Logic Brochure

Diodes Logic Brochure (Final Artwork) 15/10/2013 10:11 Page 1
LOGIC
PRODUCTS
www.diodes.com
Diodes Logic Brochure (Final Artwork) 15/10/2013 10:12 Page 2
DIODES INCORPORATED’S PRODUCTS ARE DESIGNED FOR HIGH PERFORMANCE,
ACROSS A WIDE RANGE OF EXISTING AND EMERGING APPLICATIONS
COMPANY OVERVIEW
DIODES’ LOGIC DEVICES
Diodes Incorporated is a leading
global provider of Discrete, Analog,
and Logic semiconductors.
Diodes Incorporated’s diverse range
of logic products are offered in a wide
variety of packages to meet the design
needs of both cutting-edge and legacy
products.
Its global footprint includes sales
offices in six countries and
manufacturing locations in China,
Europe and the USA.
A focus on product
innovation, cost
reduction, acquisitions
and customer service
has made Diodes
Incorporated an
industry leader.
Diodes' products include diodes,
rectifiers, transistors, MOSFETs,
protection devices, functional specific
arrays, five logic families, amplifiers
and comparators, Hall-effect and
temperature sensors; power
management devices, including
LED drivers, AC-DC converters and
controllers, DC-DC switching and
linear voltage regulators, and voltage
references along with special function
devices, such as USB power switches,
load switches, voltage supervisors,
and motor controllers.
Diodes Incorporated’s experienced design
team has created popular functions in four
major logic families. Very low power AUP
products are available to save milliwatts
and extend battery life. The LVC family is an
industry standard that has the drive and
speed to work well in many demanding
applications. HC and AHC legacy parts have
been re-engineered on advanced wafer
processes allowing for a continuous
product supply well into the future.
Single-gate and dual-gate logic is widely
used in many systems to interface larger
more complex devices. System designs
dictate that signals may need to be
combined, gated, inverted or level shifted
between devices. Designers now have the
flexibility to add the exact number of gates
in very specific locations, thus easing
routing and maximizing efficiency, whereas
previously a NAND gate would have
required a 14-pin device.
Offering an array of
high-reliability logic devices in
miniature packages is crucial in order to
meet the small-footprint requirements
for the ever-evolving tablet, notebook
and smart phone markets.
Diodes Incorporated provides an
assortment of small package options,
allowing manufacturers to choose a size
and lead pitch that will be compatible with
their standard manufacturing processes.
Most of the logic products are assembled in
Diodes Incorporated’s proprietary factories,
which enables direct control of quality and
cost along with dedicated capacity to meet
customer needs. While logic is often
considered a commodity device, the
newest miniature package offerings from
Diodes Incorporated are enabling the
advancement of the next generation of tiny
portable consumer products.
Diodes Logic Brochure (Final Artwork) 15/10/2013 10:12 Page 3
INDEX
LVC
Single and Dual Gate
Low Voltage CMOS Logic
4
Standard Low Voltage CMOS Logic 5
LV
Low Voltage CMOS
6
AUP
Single and Dual Gate Advanced
Ultra Low Power CMOS Logic
7
AHC/AHCT
Single Gate Advanced
High Speed CMOS Logic
8
Standard Advanced
High Speed CMOS Logic
9
HC/HCT
Standard High Speed CMOS Logic 10
Logic Product Packing
and Cross Reference
Packaging Overview
Nomenclature
Logic Prefixes
Package Selection and Codes
Logic Cross Reference
11
11
11
12
13-19
Page 3
Diodes Logic Brochure (Final Artwork) 15/10/2013 10:12 Page 4
LVC
32
•
•
•
•†
•
•
Single 2-Input NOR Gate
LVC
1.65
5.5
8
5.5
4.5
4
32
•
•
•
•†
•
•
74LVC1G04
Single Inverter
LVC
1.65
5.5
7.5
5.2
4.2
3.7
32
•
•
•
•†
•
•
74LVC1G06
Single Inverter with Open-Drain Output
LVC
1.65
5.5
6.5
4
4
3
32
•
•
•
•†
•
•
DFN1409 / FX4
4
74LVC1G02
(ns) (mA)
DFN1410 / FZ4
DFN1010 / FW4
4.7
SOT563 / W6
DFN0808 / FS3
5.5
SOT553 / W
(ns)
9
SOT363 / DW
(ns)
5.5
SOT26 /W6
(ns)
1.65
SOT353 /SE
tpd max at 3.3V
V
LVC
SOT25 / W5
tpd max at 2.5V
V
Single 2-Input NAND Gate
tpd max at 5.0V
tpd max at 1.8V
Description
74LVC1G00
VCC (min)
Part
Number
VCC (max)
Package / Package Code
Family
Output Current
Single and Dual Gate Low Voltage CMOS Logic
74LVC1G07
Single Buffer with Open-Drain Output
LVC
1.65
5.5
8.3
5.5
4.2
3.5
32
•
•
•
•†
•
•
74LVC1G08
Single 2-Input AND Gate
LVC
1.65
5.5
8
5.5
4.5
4
32
•
•
•
•†
•
•
74LVC1G10
Single 3-Input NAND Gate
LVC
1.65
5.5
19
6.5
5
3.6
32
•
•
74LVC1G11
Single 3-Input AND Gate
LVC
1.65
5.5
17.2
6.2
4.9
3.5
32
•
•
74LVC1G14
Single Schmitt Trigger Inverter
LVC
1.65
5.5
9.9
5.5
4.6
4.4
32
•
•
•†
•
•
74LVC1G17
Single Schmitt Trigger Buffer
LVC
1.65
5.5
11
6.5
5.5
5
32
•
•
•†
•
•
74LVC1G32
Single 2-Input OR Gate
LVC
1.65
5.5
8
5.5
4.5
4
32
•
•
•†
•
•
74LVC1G34
Single Buffer
LVC
1.65
5.5
7.5
5
4.2
3.7
32
•
•
•
•
•
•
•
•
74LVC1G57
Configurable Multiple-Function Gate
LVC
1.65
5.5
14.4
8.3
6.3
5.1
32
•
•
•
•
74LVC1G58
Configurable Multiple-Function Gate
LVC
1.65
5.5
14.4
8.3
6.3
5.1
32
•
•
•
•
74LVC1G86
Single 2-Input EXCLUSIVE OR Gate
LVC
1.65
5.5
9.9
5.5
5
4
32
•
•
74LVC1G97
Configurable Multiple-Function Gate
LVC
1.65
5.5
14.4
8.3
6.3
5.1
32
•
•
•
•
74LVC1G98
Configurable Multiple-Function Gate
LVC
1.65
5.5
14.4
8.3
6.3
5.1
32
•
•
•
•
74LVC1G125
Single Buffer with 3-State Output OE LOW
LVC
1.65
5.5
9
5.5
4.5
4
32
•
•†
•
•
74LVC1G126
Single Buffer with 3-State Output OE HIGH
LVC
1.65
5.5
8
5.5
4.5
4
32
•
•†
•
74LVC1T45
Single Translator Dual Voltage
LVC
1.65
5.5
17.7
8.5
5.8
3.9
32
74LVC2G04
Dual Inverters
LVC
1.65
5.5
8
4.4
4.1
3.2
32
74LVC2G06
Dual Inverters with Open-Drain Outputs
LVC
1.65
5.5
6.5
3.9
3.4
2.9
74LVC2G07
Dual Buffers with Open-Drain Outputs
LVC
1.65
5.5
6.7
4.3
3.7
74LVC2G14
Dual Schmitt Trigger Inverters
LVC
1.65
5.5
11
6.5
74LVC2G17
Dual Schmitt Trigger Buffers
LVC
1.65
5.5
10.5
6.5
74LVC2G34
Dual Buffers
LVC
1.65
5.5
8.6
4.4
4.1
•
•
•
•
•†
•
•
•
•†
•
•
•†
•†
•
•
•†
•
32
•
•
•
•†
•
2.9
32
•
•
•
•†
•
6
4.3
32
•
•
•
•†
•
5.7
4.3
32
•
•
•
•†
•
3.2
32
•
•
•
•†
•
THE DIODES ADVANTAGE
† product in development
The Diodes Advantage
New DFN0808 Package
One of the world’s smallest logic packages
at 0.8 mm X 0.8 mm.
Your Product can now be Smaller, Lighter, and Thinner
Today’s leading products are small and thin. The DFN1010
package will allow the use of 74LVC1Gxx and 74LVC2Gxx logic in very
small products including tablet computers and touch screen phones.
Configurable Gate Functions and Dual Gate
Diodes offers both Dual Gate and Multifunction Gates in this very
small package. Few other logic vendors have this offering.
Chip Scale Alternative
The footprint is similar to a chip scale package.
The DFN1409 is a good solution for products that can accommodate
0.4 mm height. The packaged part uses less silicon and is more
economical than a chip scale solution.
