= 100 μA;

0.10

V_CC= 1.65 V to 5.5 V

I_O= 4 mA; V_CC= 1.65 V

I_O= 8 mA; V_CC= 2.3 V

I_O= 12 mA; V_CC= 2.7 V

I_O= 24 mA; V_CC= 3.0 V

I_O= 32 mA; V_CC= 4.5 V

0.07

0.12

0.17

0.33

0.39

±0.1

0.45

0.30

0.40

0.55

±1

0.70

0.45

0.60

0.80

±1

I_I

input leakage

current

V_I= 5.5 V or GND;

V_CC= 0 V to 5.5 V

μA

I_OFF

I_CC

ΔI_CC

C_I

power-off leakage V_Ior V_O= 5.5 V; V_CC= 0 V

current

±0.1

0.1

±2

μA

supply current

V_I= 5.5 V or GND; I_O= 0 A;

V_CC= 1.65 V to 5.5 V

additional supply V_I= V_CC- 0.6 V; I_O= 0 A;

current V_CC= 2.3 V to 5.5 V

500

input capacitance V_CC= 3.3 V; V_I= GND to V_CC

5.0

[1] All typical values are measured at maximum V_CCand T_amb= 25 °C.

74LVC1G14_Q100

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Product data sheet

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74LVC1G14-Q100

Single Schmitt trigger inverter

11.1. Transfer characteristics

Table 8. Transfer characteristics

Voltages are referenced to GND (ground = 0 V); for test circuit see Fig. 11.

Symbol Parameter

Conditions

-40 °C to +85 °C

Typ[1]

-40 °C to +125 °C Unit

Min

Max

Min

Max

V_T+

V_T-

V_H

positive-going

threshold voltage

see Fig. 7 and Fig. 8

V_CC= 1.8 V

0.82

1.03

1.29

1.84

2.19

1.0

1.2

1.5

2.1

2.5

1.14

1.40

1.71

2.36

2.79

0.79

1.00

1.26

1.81

2.16

1.14

1.40

1.71

2.36

2.79

V_CC= 2.3 V

V_CC= 3.0 V

V_CC= 4.5 V

V_CC= 5.5 V

negative-going

threshold voltage

see Fig. 7 and Fig. 8

V_CC= 1.8 V

0.46

0.65

0.88

1.32

1.58

0.6

0.8

1.0

1.5

1.8

0.75

0.96

1.24

1.84

2.24

0.46

0.65

0.88

1.32

1.58

0.78

0.99

1.27

1.87

2.27

V_CC= 2.3 V

V_CC= 3.0 V

V_CC= 4.5 V

V_CC= 5.5 V

hysteresis voltage

(V_T+- V_T-); see Fig. 7, Fig. 8

and Fig. 9

V_CC= 1.8 V

V_CC= 2.3 V

V_CC= 3.0 V

V_CC= 4.5 V

V_CC= 5.5 V

0.26

0.28

0.31

0.40

0.47

0.4

0.5

0.6

0.51

0.57

0.64

0.77

0.88

0.19

0.22

0.25

0.34

0.41

0.51

0.57

0.64

0.77

0.88

[1] Typical values are measured at T_amb= 25 °C.

11.2. Waveforms transfer characteristics

T+

T-

mna208

T+

T-

mna207

V_T+and V_T-limits at 70 % and 20 %.

Fig. 7. Transfer characteristic

Fig. 8. Definition of V_T+, V_T-and V_H

74LVC1G14_Q100

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74LVC1G14-Q100

Single Schmitt trigger inverter

mna641

(mA)

V (V)

V_CC= 3.0 V.

Fig. 9. Typical transfer characteristics

12. Dynamic characteristics

Table 9. Dynamic characteristics

Voltages are referenced to GND (ground = 0 V); for test circuit see Fig. 11.