Page 4
•
Diodes Logic Brochure (Final Artwork) 15/10/2013 10:13 Page 5
LVC
5.9
(ns) (mA)
4.1
24
•
•
74LVC04A
Hex Buffers
LVC
1.65
3.6
75
7
4.3
24
•
•
74LVC06A
Hex Inverters with Open-Drain Outputs
LVC
1.65
3.6
5.3
4.1
3.5
24
•
•
74LVC07A
Hex Buffers with Open-Drain Outputs
LVC
1.65
3.6
5.3
4.1
3.5
24
74LVC08A
Quadruple 2-Input AND Gates
LVC
1.65
3.6
9.3
6.4
3.9
24
•
•
74LVC14A
Hex Schmitt Trigger Inverters
LVC
1.65
3.6
8.2
7
4.3
24
•
•
74LVC32A
Quadruple 2-Input OR Gates
LVC
1.65
3.6
8.2
4.9
3.6
24
•
•
74LVC86A
Quadruple 2-Input EXCLUSIVE OR Gates
LVC
1.65
3.6
9.4
7.1
4.4
24
•
•
74LVC125A
Quadruple 3-State Buffers OE LOW
LVC
1.65
3.6
11.8
5.8
4.6
24
•
•
•
•
QFN-20 / Q20
(ns)
12
TSSOP-14 / T14
(ns)
Package / Package Code
SO-14 / S14
V
3.6
Output Current
V
1.65
tpd max at 3.3V
tpd max at 2.5V
LVC
tpd max at 1.8V
Quadruple 2-Input NAND Gates
VCC (max)
Description
74LVC00A
VCC (min)
Part
Number
Family
Standard Low Voltage CMOS Logic
74LVC126A
Quadruple 3-State Buffers OE HIGH
LVC
1.65
3.6
9.3
6.7
4.5
24
74LVC240A
Octal Buffers/Line Drivers with 3-State Outputs
LVC
1.65
3.6
12.7
8.3
6.3
24
•†
74LVC241A
Octal Buffers/Line Drivers with 3-State Outputs
LVC
1.65
3.6
12.7
8.3
6.1
24
•†
74LVC244A
Octal Buffers/Line Drivers with 3-State Outputs
LVC
1.65
3.6
10.9
7.9
6.9
24
•†
74LVC245A
Octal Bus Transceivers with 3-State Outputs
LVC
1.65
3.6
12.7
8.3
7.3
24
•†
74LVC273A
Octal D-Type Flip-Flops with Clear
LVC
1.65
3.6
16.5
9
7.3
24
•†
74LVC373A
Octal Transparent D-Type Latches with 3-State Outputs
LVC
1.65
3.6
12.2
7.8
6.8
24
•†
74LVC374A
Octal D-Type Flip-Flops with 3-State Outputs
LVC
1.65
3.6
12.2
8.5
7.8
24
•†
74LVC540A
Octal Buffers/Line Drivers with 3-State Outputs
LVC
1.65
3.6
12.2
7.6
6.9
24
•†
74LVC541A
Octal Buffers/Line Drivers with 3-State Outputs
LVC
1.65
3.6
13.2
7.6
4.9
24
•†
74LVC573A
Octal Transparent D-Type Latches with 3-State Outputs
LVC
1.65
3.6
15.3
10.5
9.5
24
•†
74LVC574A
Octal D-Type Flip-Flops with 3-State Outputs
LVC
1.65
3.6
12.2
8.5
6.8
24
•†
74LVCH244A
Octal Buffers/Line Drivers with Bus Hold / 3-State Outputs
LVC
1.65
3.6
10.9
7.9
5.9
24
•†
74LVCH245A
Octal Bus Transceivers with Bus Hold / 3-State Outputs
LVC
1.65
3.6
12.7
8.3
6.3
24
•†
THE DIODES ADVANTAGE
† product in development
The Diodes Advantage
Wide Supply Voltage Range
The recommended operating voltage range is Vcc from 1.65 to 3.6 V.
Ioff Circuit Included
Diodes offers the designer the flexibility of power down isolation for
sections of a system. Ioff circuits are not offered by all vendors
for LVC products.
Direct Replacement
The LVCxx series offers a direct replacement for the industry standard
LVC providing better value and improved availability.
Page 5
Diodes Logic Brochure (Final Artwork) 15/10/2013 10:13 Page 6
LV
tpd max at 5.0V
Output Current
V
V
(ns)
(ns)
(ns)
(mA)
SO-14 / S14
TSSOP-14 / T14
2.0
5.5
15
9.5
6.5
12
•†
•†
74LV04A
Hex Buffers
LV
2.0
5.5
14
8.5
6.5
12
•†
•†
74LV05A
Hex Inverters with Open-Drain Outputs
LV
2.0
5.5
15
8.5
6.5
12
•†
•†
74LV06A
Hex Inverters with Open-Drain Outputs
LV
2.0
5.5
15
8.5
6.5
12
•†
•†
74LV07A
Hex Buffers with Open-Drain Outputs
LV
2.0
5.5
15
8
6
12
•†
•†
74LV08A
Quadruple 2-Input AND Gates
LV
2.0
5.5
16
10.5
7
12
•†
•†
74LV14A
Hex Schmitt Trigger Inverters
LV
2.0
5.5
22
15
10
12
•†
•†
74LV32A
Quadruple 2-Input OR Gates
LV
2.0
5.5
15
9.5
6.5
12
•†
•†
74LV86A
Quadruple 2-Input EXCLUSIVE OR Gates
LV
2.0
5.5
21
13
8
12
•†
•†
QFN-20 / Q20
tpd max at 3.3V
LV
tpd max at 2.5V
Quadruple 2-Input NAND Gates
Package / Package Code
VCC (max)
Description
74LV00A
VCC (min)
Part
Number
Family
Low Voltage CMOS
74LV125A
Quadruple 3-State Buffers OE LOW
LV
2.0
5.5
15.5
9.5
6.5
12
•†
•†
74LV126A
Quadruple 3-State Buffers OE HIGH
LV
2.0
5.5
15.5
9.5
6.5
12
•†
•†
74LV240A
Octal Buffers/Line Drivers with 3-State Outputs
LV
2.0
5.5
14
9
6.5
12
•†
74LV241A
Octal Buffers/Line Drivers with 3-State Outputs
LV
2.0
5.5
15
10
6.5
12
•†
74LV244A
Octal Buffers/Line Drivers with 3-State Outputs
LV
2.0
5.5
15
10
6.5
12
•†
74LV245A
Octal Bus Transceivers with 3-State Outputs
LV
2.0
5.5
15
10
6.5
12
•†
74LV273A
Octal D-Type Flip-Flops with Clear
LV
2.0
5.5
20.5
16
10.5
12
•†
74LV373A
Octal Transparent D-Type Latches with 3-State Outputs
LV
2.0
5.5
17
13.5
8.5
12
•†
74LV374A
Octal D-Type Flip-Flops with 3-State Outputs
LV
2.0
5.5
19
15
9.5
12
•†
74LV540A
Octal Buffers/Line Drivers with 3-State Outputs
LV
2.0
5.5
14
8.5
6
12
•†
74LV541A
Octal Buffers/Line Drivers with 3-State Outputs
LV
2.0
5.5
13.5
8.5
6
12
•†
74LV573A
Octal Transparent D-Type Latches with 3-State Outputs
LV
2.0
5.5
18
13
8
12
•†
74LV574A
Octal D-Type Flip-Flops with 3-State Outputs
LV
2.0
5.5
20
15.5
10
12
•†
THE DIODES ADVANTAGE
† product in development
The Diodes Advantage
Wide Supply Voltage Range
The recommended operating voltage range is Vcc from 2.0 to 5.5V
This allows a wide range of applications including 5V legacy systems.
Upgrade Path
Diodes offers the designer the flexibility of a system upgrade from
HC or AHC technologies. The compatible voltage levels and faster
switching speeds allow for faster clock rates in legacy systems.
Direct Replacement
The LVxx series offers a direct replacement for the industry
standard LV products.
Page 6
Diodes Logic Brochure (Final Artwork) 15/10/2013 10:13 Page 7
AUP
7
5.3
4.9
4
•
•†
•
•
74AUP1G02
Single 2-Input NOR Gate
AUP
0.8
3.6
8.9
7
5.4
4.8
4
•
•†
•
•
DFN1210 / RA3
DFN2030 / RB5
(ns) (mA)
DFN1410 / FW4
(ns)
8.9
DFN1010 / FW4
(ns)
3.6
DFN0910 / FW3
(ns)
0.8
DFN0808 / FS3
V
AUP
SOT363 / DW
tpd max at 2.5V
V
Single 2-Input NAND Gate
SOT353 / SE
tpd max at 1.8V
Output Current
tpd max at 1.5V
Description
74AUP1G00
VCC (min)
VCC (max)
Package / Package Code
Part
Number
Family
tpd max at 3.3V
Single and Dual Gate Advanced Ultra Low Power CMOS Logic
•†
•†
•†
•†
•†
•†
•†
•†
•†
•†
•†
•†
74AUP1G04
Single Inverter
AUP
0.8
3.6
9
6.7
5.1
4.2
4
•
•†
•
•
74AUP1G06
Single Inverter with Open-Drain Output
AUP
0.8
3.6
7.7
6.6
4.6
6
4
•
•†
•
•
74AUP1G07
Single Buffer with Open-Drain Output
AUP
0.8
3.6
6.8
6.7
5.9
5.7
4
•
•†
•
•
74AUP1G08
Single 2-Input AND Gate
AUP
0.8
3.6
8.6
6.9
5.5
4.8
4
•
•†
•
•
74AUP1G09
Single 2-Input AND Gate width Open-Drain Output
AUP
0.8
3.6
12.1
9.6
8.1
5.5
4
•
•†
•
•
74AUP1G14
Single Schmitt Trigger Inverter
AUP
0.8
3.6
8.6
7
5.5
4.8
4
•
•†
•
•
74AUP1G17
Single Schmitt Trigger Buffer
AUP
0.8
3.6
8.7
7.1
5.6
4.9
4
•
•†
•
•
74AUP1G32
Single 2-Input OR Gate
AUP
0.8
3.6
8.6
6.7
5.3
4.9
4
•
•†
•
•
74AUP1G34
Single Buffer
AUP
0.8
3.6
7.6
6
4.8
4.2
4
•
•†
•
•
74AUP1G86
Single 2-Input EXCULSIVE OR Gate
AUP
0.8
3.6
12.5
9.8
7.6
7.1
4
•
•†
•
•
74AUP1G125
Single Buffer with 3-State Output OE LOW
AUP
0.8
3.6
8.1
6.3
4.9
4.4
4
•
•†
•
•
74AUP1G126
Single Buffer with 3-State Output OE HIGH
AUP
0.8
3.6
8.1
6.3
4.9
4.4
4
•
•†
•
•
74AUP2G00
Dual 2-Input NAND Gates
AUP
0.8
3.6
12.9
4
5.3
4.9
4
74AUP2G02
Dual 2-Input NOR Gates
AUP
0.8
3.6
10.9
8
5.5
4.8
4
74AUP2G04
Dual Inverters
AUP
0.8
3.6
11
7.7
5.6
4.2
4
•
•†
74AUP2G06
Dual Inverters with Open-Drain Outputs
AUP
0.8
3.6
10.7
7.6
5.1
6
4
•
•†
•
•†
74AUP2G07
Dual Buffers with Open-Drain Outputs
AUP
0.8
3.6
9.8
8.7
6.9
5.7
4
74AUP2G08
Dual 2-Input AND Gates
AUP
0.8
3.6
11.6
8.9
6.5
4.8
4
74AUP2G14
Dual Schmitt Trigger Inverters
AUP
0.8
3.6
11.6
9
6.5
4.8
4
•
•†
74AUP2G17
Dual Schmitt Trigger Buffers
AUP
0.8
3.6
11.7
9.1
6.6
4.9
4
•
•†
74AUP2G32
Dual 2-Input OR Gates
AUP
0.8
3.6
11.6
8.7
6.3
4.9
4
74AUP2G34
Dual Buffers
AUP
0.8
3.6
10.6
8
5.8
4.2
4
74AUP2G86
Dual 2-Input EXCLUSIVE OR Gate
AUP
0.8
3.6
15.5
11.8
8.6
7.1
4
•†
•†
•†
74AUP2G125
Dual Buffers with 3-State Outputs OE LOW
AUP
0.8
3.6
11.1
8.3
6.9
4.4
4
•†
•†
•†
74AUP2G126
Dual Buffers with 3-State Outputs OE HIGH
AUP
0.8
3.6
11.9
8.8
7.1
4.7
4
•†
•†
•†
AUP
0.8
3.6
11.8
7.7
6.2
4.6
4
74AUP2G3404 Dual - One Buffer & One Inverter
•
•†
•
THE DIODES ADVANTAGE
† product in development
The Diodes Advantage
Low Voltage and Low Power
Parts are well suited for battery driven, handheld applications such as
cell phones, tablets, E-readers, games, cameras, music players, netbooks,
and notebooks.