Symbol Parameter

Conditions

-40 °C to +85 °C

-40 °C to +125 °C Unit

Min

Typ[1]

Max

Min

Max

t_pd

propagation delay

A to Y; see Fig. 10

V_CC= 1.65 V to 1.95 V

V_CC= 2.3 V to 2.7 V

V_CC= 2.7 V

[2]

1.0

0.7

4.1

2.8

11.0

6.5

5.5

5.0

1.0

0.7

14.0

8.5

7.0

6.5

3.2

V_CC= 3.0 V to 3.6 V

V_CC= 4.5 V to 5.5 V

3.0

2.2

C_PD

power dissipation

capacitance

V_CC= 3.3 V; V_I= GND to V_CC[3]

15.4

[1] Typical values are measured at T_amb= 25 °C and V_CC= 1.8 V, 2.5 V, 2.7 V, 3.3 V and 5.0 V respectively.

[2] t_pdis the same as t_PLHand t_PHL

[3] C_PDis used to determine the dynamic power dissipation (P_Din μW).

P_D= C_PD× V_CC²× f_i+ (C_L× V_CC²× f_o) where:

f_i= input frequency in MHz;

f_o= output frequency in MHz;

C_L= output load capacitance in pF;

V_CC= supply voltage in V.

74LVC1G14_Q100

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74LVC1G14-Q100

Single Schmitt trigger inverter

12.1. Waveform and test circuit

A input

GND

PHL

PLH

Y output

mna640

Measurement points are given in Table 10.

V_OLand V_OHare typical output voltage levels that occur with the output load.

Fig. 10. The data input (A) to output (Y) propagation delays

Table 10. Measurement points

Supply voltage

V_CC

Input

Output

V_M

1.65 V to 1.95 V

2.3 V to 2.7 V

2.7 V

0.5 × V_CC

1.5 V

0.5 × V_CC

1.5 V

3.0 V to 3.6 V

4.5 V to 5.5 V

1.5 V

0.5 × V_CC

EXT

DUT

mna616

Test data is given in Table 11.

Definitions for test circuit:

R_L= Load resistance;

C_L= Load capacitance including jig and probe capacitance;

R_T= Termination resistance should be equal to the output impedance Z_oof the pulse generator;

V_EXT= External voltage for measuring switching times.

Fig. 11. Test circuit for measuring switching times

Table 11. Test data

Supply voltage

V_CC

Input

V_I

Load

C_L

V_EXT

t_r= t_f

R_L

t_PLH, t_PHL

open

1.65 V to 1.95 V

2.3 V to 2.7 V

2.7 V

V_CC

2.7 V

V_CC

≤ 2.0 ns

≤ 2.5 ns

30 pF

50 pF

1 kΩ

500 Ω

open

3.0 V to 3.6 V

4.5 V to 5.5 V

open

74LVC1G14_Q100

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74LVC1G14-Q100

Single Schmitt trigger inverter

13. Application information

The slow input rise and fall times cause additional power dissipation, this can be calculated using

the following formula:

P_add= f_i× (t_r× ΔI_CC(AV)+ t_f× ΔI_CC(AV)) × V_CCwhere:

•

P_add= additional power dissipation (μW);

f_i= input frequency (MHz);

t_r= input rise time (ns); 10 % to 90 %;

t_f= input fall time (ns); 90 % to 10 %;

ΔI_CC(AV)= average additional supply current (μA).

Average ΔI_CC(AV)differs with positive or negative input transitions, as shown in Fig. 12.

An example of a relaxation circuit using the 74LVC1G14-Q100 is shown in Fig. 13.

mna642

average

(mA)

positive-going

edge

negative-going

edge

(V)

Linear change of V_Ibetween 0.8 V to 2.0 V.

All values given are typical unless otherwise specified.

Fig. 12. Average additional supply current as a function of supply voltage

aaa-021985

1.2

0.8

0.6

0.4

0.2

mna035

(V)

For K-factor, see Fig. 14.