Noise Rejection Circuitry
All of the devices in this release include a small amount of input
hysteresis making less susceptible to problems from slow rising or
falling signals.
Small Packages
The DFN0808 at 0.8 mm X 0.8 mm and the DFN1010 at 1.0 X 1.0 mm
are ideal for the smallest of applications.
Page 7
Diodes Logic Brochure (Final Artwork) 15/10/2013 10:13 Page 8
AHC/AHCT
Single Gate Advanced High Speed CMOS Logic
tpd max at 3.3V
tpd max at 5.0V
Output Current
V
(ns)
(ns)
(mA)
SOT25 / W5
SOT353 / SE
AHC
2
5.5
7.9
5.5
8
•
•
74AHC1G02
Single 2-Input NOR Gate
AHC
2
5.5
7.9
5.5
8
•
•
74AHC1G04
Single Inverter
AHC
2
5.5
7.1
5.5
8
•
•
74AHC1G08
Single 2-Input AND Gate
AHC
2
5.5
8.8
5.9
8
•
•
74AHC1G09
Single 2-Input AND Gate width Open-Drain Output
AHC
2
5.5
8.5
5.5
8
•
•
74AHC1G14
Single Schmitt Trigger Inverter
AHC
2
5.5
12.8
8.6
8
•
•
74AHC1G32
Single 2-Input OR Gate
AHC
2
5.5
7.9
5.5
8
•
•
74AHC1G86
Single 2-Input EXCULSIVE OR Gate
AHC
2
5.5
11
6.8
8
•
•
74AHC1G125
Single Buffer with 3-State Output OE LOW
AHC
2
5.5
8
5.5
8
•
•
74AHC1G126
Single Buffer with 3-State Output OE HIGH
AHC
2
5.5
8
5.5
8
•
•
74AHC1GU04
Unbuffered Single Inverter
AHC
2
5.5
7.1
5.5
8
•
•
74AHCT1G00
Single 2-Input NAND Gate, TTL Compatabile
AHCT
4.5
5.5
6.2
8
•
•
74AHCT1G02
Single 2-Input NOR Gate, TTL Compatabile
AHCT
4.5
5.5
5.5
8
•
•
74AHCT1G04
Single Inverter, TTL Compatabile
AHCT
4.5
5.5
6.7
8
•
•
74AHCT1G08
Single 2-Input AND Gate, TTL Compatabile
AHCT
4.5
5.5
6.2
8
•
•
74AHCT1G14
Single Schmitt Trigger Inverter, TTL Compatabile
AHCT
4.5
5.5
5.5
8
•
•
74AHCT1G32
Single 2-Input OR Gate, TTL Compatabile
AHCT
4.5
5.5
5.5
8
•
74AHCT1G86
Single 2-Input EXCULSIVE OR Gate, TTL Compatabile
AHCT
4.5
5.5
7
8
•
74AHCT1G125
Single Buffer with 3-State Output OE LOW, TTL Compatabile
AHCT
4.5
5.5
6.9
8
•
•
74AHCT1G126
Single Buffer with 3-State Output OE HIGH, TTL Compatabile
AHCT
4.5
5.5
6.9
8
•
•
VCC (min)
V
Single 2-Input NAND Gate
Family
Description
74AHC1G00
THE DIODES ADVANTAGE
Part
Number
VCC (max)
Package /
Package Code
The Diodes Advantage
AHC Direct Replacement
The 74AHC1Gxx is a direct replacement for devices offered by
other vendors.
AHC Lower Power Consumption
The AHC family has drive current optimized at a lower +/- 8 mA
which is the lower power alternative for 3.3V to 5.5V applications.
Advanced 5V Process
A new robust 5V process is an upgrade over the competition.
Lower power dissipation capacitance improves dynamic
switching power.
Page 8
Diodes Logic Brochure (Final Artwork) 15/10/2013 10:13 Page 9
AHC/AHCT
THE DIODES ADVANTAGE
Standard Advanced High Speed CMOS Logic
tpd max at 3.3V
tpd max at 5.0V
Output Current
V
V
(ns)
(ns)
(mA)
SO-14 / S14
TSSOP-14 / T14
SO-16 / S16
TSSOP-16 / T16
Quadruple 2-Input NAND Gates
AHC
2.0
5.5
11.4
7.5
8
•
•
74AHC04
Hex Inverters
AHC
2.0
5.5
8.5
5.5
8
•
•
74AHC05
Hex Inverters with Open-Drain Outputs
AHC
2.0
5.5
7.9
5.5
8
•
•
74AHC08
Quadruple 2-Input AND Gates
AHC
2.0
5.5
7.9
5.5
8
•
•
74AHC14
Hex Schmitt Trigger Inverters
AHC
2.0
5.5
12.8
8.6
8
•
•
74AHC32
Quadruple 2-Input OR Gates
AHC
2.0
5.5
7.9
5.5
8
•
•
74AHC86
Quadruple 2-Input EXCLUSIVE OR Gates
AHC
2.0
5.5
11.0
6.8
8
•
•
74AHC125
Quadruple 3-State Buffers OE LOW
AHC
2.0
5.5
8.0
5.5
8
•
•
74AHC126
Quadruple 3-State Buffers OE HIGH
AHC
2.0
5.5
8.0
5.5
8
•
•
74AHC138
3-to-8 Line Decoder Demultiplexer
AHC
2.0
5.5
13
8.5
8
•
•
74AHC594
8-Bit Shift Register 8-Bit Output Register
AHC
2.0
5.5
13.2
9.1
8
•
•
74AHC595
8-Bit Shift Register 8-Bit Output Register with 3-State Outputs
AHC
2.0
5.5
18.5
11.4
8
•
•
VCC (min)
Description
74AHC00
Family
Part
Number
VCC (max)
Package / Package Code
74AHCT00
Quadruple 2-Input NAND Gates, TTL Compatible
AHCT
4.5
5.5
6.9
8
•
•
74AHCT04
Hex Inverters, TTL Compatible
AHCT
4.5
5.5
6.7
8
•
•
74AHCT08
Quadruple 2-Input AND Gates, TTL Compatible
AHCT
4.5
5.5
5.5
8
•
•
74AHCT14
Hex Schmitt Trigger Inverters, TTL Compatible
AHCT
4.5
5.5
6.9
8
•
•
74AHCT32
Quadruple 2-Input OR Gates, TTL Compatible
AHCT
4.5
5.5
6.9
8
•
•
74AHCT86
Quadruple 2-Input EXCLUSIVE OR Gates, TTL Compatible
AHCT
4.5
5.5
6.9
8
•
•
74AHCT125 Quadruple 3-State Buffers OE LOW, TTL Compatible
AHCT
4.5
5.5
5.5
8
•
•
74AHCT126 Quadruple 3-State Buffers OE HIGH, TTL Compatible
AHCT
4.5
5.5
5.5
8
•
•
74AHCT138 3-to-8 Line Decoder Demultiplexer, TTL Compatible
AHCT
4.5
5.5
10.5
8
•
•
74AHCT594 8-Bit Shift Register 8-Bit Output Register, TTL Compatible
AHCT
4.5
5.5
10.1
8
•
•
74AHCT595 8-Bit Shift Register 8-Bit Output Register with 3-State Outputs, TTL Compatible
AHCT
4.5
5.5
10.5
8
•
•
74AHC0U4
AHC
2.0
5.5
5.5
8
Unbuffered Hex Inverters
7.1
•
•
The Diodes Advantage
Noise Rejection Circuitry
All of the devices in this release include a small amount of input
hysteresis making less susceptible to problems from slow rising or
falling signals.
Direct Replacement
The 74AHC and AHCT devices are direct replacements for
industry standard devices providing better value and improved
availability.
Page 9
Diodes Logic Brochure (Final Artwork) 15/10/2013 10:13 Page 10
HC/HCT
Standard High Speed CMOS Logic
VCC (max)
tpd max at 2.0V
tpd max at 4.5V
Output Current
V
V
(ns)
(ns)
(mA)
SO-14 / S14
TSSOP-14 / T14
SO-16 / S16
TSSOP-16 / T16
Quadruple 2-Input NAND Gates
HC
2.0
6.0
90
18
4
•
•
74HC04
Hex Inverters
HC
2.0
6.0
90
18
4
•
•
74HC05
Hex Inverters with Open-Drain Outputs
HC
2.0
6.0
90
18
4
•
•
74HC08
Quadruple 2-Input AND Gates
HC
2.0
6.0
90
18
4
•
•
74HC14
Hex Schmitt Trigger Inverters
HC
2.0
6.0
125
25
4
•
•
74HC32
Quadruple 2-Input OR Gates
HC
2.0
6.0
90
18
4
•
•
74HC86
Quadruple 2-Input EXCLUSIVE OR Gates
HC
2.0
6.0
90
18
4
•
•
74HC125
Quadruple 3-State Buffers OE LOW
HC
2.0
6.0
100
20
4
•
•
74HC126
Quadruple 3-State Buffers OE HIGH
HC
2.0
6.0
100
20
4
•
•
74HC138
3-to-8 Line Decoder Demultiplexer
HC
2.0
6.0
190
38
4
•
•
74HC594
8-Bit Shift Register 8-Bit Output Register
HC
2.0
6.0
185
37
4
•
•
74HC595
8-Bit Shift Register 8-Bit Output Register with 3-State Outputs
HC
2.0
6.0
200
40
4
•
•
74HCT00
Quadruple 2-Input NAND Gates, TTL Compatible
HCT
4.5
5.5
22
4
•
•
74HCT04
Hex Inverters, TTL Compatible
HCT
4.5
5.0
22
4
•
•
74HCT08
Quadruple 2-Input AND Gates, TTL Compatible
HCT
4.5
5.0
24
4
•
•
74HCT14
Hex Schmitt Trigger Inverters, TTL Compatible
HCT
4.5
5.0
34
4
•
•
74HCT32
Quadruple 2-Input OR Gates, TTL Compatible
HCT
4.5
5.5
24
4
•
•
74HCT86
Quadruple 2-Input EXCLUSIVE OR Gates, TTL Compatible
HCT
4.5
5.0
40
4
•
•
74HCT125
Quadruple 3-State Buffers OE LOW, TTL Compatible
HCT
4.5
5.5
25
4
•
•
74HCT126
Quadruple 3-State Buffers OE HIGH, TTL Compatible
HCT
4.5
5.5
25
4
•
•
74HCT138
3-to-8 Line Decoder Demultiplexer, TTL Compatible
HCT
4.5
5.5
40
4
•
•
74HCT594
8-Bit Shift Register 8-Bit Output Register, TTL Compatible
HCT
4.5
5.5
38
4
•
•
74HCT595
8-Bit Shift Register 8-Bit Output Register with 3-State Outputs, TTL Compatible HCT
4.5
5.5
50
4
•
•
74HC0U4
Unbuffered Hex Inverters
2.0
5.5
18
4
HC
VCC (min)
Description
74HC00
THE DIODES ADVANTAGE
Part
Number
Family
Package / Package Code
90
•
•
The Diodes Advantage
Lower Power Dissipation
CPD is up to 60% lower on the HCMOS parts resulting in lower
power dissipation helping meet energy savings standards.
Noise Rejection Circuitry
All of the devices in this release include a small amount of input
hysteresis making less susceptible to problems from slow rising or
falling signals.
Direct Replacement
The 74HC and HCT devices are direct replacements for industry
standard devices providing better value and improved availability.
Page 10
Diodes Logic Brochure (Final Artwork) 15/10/2013 10:13 Page 11
Logic Packaging Overview
Diodes Incorporated specializes in
building small packages.
Some of the smaller DFN packages use
less board area than chip scale while
offering a solution that is more robust
for system drop and shear tests.
With the advent of the cell phone and
tablet computer the need for extremely
small packages has grown exponentially.
Diodes Incorporated supplies several logic
families in extremely small package formats
to meet the most demanding applications.
The Standard Logic portfolio is also
supported by and array of standard
SO and TSSOP packages and includes
a small 20-pin QFN for small
space-constrained systems.
ONE OF THE
WORLD’S SMALLEST
LOGIC PACKAGES
- DFN0808
DFN / QFN Package nomenclature
X2
DFN
08
08
-4
Example represents Diodes’ smallest logic package.
Pin Count - Center pads not counted
Package Y Dimension in tenths of mm
Package X Dimension in tenths of mm
DFN - Leads on opposing two sides QFN - Leads on four sides
Package Thickness Range
T
> 1.00
<= 1.20
V
> 0.8
<= 1.00
W
> 0.65
<= 0.8
U
> 0.5
<= 0.65
X1
> 0.4
<= 0.5
X2
> 0.3
<= 0.4
X3
> 0.25
<= 0.3
X4
> 0.0
<= 0.25
0.8mm
0.8mm
Logic Prefixes
Family
Device Type
Diodes
NXP
Fairchild
TI
Toshiba
ON
AHC1G
Single Gate
74AHC1Gxx
74AHC1Gxx
NC7Sxx
SN74AHC1Gxx
TC7SHxx
MC74VHC1Gxx
AHCT1G
Single Gate
74AHCT1Gxx
74AHCT1Gxx
NC7STxx
SN74AHCT1Gxx
TC7SETxx
MC74VHC1GTxx
AUP1G
Single Gate
74AUP1Gxx
74AUP1Gxx
NC7SPxx
SN74AUP1Gxx
TC7SGxx
–
AUP2G
Dual Gate
74AUP2Gxx
74AUP2Gxx
NC7WPxx
SN74AUP2Gxx
–
–
LVC1G
Single Gate
74LVC1Gxx
74LVC1Gxx
NC7SZxx
SN74LVC1Gxx
TC7SZxx
NL17SZxx
LVC1T
Single Translator
74LVC1Txx
74LVC1Txx
–
SN74LVC1Txx
–
–
LVC2G
Dual Gate
74LVC2Gxx
74LVC2Gxx
NC7WZxx
SN74LVC2Gxx
TC7WZxx
NL17WZxx
AHC
Standard Logic
74AHCxxx
74AHCxxx
VHCxxx
SN74AHCxxx
VHCxxx
VHCxxx
AHCT
Standard Logic
74AHCTxxx
74AHCTxxx
VHCTxxx
SN74AHCTxxx
VHCTxxx
VHCTxxx
HC
Standard Logic
74HCxxx
74HCxxx
HCxxx
SN74HCxxx
HCxxx
HCxxx
HCT
Standard Logic
74HCTxxx
74HCTxxx
HCTxxx
SN74HCTxxx
HCTxxx
HCTxxx
LVC
Standard Logic
74LVCxxx
74LVCxxx
LCXxxx
SN74LVCxxx
LCXxxx
LCXxxx
Page 11
Diodes Logic Brochure (Final Artwork) 15/10/2013 10:13 Page 12
Package Selection
Typical Dimensions
Package
Pin Count
Package Code
SOT25
5
W5
SOT26
6
SOT353
SOT363
Width (mm)
Length (mm)
Height (mm)
Area (mm)2
2.8
3
1.1
8.4
Pitch (mm)
0.95
W6
2.8
3
1.1
8.4
0.95
5
SE
2.1
2.15
1
4.515
0.65
6
DW
2.1
2.15
1
4.515
0.65
SOT553
5
Z
1.6
1.6
0.6
2.56
0.5
SOT563
6
Z6
1.6
1.6
0.6
2.56
0.5
DFN0808
4+1
FS3
0.8
0.8
0.3
0.64
0.5
DFN0910
6
FW3
0.9
1
0.3
0.9
0.3
DFN1010
6
FW4
1
1
0.4
1
0.35
DFN1210
8
RA3
1.2
1
0.3
1.2
0.3
DFN1409
6
FX4
1.4
0.9
0.37
1.26
0.5
DFN1410
6
FZ4
1.4
1
0.4
1.4
0.5
DFN2030
8
RB5
2
3
0.5
6
0.5
SOIC -14
14
S14
8.6
6
1.6
51.6
1.27
TSSOP-14
14
T14
6.4
5
1
32
0.65
SOIC-16
16
S16
9.9
6
1.6
59.4
1.27
TSSOP-16
16
T16
6.4
5
1
32
0.65
QFN-20
20
Q20
4.5
2.5
0.85
11.25
0.5
THE DIODES ADVANTAGE
The taping orientation is located on our website at www.diodes.com/datasheets/ap02007.pdf
The Diodes Advantage
Package Choice
Options for legacy packages or cutting edge space-saving designs.
Lead Free / ROHS Compliant
No excessive lead or halides.
Chip Scale Replacement
The smallest DFN packages are space equivalent and more
mechanically robust.