Fig. 13. Relaxation oscillator

Fig. 14. Typical K-factor for relaxation oscillator

74LVC1G14_Q100

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Single Schmitt trigger inverter

14. Package outline

TSSOP5: plastic thin shrink small outline package; 5 leads; body width 1.25 mm

SOT353-1

(5x)

pin 1 index

M B

(5x)

detail X

3 mm

scale

Dimensions (mm are the original dimensions)

Unit

(1)

max 1.1 0.1 1.0

0.8 0.8

0.30 0.25 2.2 1.35

0.15 0.08 1.8 1.15

2.4 0.46

1.8 0.26

8°

0°

0.15

0.65 1.3

0.3 0.1 0.1

min

Note

1. Plastic or metal protrusions of 0.2 mm maximum per side are not included.

sot353-1_po

References

Outline

version

European

projection

Issue date

IEC

JEDEC

JEITA

21-12-15

21-12-16

SOT353-1

SC-88A

MO-203

Fig. 15. Package outline SOT353-1 (TSSOP5)

74LVC1G14_Q100

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74LVC1G14-Q100

Single Schmitt trigger inverter

Plastic surface-mounted package; 5 leads

SOT753

detail X

M B

2 mm

scale

DIMENSIONS (mm are the original dimensions)

UNIT

0.100

0.013

0.40

0.25

1.1

0.9

0.26

0.10

3.1

2.7

1.7

1.3

3.0

2.5

0.6

0.2

0.33

0.23

0.95

0.2

0.1

REFERENCES

JEDEC JEITA

EUROPEAN

PROJECTION

OUTLINE

VERSION

ISSUE DATE

IEC

02-04-16

06-03-16

SOT753

SC-74A

Fig. 16. Package outline SOT753 (SC-74A)

74LVC1G14_Q100

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74LVC1G14-Q100

Single Schmitt trigger inverter

XSON6: plastic extremely thin small outline package; no leads; 6 terminals; body 1 x 1.45 x 0.5 mm

SOT886

(2)

terminal 1

index area

2 mm

scale

Dimensions (mm are the original dimensions)

(1)

Unit

max 0.5 0.04 0.25 1.50 1.05

0.35 0.40

0.30 0.35

0.27 0.32

nom

min

0.20 1.45 1.00 0.6

0.17 1.40 0.95

0.5

Notes

1. Including plating thickness.

2. Can be visible in some manufacturing processes.

sot886_po

Issue date

References

Outline

version

European

projection

IEC

JEDEC

MO-252

JEITA

04-07-22

12-01-05

SOT886

Fig. 17. Package outline SOT886 (XSON6)

74LVC1G14_Q100

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74LVC1G14-Q100

Single Schmitt trigger inverter

X2SON4: plastic thermal enhanced extremely thin small outline package; no leads;

4 terminals; body 0.6 x 0.6 x 0.32 mm

SOT1269-2

pin 1

ID area

detail X

(4x)

A B

(4x)

1 mm

scale

Dimensions (mm are the original dimensions)

Unit

max 0.35 0.04 0.65 0.65 0.20

0.23

mm nom 0.32 0.02 0.60 0.60 0.15 0.40 0.18 0.10 0.05 0.05 0.05

0.30 0.00 0.55 0.55 0.10

0.13

min

sot1269-2_po

Issue date

References

Outline

version

European

projection

IEC

JEDEC

- - -

JEITA

17-04-07

17-06-30

SOT1269-2

Fig. 18. Package outline SOT1269-2 (X2SON4)

74LVC1G14_Q100

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74LVC1G14-Q100

Single Schmitt trigger inverter

15. Abbreviations

Table 12. Abbreviations

Acronym

Description

CMOS

DUT

ESD

HBM

MIL

Complementary Metal Oxide Semiconductor

Device Under Test

ElectroStatic Discharge

Human Body Model

Military

Machine Model

TTL

Transistor-Transistor Logic

16. Revision history

Table 13. Revision history

Document ID

Release date

20220120

Data sheet status

Change notice Supersedes

- 74LVC1G14_Q100 v.6

74LVC1G14_Q100 v.7

Modifications:

Product data sheet

•

Fig. 15: Package outline drawing SOT353-1 (TSSOP5) has changed.

74LVC1G14_Q100 v.6

Modifications:

20210504

Section 1 and Section 2 updated.

20210127 Product data sheet

Product data sheet

74LVC1G14_Q100 v.5

•

74LVC1G14_Q100 v.5

Modifications:

74LVC1G14_Q100 v.4

•

Added type number 74LVC1G14GX4-Q100 (SOT1269-2).

Table 5: Derating values for P_tottotal power dissipation updated.