Package Codes
Family
Pin Count
Diodes
NXP
Fairchild
TI
Toshiba
ON
SOT25
5
W5
GV
M5
DBV
F
DTT
SOT26
6
W6
GV
M6
DBV
F
DTT
SOT353
5
SE
GW
P5
DCK
FU
DFT
SOT363
6
DW
GW
P6
DCK
FU
DFT
SOT553
5
Z
DRL
FE
XV5
SOT563
6
Z6
DRL
DFN0808
4+1
FS3
GX
DFN0910
6
FW3
GN
DFN1010
6
FW4
GF
DFN1210
8
RA3
GN
FH
XV6
DSF
DFN1409
6
FX4
DFN1410
6
FZ4
GM
DFN2030
8
RB5
GD
SOIC -14
14
S14
D
M
D
FN
D
TSSOP-14
14
T14
PW
MTC
PW
FT
DT
SOIC-16
16
S16
D
M
D
FN
D
TSSOP-16
16
T16
PW
MTC
PW
FT
DT
QFN-20
20
Q20
ABQ
‡DFN1409 is a chip scale alternative
Page 12
YZP‡
L6
DRY
Diodes Logic Brochure (Final Artwork) 15/10/2013 10:13 Page 13
Logic Products Cross Reference
Diodes Device Package Description
a74AHC1G00SE-7
74AHC1G00W5-7
a
Toshiba
TI
NXP
SOT353
Single 2-Input NAND Gate
TC7SH00FU
SN74AHC1G00DCKR
74AHC1G00GW,125
ON
MC74VHC1G00DF
Fairchild
NC7S00P5X
SOT25
Single 2-Input NAND Gate
TC7SH00F
SN74AHC1G00DBVR
74AHC1G00GV,125
MC74VHC1G00DT
NC7S00M5X
74AHC1G02SE-7
SOT353
Single 2-Input NOR Gate
TC7SH02FU
SN74AHC1G02DCKR
74AHC1G02GW,125
MC74VHC1G02DF
NC7S02P5X
74AHC1G02W5-7
SOT25
Single 2-Input NOR Gate
TC7SH02F
SN74AHC1G02DBVR
74AHC1G02GV,125
MC74VHC1G02DT
NC7S02M5X
74AHC1G04SE-7
SOT353
Single Inverter
TC7SH04FU
SN74AHC1G04DCKR
74AHC1G04GW,125
MC74VHC1G04DF
NC7S04P5X
74AHC1G04W5-7
SOT25
Single Inverter
TC7SH04F
SN74AHC1G04DBVR
74AHC1G04GV,125
MC74VHC1G04DT
NC7S04M5X
74AHC1G08SE-7
SOT353
Single 2-Input AND Gate
TC7SH08FU
SN74AHC1G08DCKR
74AHC1G08GW,125
MC74VHC1G08DF
NC7S08P5X
74AHC1G08W5-7
SOT25
Single 2-Input AND Gate
TC7SH08F
SN74AHC1G08DBVR
74AHC1G08GV,125
MC74VHC1G08DT
NC7S08M5X
TC7SH09FU
74AHC1G09SE-7
SOT353
Single 2-Input AND Gate with Open-Drain Output
74AHC1G09W5-7
SOT25
Single 2-Input AND Gate with Open-Drain Output
SN74AHC1G09DCKR
74AHC1G09GW,125
MC74VHC1G09DF
SN74AHC1G09DBVR
74AHC1G09GV,125
MC74VHC1G09DT
74AHC1G14SE-7
SOT353
Single Schmitt Trigger Inverter
TC7SH14FU
SN74AHC1G14DCKR
74AHC1G14GW,125
MC74VHC1G14DF
NC7S14P5X
74AHC1G14W5-7
SOT25
Single Schmitt Trigger Inverter
TC7SH14F
SN74AHC1G14DBVR
74AHC1G14GV,125
MC74VHC1G14DT
NC7S14M5X
a74AHC1G32SE-7
74AHC1G32W5-7
a74AHC1G86SE-7
74AHC1G86W5-7
a74AHC1G125SE-7
74AHC1G125W5-7
a74AHC1G126SE-7
74AHC1G126W5-7
a74AHC1GU04SE-7
74AHC1GU04W5-7
a74AHC00S14-13
74AHC00T14-13
a74AHC04S14-13
74AHC04T14-13
a74AHC05S14-13
74AHC05T14-13
a74AHC08S14-13
74AHC08T14-13
a74AHC14S14-13
a74AHC14T14-13
a74AHC32S14-13
a74AHC32T14-13
a74AHC86S14-13
74AHC86T14-13
a74AHC125S14-13
74AHC125T14-13
a74AHC126S14-13
74AHC126T14-13
a74AHC138S16-13
74AHC138T16-13
a74AHC594S16-13
SOT353
Single 2-Input OR Gate
TC7SH32FU
SN74AHC1G32DCKR
74AHC1G32GW,125
MC74VHC1G32DF
NC7S32P5X
SOT25
Single 2-Input OR Gate
TC7SH32F
SN74AHC1G32DBVR
74AHC1G32GV,125
MC74VHC1G32DT
NC7S32M5X
SOT353
Single 2-Input EXCULSIVE OR Gate
TC7SH86FU
SN74AHC1G86DCKR
74AHC1G86GW,125
MC74VHC1G86DF
NC7S86P5X
SOT25
Single 2-Input EXCULSIVE OR Gate
TC7SH86F
SN74AHC1G86DBVR
74AHC1G86GV,125
MC74VHC1G86DT
NC7S86M5X
SOT353
Single Buffer with 3-State Output OE LOW
TC7SH125FU
SN74AHC1G125DCKR
74AHC1G125GW,125
MC74VHC1G125DF
SOT25
Single Buffer with 3-State Output OE LOW
TC7SH125F
SN74AHC1G125DBVR
74AHC1G125GV,125
MC74VHC1G125DT
SOT353
Single Buffer with 3-State Output OE HIGH
TC7SH126FU
SN74AHC1G126DCKR
74AHC1G126GW,125
MC74VHC1G126DF
SOT25
Single Buffer with 3-State Output OE HIGH
TC7SH126F
SN74AHC1G126DBVR
74AHC1G126GV,125
MC74VHC1G126DT
SOT353
Single Unbuffered Inverter
TC7SHU04FU
SN74AHC1GU04DCKR
74AHC1GU04GW,125
MC74VHC1GU04DF
NC7SU04P5X
SOT25
Single Unbuffered Inverter
TC7SHU04F
SN74AHC1GU04DBVR
74AHC1GU04GV,125
MC74VHC1GU04DT
NC7SU04M5X
SO-14
Quadruple 2-Input NAND Gates
SN74AHC00DR
74AHC00D,118
MC74VHC00DR2
TSSOP-14
Quadruple 2-Input NAND Gates
SN74AHC00PWR
74AHC00PW,118
MC74VHC00DTR2
SO-14
Hex Inverters
SN74AHC04DR
74AHC04D,118
MC74VHC04DR2
TSSOP-14
Hex Inverters
SN74AHC04PWR
74AHC04PW,118
MC74VHC04DTR2
SO-14
Hex Inverters with Open-Drain Outputs
SN74AHC05DR
74AHC05D,118
MC74VHC05DR2
TSSOP-14
Hex Inverters with Open-Drain Outputs
SN74AHC05PWR
74AHC05PW,118
MC74VHC05DTR2
SO-14
Quadruple 2-Input AND Gates
SN74AHC08DR
74AHC08D,118
MC74VHC08DR2
TSSOP-14
Quadruple 2-Input AND Gates
SN74AHC08PWR
74AHC08PW,118
MC74VHC08DTR2
SO-14
Hex Schmitt Trigger Inverters
SN74AHC14DR
74AHC14D,118
MC74VHC14DR2
TSSOP-14
Hex Schmitt Trigger Inverters
SN74AHC14PWR
74AHC14PW,118
MC74VHC14DTR2
SO-14
Quadruple 2-Input OR Gates
SN74AHC32DR
74AHC32D,118
MC74VHC32DR2
TSSOP-14
Quadruple 2-Input OR Gates
SN74AHC32PWR
74AHC32PW,118
MC74VHC32DTR2
SO-14
Quadruple 2-Input EXCULSIVE OR Gates
SN74AHC86DR
74AHC86D,118
MC74VHC86DR2
TSSOP-14
Quadruple 2-Input EXCULSIVE OR Gates
SN74AHC86PWR
74AHC86PW,118
MC74VHC86DTR2
SO-14
Quadruple Buffers with 3 State Outputs OE LOW
SN74AHC125DR
74AHC125D,118
MC74VHC125DR2
TSSOP-14
Quadruple Buffers with 3 State Outputs OE LOW
SN74AHC125PWR
74AHC125PW,118
MC74VHC125DTR2
SO-14
Quadruple Buffers with 3 State Outputs OE HIGH
SN74AHC126DR
74AHC126D,118
MC74VHC126DR2
TSSOP-14
Quadruple Buffers with 3 State Outputs OE HIGH
SN74AHC126PWR
74AHC126PW,118
MC74VHC126DTR2
SO-16
3-to-8 Line Decoder Demultiplexer
TC74VHC138FN
SN74AHC138DR
74AHC138D
MC74VHC138DR2G
74VHC138MX
TSSOP-16
3-to-8 Line Decoder Demultiplexer
TC74VHC138FT
SN74AHC138PWR
74AHC138PW
MC74VHC138DTR2G
74VHC138MTCX
SO-16
8-Bit Shift Register 8-Bit Output Register
SN74AHC594DR
74AHC594D
74AHC594T16-13
TSSOP-16
8-Bit Shift Register 8-Bit Output Register
SN74AHC594PWR
74AHC594PW
a74AHC595S16-13
a74AHC595T16-13
a74AHCU04S14-13
SO-16
8-Bit Shift Register 8-Bit Output Register
TC74VHC595FN
SN74AHC595DR
74AHC595D
MC74VHC595DR2G
74VHC595MX
TSSOP-16
8-Bit Shift Register 8-Bit Output Register
TC74VHC595FT
SN74AHC595PWR
74AHC595PW
MC74VHC595DTR2G
74VHC595MTCX
74AHCU04T14-13
SO-14
Hex Unbuffered Inverters
SN74AHCU04DR
74AHCU04D,118
MC74VHCU04DR2
TSSOP-14
Hex Unbuffered Inverters
SN74AHCU04PWR
74AHCU04PW,118
MC74VHCU04DTR2
74AHCT1G00SE-7
SOT353
Single 2-Input NAND Gate, TTL Input
TC7SET00FU
SN74AHCT1G00DCKR
74AHCT1G00GW,12
MC74VHC1GT00DF
NC7ST00P5X
74AHCT1G00W5-7
SOT25
Single 2-Input NAND Gate, TTL Input
TC7SET00F
SN74AHCT1G00DBVR
74AHCT1G00GV,125
MC74VHC1GT00DT
NC7ST00M5X
74AHCT1G02SE-7
SOT353
Single 2-Input NOR Gate, TTL Input
TC7SET02FU
SN74AHCT1G02DCKR
74AHCT1G02GW,125
MC74VHC1GT02DF
NC7ST02P5X
74AHCT1G02W5-7
SOT25
Single 2-Input NOR Gate, TTL Input
TC7SET02F
SN74AHCT1G02DBVR
74AHCT1G02GV,125
MC74VHC1GT02DT
NC7ST02M5X
74AHCT1G04SE-7
SOT353
Single Inverter, TTL Input
TC7SET04FU
SN74AHCT1G04DCKR
74AHCT1G04GW,125
MC74VHC1GT04DF
NC7ST04P5X
74AHCT1G04W5-7
SOT25
Single Inverter, TTL Input
TC7SET04F
SN74AHCT1G04DBVR
74AHCT1G04GV,125
MC74VHC1GT04DT
NC7ST04M5X
74AHCT1G08SE-7
SOT353
Single 2-Input AND Gate, TTL Input
TC7SET08FU
SN74AHCT1G08DCKR
74AHCT1G08GW,125
MC74VHC1GT08DF
NC7ST08P5X
74AHCT1G08W5-7
SOT25
Single 2-Input AND Gate, TTL Input
TC7SET08F
SN74AHCT1G08DBVR
74AHCT1G08GV,125
MC74VHC1GT08DT
NC7ST08M5X
74AHCT1G14SE-7
SOT353
Single Schmitt Trigger Inverter, TTL Input
TC7SET14FU
SN74AHCT1G14DCKR
74AHCT1G14GW,125
MC74VHC1GT14DF
74AHCT1G14W5-7
SOT25
Single Schmitt Trigger Inverter, TTL Input
TC7SET14F
SN74AHCT1G14DBVR
74AHCT1G14GV,125
MC74VHC1GT14DT
74AHCT1G32SE-7
SOT353
Single 2-Input OR Gate, TTL Input
TC7SET32FU
SN74AHCT1G32DCKR
74AHCT1G32GW,125
MC74VHC1GT32DF
NC7ST32P5X
74AHCT1G32W5-7
SOT25
Single 2-Input OR Gate, TTL Input
TC7SET32F
SN74AHCT1G32DBVR
74AHCT1G32GV,125
MC74VHC1GT32DT
NC7ST32M5X
74AHCT1G86SE-7
SOT353
Single 2-Input EXCULSIVE OR Gate, TTL Input
TC7SET86FU
SN74AHCT1G86DCKR
74AHCT1G86GW,125
MC74VHC1GT86DF
NC7ST86P5X
74AHCT1G86W5-7
SOT25
Single 2-Input EXCULSIVE OR Gate, TTL Input
TC7SET86F
SN74AHCT1G86DBVR
74AHCT1G86GV,125
MC74VHC1GT86DT
NC7ST86M5X
Page 13
Diodes Logic Brochure (Final Artwork) 15/10/2013 10:13 Page 14
Logic Products Cross Reference (continued)
Diodes Device Package Description
a74AHCT1G125SE-7
a
SOT353
Toshiba
TI
NXP
Single Buffer with 3-State Output OE LOW, TTL Input
TC7SET125FU
SN74AHCT1G125DCKR
74AHCT1G125GW,125
ON
MC74VHC1GT125DF
74AHCT1G125W5-7
SOT25
Single Buffer with 3-State Output OE LOW, TTL Input
TC7SET125F
SN74AHCT1G125DBVR
74AHCT1G125GV,125
MC74VHC1GT125DT
74AHCT1G126SE-7
SOT353
Single Buffer with 3-State Output OE HIGH, TTL Input
TC7SET126FU
SN74AHCT1G126DCKR
74AHCT1G126GW,125
MC74VHC1GT126DF
74AHCT1G126W5-7
SOT25
Single Buffer with 3-State Output OE HIGH, TTL Input
TC7SET126F
SN74AHCT1G126DBVR
74AHCT1G126GV,125
MC74VHC1GT126DT
74AHCT00S14-13
SO-14
Quadruple 2-Input NAND Gates, TTL Inputs
SN74AHCT00DR
74AHCT00D,118
MC74VHCT00DR2
74AHCT00T14-13
TSSOP-14
Quadruple 2-Input NAND Gates, TTL Inputs
SN74AHCT00PWR
74AHCT00PW,118
MC74VHCT00DTR2
74AHCT04S14-13
SO-14
Hex Inverters, TTL Inputs
SN74AHCT04DR
74AHCT04D,118
MC74VHCT04DR2
74AHCT04T14-13
TSSOP-14
Hex Inverters, TTL Inputs
SN74AHCT04PWR
74AHCT04PW,118
MC74VHCT04DTR2
74AHCT08S14-13
SO-14
Quadruple 2-Input AND Gates, TTL Inputs
SN74AHCT08DR
74AHCT08D,118
MC74VHCT08DR2
74AHCT08T14-13
TSSOP-14
Quadruple 2-Input AND Gates, TTL Inputs
SN74AHCT08PWR
74AHCT08PW,118
MC74VHCT08DTR2
74AHCT14S14-13
SO-14
Hex Schmitt Trigger Inverters, TTL Inputs
SN74AHCT14DR
74AHCT14D,118
MC74VHCT14DR2
74AHCT14T14-13
TSSOP-14
Hex Schmitt Trigger Inverters, TTL Inputs
SN74AHCT14PWR
74AHCT14PW,118
MC74VHCT14DTR2
a74AHCT32S14-13
74AHCT32T14-13
a74AHCT86S14-13
74AHCT86T14-13
a74AHCT125S14-13
74AHCT125T14-13
a74AHCT126S14-13
74AHCT126T14-13
a74AHCT138S16-13
74AHCT138T16-13
a74AHCT594S16-13
74AHCT594T16-13
a74AHCT595S16-13
74AHCT595T16-13
a74AUP1G00FS3-7
74AUP1G00FW4-7
SO-14
Quadruple 2-Input OR Gate, TTL Inputs
SN74AHCT32DR
74AHCT32D,118
MC74VHCT32DR2
TSSOP-14
Quadruple 2-Input OR Gate, TTL Inputs
SN74AHCT32PWR
74AHCT32PW,118
MC74VHCT32DTR2
SO-14
Quadruple 2-Input EXCULSIVE OR Gates, TTL Inputs
SN74AHCT86DR
74AHCT86D,118
MC74VHCT86DR2
TSSOP-14
Quadruple 2-Input EXCULSIVE OR Gates, TTL Inputs
SN74AHCT86PWR
74AHCT86PW,118
MC74VHCT86DTR2
SO-14
Quadruple Buffers with 3 State Outputs OE LOW, TTL Inputs
SN74AHCT125DR
74AHCT125D,118
MC74VHCT125DR2
TSSOP-14
Quadruple Buffers with 3 State Outputs OE LOW, TTL Inputs
SN74AHCT125PWR
74AHCT125PW,118
MC74VHCT125DTR2
SO-14
Quadruple Buffers with 3 State Outputs OE HIGH, TTL Inputs
SN74AHCT126DR
74AHCT126D,118
MC74VHCT126DR2
TSSOP-14
Quadruple Buffers with 3 State Outputs OE HIGH, TTL Inputs
SN74AHCT126PWR
74AHCT126PW,118
MC74VHCT126DTR2
SO-16
3-to-8 Line Decoder Demultiplexer, TTL Inputs
TC74VHCT138AFN
SN74AHCT138DR
74AHCT138D
MC74VHCT138ADR2G
TSSOP-16
3-to-8 Line Decoder Demultiplexer, TTL Inputs
TC74VHCT138AFT
SN74AHCT138PWR
74AHCT138PW
MC74VHCT138ADTRG
SO-16
8-Bit Shift Register 8-Bit Output Register, TTL Inputs
SN74AHCT594DR
74AHCT594D
TSSOP-16
8-Bit Shift Register 8-Bit Output Register, TTL Inputs
SN74AHCT594PWR
74AHCT594PW
SO-16
8-Bit Shift Register 8-Bit Output Register, TTL Inputs
SN74AHCT595DR
74AHCT595D
TSSOP-16
8-Bit Shift Register 8-Bit Output Register, TTL Inputs
SN74AHCT595PWR
74AHCT595PW
SN74AUP1G00DSFR
74AUP1G00GF,132
DFN0808
Single 2-Input NAND Gate
DFN1010
Single 2-Input NAND Gate
74AUP1G00GX,132
a74AUP1G00FZ4-7
DFN1410
Single 2-Input NAND Gate
SN74AUP1G00DRYR
74AUP1G00GM,115
74AUP1G00SE-7
SOT353
Single 2-Input NAND Gate
SN74AUP1G00DCKR
74AUP1G00GW,125
DFN0808
Single 2-Input NOR Gate
DFN1010
Single 2-Input NOR Gate
SN74AUP1G02DSFR
74AUP1G02GF,132