74LVC1G14_Q100 v.4

Modifications:

20190125

Product data sheet

74LVC1G14_Q100 v.3

•

The format of this data sheet has been redesigned to comply with the identity guidelines of

Nexperia.

•

Legal texts have been adapted to the new company name where appropriate.

Added type number 74LVC1G14GM-Q100 (SOT886).

74LVC1G14_Q100 v.3

Modifications:

20161208

Product data sheet

74LVC1G14_Q100 v.2

•

Table 7: The maximum limits for leakage current and supply current have changed.

74LVC1G14_Q100 v.2

Modifications:

20160315

Fig. 14 added (typical K-factor for relaxation oscillator).

20120709 Product data sheet

Product data sheet

74LVC1G14_Q100 v.1

•

74LVC1G14_Q100 v.1

74LVC1G14_Q100

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74LVC1G14-Q100

Single Schmitt trigger inverter

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17. Legal information

Data sheet status

Quick reference data — The Quick reference data is an extract of the

product data given in the Limiting values and Characteristics sections of this

document, and as such is not complete, exhaustive or legally binding.

Document status Product

Definition

[1][2]

status [3]

Applications — Applications that are described herein for any of these

products are for illustrative purposes only. Nexperia makes no representation

or warranty that such applications will be suitable for the specified use

without further testing or modification.

Objective [short]

data sheet

Development

This document contains data from

the objective specification for

product development.

Preliminary [short]

data sheet

Qualification

Production

This document contains data from

the preliminary specification.

Customers are responsible for the design and operation of their applications

and products using Nexperia products, and Nexperia accepts no liability for

any assistance with applications or customer product design. It is customer’s

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Customers should provide appropriate design and operating safeguards to

minimize the risks associated with their applications and products.

Product [short]

data sheet

This document contains the product

specification.

[1] Please consult the most recently issued document before initiating or

completing a design.

[2] The term 'short data sheet' is explained in section "Definitions".

[3] The product status of device(s) described in this document may have

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Definitions

Draft — The document is a draft version only. The content is still under

internal review and subject to formal approval, which may result in

modifications or additions. Nexperia does not give any representations or

warranties as to the accuracy or completeness of information included herein

and shall have no liability for the consequences of use of such information.

Limiting values — Stress above one or more limiting values (as defined in

the Absolute Maximum Ratings System of IEC 60134) will cause permanent

damage to the device. Limiting values are stress ratings only and (proper)

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given in the Recommended operating conditions section (if present) or the

Characteristics sections of this document is not warranted. Constant or

repeated exposure to limiting values will permanently and irreversibly affect

the quality and reliability of the device.

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Suitability for use in automotive applications — This Nexperia product

has been qualified for use in automotive applications. Unless otherwise

agreed in writing, the product is not designed, authorized or warranted to

be suitable for use in life support, life-critical or safety-critical systems or

74LVC1G14_Q100

All information provided in this document is subject to legal disclaimers.

Product data sheet

Rev. 7 — 20 January 2022

14 / 15

Nexperia

74LVC1G14-Q100

Single Schmitt trigger inverter

Contents

1. General description......................................................1

2. Features and benefits.................................................. 1

3. Applications.................................................................. 1

4. Ordering information....................................................2

5. Marking..........................................................................2

6. Functional diagram.......................................................2

7. Pinning information......................................................2

7.1. Pinning.........................................................................2

7.2. Pin description.............................................................3

8. Functional description................................................. 3

9. Limiting values............................................................. 3

10. Recommended operating conditions........................4

11. Static characteristics..................................................4

11.1. Transfer characteristics..............................................5

11.2. Waveforms transfer characteristics............................5

12. Dynamic characteristics............................................ 6

12.1. Waveform and test circuit..........................................7

13. Application information............................................. 8

14. Package outline.......................................................... 9

15. Abbreviations............................................................13

16. Revision history........................................................13

17. Legal information......................................................14

For more information, please visit: http://www.nexperia.com

For sales office addresses, please send an email to: salesaddresses@nexperia.com

Date of release: 20 January 2022

74LVC1G14_Q100

All information provided in this document is subject to legal disclaimers.

Product data sheet

Rev. 7 — 20 January 2022

15 / 15

74LVC1G14GX4-Q100 [NEXPERIA]

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