a74AUP1G02FS3-7
a74AUP1G02FW4-7
a74AUP1G02FZ4-7
a74AUP1G02SE-7
a74AUP1G04FS3-7
74AUP1G04FW4-7
74AUP1G02GX,132
DFN1410
Single 2-Input NOR Gate
SN74AUP1G02DRYR
74AUP1G02GM,115
SOT353
Single 2-Input NOR Gate
SN74AUP1G02DCKR
74AUP1G02GW,125
SN74AUP1G04DSFR
74AUP1G04GF,132
DFN0808
Single Inverter
DFN1010
Single Inverter
74AUP1G04GX,132
a74AUP1G04FZ4-7
DFN1410
Single Inverter
SN74AUP1G04DRYR
74AUP1G04GM,115
74AUP1G04SE-7
SOT353
Single Inverter
SN74AUP1G04DCKR
74AUP1G04GW,125
DFN0808
Single Inverter with Open-Drain Output
DFN1010
Single Inverter with Open-Drain Output
SN74AUP1G06DSFR
74AUP1G06GF,132
a74AUP1G06FS3-7
74AUP1G06FW4-7
74AUP1G06GX,132
a74AUP1G06FZ4-7
DFN1410
Single Inverter with Open-Drain Output
SN74AUP1G06DRYR
74AUP1G06GM,115
74AUP1G06SE-7
SOT353
Single Inverter with Open-Drain Output
SN74AUP1G06DCKR
74AUP1G06GW,125
SN74AUP1G07DSFR
74AUP1G07GF,132
a74AUP1G07FS3-7
74AUP1G07FW4-7
a74AUP1G07FZ4-7
a74AUP1G07SE-7
a74AUP1G08FS3-7
74AUP1G08FW4-7
DFN0808
Single Buffer with Open-Drain Output
DFN1010
Single Buffer with Open-Drain Output
74AUP1G07GX,132
DFN1410
Single Buffer with Open-Drain Output
SN74AUP1G07DRYR
74AUP1G07GM,115
SOT353
Single Buffer with Open-Drain Output
SN74AUP1G07DCKR
74AUP1G07GW,125
SN74AUP1G08DSFR
74AUP1G08GF,132
DFN0808
Single 2-Input AND Gate
DFN1010
Single 2-Input AND Gate
74AUP1G08GX,132
74AUP1G08FZ4-7
DFN1410
Single 2-Input AND Gate
SN74AUP1G08DRYR
74AUP1G08GM,115
74AUP1G08SE-7
SOT353
Single 2-Input AND Gate
SN74AUP1G08DCKR
74AUP1G08GW,125
SN74AUP1G09DSFR
74AUP1G09GF,132
74AUP1G09FS3-7
DFN0808
Single 2-Input AND Gate with Open-Drain Output
74AUP1G09FW4-7
DFN1010
Single 2-Input AND Gate with Open-Drain Output
74AUP1G09GX,132
74AUP1G09FZ4-7
DFN1410
Single 2-Input AND Gate with Open-Drain Output
SN74AUP1G09DRYR
74AUP1G09GM,115
74AUP1G09SE-7
SOT353
Single 2-Input AND Gate with Open-Drain Output
SN74AUP1G09DCKR
74AUP1G09GW,125
SN74AUP1G14DSFR
74AUP1G14GF,132
74AUP1G14FS3-7
DFN0808
Single Schmitt Trigger Inverter
74AUP1G14FW4-7
DFN1010
Single Schmitt Trigger Inverter
74AUP1G14GX,132
74AUP1G14FZ4-7
DFN1410
Single Schmitt Trigger Inverter
SN74AUP1G14DRYR
74AUP1G14GM,115
74AUP1G14SE-7
SOT353
Single Schmitt Trigger Inverter
SN74AUP1G14DCKR
74AUP1G14GW,125
74AUP1G17FS3-7
DFN0808
Single Schmitt Trigger Buffer
74AUP1G17FW4-7
DFN1010
Single Schmitt Trigger Buffer
SN74AUP1G17DSFR
74AUP1G17GF,132
74AUP1G17GX,132
74AUP1G17FZ4-7
DFN1410
Single Schmitt Trigger Buffer
SN74AUP1G17DRYR
74AUP1G17GM,115
74AUP1G17SE-7
SOT353
Single Schmitt Trigger Buffer
SN74AUP1G17DCKR
74AUP1G17GW,125
Page 14
Fairchild
Diodes Logic Brochure (Final Artwork) 15/10/2013 10:13 Page 15
Diodes Device Package Description
a74AUP1G32FS3-7
a
DFN0808
Toshiba
TI
Single 2-Input OR Gate
NXP
74AUP1G32FW4-7
DFN1010
Single 2-Input OR Gate
SN74AUP1G32DSFR
74AUP1G32GF,132
74AUP1G32FZ4-7
DFN1410
Single 2-Input OR Gate
SN74AUP1G32DRYR
74AUP1G32GM,115
SN74AUP1G32DCKR
74AUP1G32GW,125
SN74AUP1G34DSFR
74AUP1G34GF,132
74AUP1G32SE-7
SOT353
Single 2-Input OR Gate
74AUP1G34FS3-7
DFN0808
Single Buffer
74AUP1G34FW4-7
DFN1010
Single Buffer
74AUP1G34FZ4-7
DFN1410
Single Buffer
SN74AUP1G34DRYR
74AUP1G34GM,115
SOT353
Single Buffer
SN74AUP1G34DCKR
74AUP1G34GW,125
SN74AUP1G86DSFR
74AUP1G86GF,132
74AUP1G86FS3-7
DFN0808
Single 2-Input EXCULSIVE OR Gate
DFN1010
Single 2-Input EXCULSIVE OR Gate
74AUP1G86GX,132
74AUP1G86FZ4-7
DFN1410
Single 2-Input EXCULSIVE OR Gate
SN74AUP1G86DRYR
74AUP1G86GM,115
74AUP1G86SE-7
SOT353
Single 2-Input EXCULSIVE OR Gate
SN74AUP1G86DCKR
74AUP1G86GW,125
SN74AUP1G125DSFR
74AUP1G125GF,132
a74AUP1G125FS3-7
74AUP1G125FW4-7
DFN0808
Single Buffer with 3-State Output OE LOW
DFN1010
Single Buffer with 3-State Output OE LOW
74AUP1G125GX,132
a74AUP1G125FZ4-7
DFN1410
Single Buffer with 3-State Output OE LOW
SN74AUP1G125DRYR
74AUP1G125GM,115
74AUP1G125SE-7
SOT353
Single Buffer with 3-State Output OE LOW
SN74AUP1G125DCKR
74AUP1G125GW,125
SN74AUP1G126DSFR
74AUP1G126GF,132
a74AUP1G126FS3-7
74AUP1G126FW4-7
DFN0808
Single Buffer with 3-State Output OE HIGH
DFN1010
Single Buffer with 3-State Output OE HIGH
74AUP1G126GX,132
a74AUP1G126FZ4-7
DFN1410
Single Buffer with 3-State Output OE HIGH
SN74AUP1G126DRYR
74AUP1G126GM,115
74AUP1G126SE-7
SOT353
Single Buffer with 3-State Output OE HIGH
SN74AUP1G126DCKR
74AUP1G126GW,125
a74AUP2G00RA3-7
DFN1210
Dual 2-Input NAND Gates
74AUP2G00GN,132
74AUP2G00RB5-7
DFN2030
Dual 2-Input NAND Gates
74AUP2G00GD,125
74AUP2G02GN,132
a74AUP2G02RA3-7
DFN1210
Dual 2-Input NOR Gates
74AUP2G02RB5-7
DFN2030
Dual 2-Input NOR Gates
74AUP2G02GD,125
SOT363
Dual Inverters
74AUP2G04GW,125
74AUP2G04GN,132
a74AUP2G04DW-7
74AUP2G04FW3-7
DFN0910
Dual Inverters
74AUP2G06DW-7
SOT363
Dual Inverters with Open-Drain Outputs
74AUP2G06GW,125
74AUP2G06FW3-7
DFN0910
Dual Inverters with Open-Drain Outputs
74AUP2G06GN,132
74AUP2G07GW,125
a
a74AUP2G07DW-7
SOT363
Dual Buffers with Open-Drain Outputs
74AUP2G07FW3-7
DFN0910
Dual Buffers with Open-Drain Outputs
74AUP2G07GN,132
a74AUP2G08RA3-7
a74AUP2G08RB5-7
a74AUP2G14DW-7
a74AUP2G14FW3-7
a74AUP2G17DW-7
DFN1210
Dual 2-Input AND Gates
74AUP2G08GN,132
74AUP2G08GD,125
74AUP2G17FW3-7
a
74AUP2G32RA3-7
74AUP2G32RB5-7
a74AUP2G34DW-7
74AUP2G34FW3-7
a74AUP2G86RA3-7
Fairchild
74AUP1G34GX,132
74AUP1G34SE-7
74AUP1G86FW4-7
ON
74AUP1G32GX,132
DFN2030
Dual 2-Input AND Gates
SOT363
Dual Schmitt Trigger Inverters
74AUP2G14GW,125
DFN0910
Dual Schmitt Trigger Inverters
74AUP2G14GN,132
74AUP2G17GW,125
SOT363
Dual Schmitt Trigger Buffers
DFN0910
Dual Schmitt Trigger Buffers
74AUP2G17GN,132
DFN1210
Dual 2-Input OR Gates
74AUP2G32GN,132
74AUP2G32GD,125
DFN2030
Dual 2-Input OR Gates
SOT363
Dual Buffers
74AUP2G34GW,125
DFN0910
Dual Buffers
74AUP2G34GN,132
74AUP2G86GN,132
DFN1210
Dual 2-Input EXCULSIVE OR Gates
74AUP2G125RA3-7
DFN1210
Dual Buffers with 3-State Outputs OE LOW
74AUP2G125GN,132
a74AUP2G125RB5-7
DFN2030
Dual Buffers with 3-State Outputs OE LOW
74AUP2G125GD,125
74AUP2G126GN,132
74AUP2G126RA3-7
DFN1210
Dual Buffers with 3-State Outputs OE HIGH
a74AUP2G126RA3-7
a74AUP2G126RB5-7
a74AUP2G3404FW3-7
DFN1210
Dual Buffers with 3-State Outputs OE HIGH
74AUP2G126GN,132
DFN2030
Dual Buffers with 3-State Outputs OE HIGH
74AUP2G126GD,125
DFN0910
Dual - One Buffer & One Inverter
74HC00S14-13
SO-14
Quadruple 2-Input NAND Gates
SN74HC00DR
74HC00D,118
74AUP2G3404GN,132
MC74HC00DR2
MM74HC00M
74HC00T14-13
TSSOP-14
Quadruple 2-Input NAND Gates
SN74HC00PWR
74HC00PW,118
MC74HC00DTR2
MM74HC00MTC
74HC04S14-13
SO-14
Hex Inverters
SN74HC04DR
74HC04D,118
MC74HC04DR2
MM74HC04M
74HC04T14-13
TSSOP-14
Hex Inverters
SN74HC04PWR
74HC04PW,118
MC74HC04DTR2
MM74HC04MTC
74HC05S14-13
SO-14
Hex Inverters with Open-Drain Outputs
SN74HC05DR
74HC05D,118
MC74HC05DR2
MM74HC05M
74HC05T14-13
TSSOP-14
Hex Inverters with Open-Drain Outputs
SN74HC05PWR
74HC05PW,118
MC74HC05DTR2
MM74HC05MTC
74HC08S14-13
SO-14
Quadruple 2-Input AND Gates
SN74HC08DR
74HC08D,118
MC74HC08DR2
MM74HC08M
74HC08T14-13
TSSOP-14
Quadruple 2-Input AND Gates
SN74HC08PWR
74HC08PW,118
MC74HC08DTR2
MM74HC08MTC
74HC14S14-13
SO-14
Hex Schmitt Trigger Inverters
SN74HC14DR
74HC14D,118
MC74HC14DR2
MM74HC14M
74HC14T14-13
TSSOP-14
Hex Schmitt Trigger Inverters
SN74HC14PWR
74HC14PW,118
MC74HC14DTR2
MM74HC14MTC
74HC32S14-13
SO-14
Quadruple 2-Input OR Gates
SN74HC32DR
74HC32D,118
MC74HC32DR2
MM74HC32M
74HC32T14-13
TSSOP-14
Quadruple 2-Input OR Gates
SN74HC32PWR
74HC32PW,118
MC74HC32DTR2
MM74HC32MTC
74HC86S14-13
SO-14
Quadruple 2-Input EXCULSIVE OR Gates
SN74HC86DR
74HC86D,118
MC74HC86DR2
MM74HC86M
74HC86T14-13
TSSOP-14
Quadruple 2-Input EXCULSIVE OR Gates
SN74HC86PWR
74HC86PW,118
MC74HC86DTR2
MM74HC86MTC
74HC125S14-13
SO-14
Quadruple Buffers with 3 State Outputs OE LOW
SN74HC125DR
74HC125D,118
MC74HC125DR2
MM74HC125M
Page 15
Diodes Logic Brochure (Final Artwork) 15/10/2013 10:14 Page 16
Logic Products Cross Reference (continued)
Diodes Device Package Description
a74HC125T14-13
74HC126S14-13
a
TI
NXP
TSSOP-14
Quadruple Buffers with 3-State Outputs OE LOW
SN74HC125PWR
74HC125PW,118
MC74HC125DTR2
MM74HC125MTC
SO-14
Quadruple Buffers with 3-State Outputs OE HIGH
SN74HC126DR
74HC126D,118
MC74HC126DR2
MM74HC126M
74HC126T14-13
TSSOP-14
Quadruple Buffers with 3-State Outputs OE HIGH
74HC138S16-13
SO-16
3-to-8 Line Decoder Demultiplexer
Toshiba
TC74HC138AFN
SN74HC126PWR
74HC126PW,118
MC74HC126DTR2
MM74HC126MTC
74HC138D
MC74HC138ADR2G
MM74HC138MX
MC74HC138ADTR2G
MM74HCT38MTCX
74HC138T16-13
TSSOP-16
3-to-8 Line Decoder Demultiplexer
SN74HC138PWR
74HC138PW
SO-16
8-Bit Shift Register 8-Bit Output Register
SN74HC594DR
74HC594D
74HC594T16-13
TSSOP-16
8-Bit Shift Register 8-Bit Output Register
SO-16
8-Bit Shift Register 8-Bit Output Register
74HC595T16-13
TSSOP-16
8-Bit Shift Register 8-Bit Output Register
TC74HC595AFN
Fairchild
SN74HC138DR
74HC594S16-13
74HC595S16-13
ON
SN74HC594PWR
74HC594PW
SN74HC595DR
74HC595D
MC74HC595ADR2G
MM74HC595MX
SN74HC595PWR
74HC595PW
MC74HC595ADTR2G
MM74HC595MTCX
74HCU04S14-13
SO-14
Hex Unbuffered Inverters
SN74HCU04DR
74HCU04D,118
MC74HCU04DR2
MM74HCU04M
74HCU04T14-13
TSSOP-14
Hex Unbuffered Inverters
SN74HCU04PWR
74HCU04PW,118
MC74HCU04DTR2
MM74HCU04MTC
74HCT00S14-13
a74HCT00T14-13
74HCT04S14-13
a74HCT04T14-13
74HCT08S14-13
a
74HCT08T14-13
74HCT14S14-13
a74HCT14T14-13
74HCT32S14-13
a74HCT32T14-13
74HCT86S14-13
a74HCT86T14-13
74HCT125S14-13
a74HCT125T14-13
74HCT126S14-13
a
74HCT126T14-13
74HCT138S16-13
a74HCT138T16-13
74HCT594S16-13
a74HCT594T16-13
a74HCT595S16-13
a74HCT595T16-13
a74LV00AS14-13
a74LV00AT14-13
74LV04AS14-13
a
74LV04AT14-13
74LV06AS14-13
a74LV06AT14-13
74LV07AS14-13
a74LV07AT14-13
74LV08AS14-13
a74LV08AT14-13
74LV14AS14-13
a74LV14AT14-13
a74LV32AS14-13
a74LV32AT14-13
SO-14
Quadruple 2-Input NAND Gates, TTL Inputs
SN74HCT00DR
74HCT00D,118
MC74HCT00DR2
MM74HCT00M
TSSOP-14
Quadruple 2-Input NAND Gates, TTL Inputs
SN74HCT00PWR
74HCT00PW,118
MC74HCT00DTR2
MM74HCT00MTC
SO-14
Hex Inverters, TTL Inputs
SN74HCT04DR
74HCT04D,118
MC74HCT04DR2
MM74HCT04M
TSSOP-14
Hex Inverters, TTL Inputs
SN74HCT04PWR
74HCT04PW,118
MC74HCT04DTR2
MM74HCT04MTC
SO-14
Quadruple 2-Input AND Gates, TTL Inputs
SN74HCT08DR
74HCT08D,118
MC74HCT08DR2
MM74HCT08M
TSSOP-14
Quadruple 2-Input AND Gates, TTL Inputs
SN74HCT08PWR
74HCT08PW,118
MC74HCT08DTR2
MM74HCT08MTC
SO-14
Hex Schmitt Trigger Inverters, TTL Inputs
SN74HCT14DR
74HCT14D,118
MC74HCT14DR2
MM74HCT14M
TSSOP-14
Hex Schmitt Trigger Inverters, TTL Inputs
SN74HCT14PWR
74HCT14PW,118
MC74HCT14DTR2
MM74HCT14MTC
SO-14
Quadruple 2-Input OR Gates, TTL Inputs
SN74HCT32DR
74HCT32D,118
MC74HCT32DR2
MM74HCT32M
TSSOP-14
Quadruple 2-Input OR Gates, TTL Inputs
SN74HCT32PWR
74HCT32PW,118
MC74HCT32DTR2
MM74HCT32MTC
SO-14
Quadruple 2-Input EXCULSIVE OR Gates, TTL Inputs
SN74HCT86DR
74HCT86D,118
MC74HCT86DR2
MM74HCT86M
TSSOP-14
Quadruple 2-Input EXCULSIVE OR Gates, TTL Inputs
SN74HCT86PWR
74HCT86PW,118
MC74HCT86DTR2
MM74HCT86MTC
SO-14
Quadruple Buffers with 3-State Outputs OE LOW, TTL Inputs
SN74HCT125DR
74HCT125D,118
MC74HCT125DR2
MM74HCT125M
TSSOP-14
Quadruple Buffers with 3-State Outputs OE LOW, TTL Inputs
SN74HCT125PWR
74HCT125PW,118
MC74HCT125DTR2
MM74HCT125MTC
SO-14
Quadruple Buffers with 3-State Outputs OE HIGH, TTL Inputs
SN74HCT126DR
74HCT126D,118
MC74HCT126DR2
MM74HCT126M
TSSOP-14
Quadruple Buffers with 3-State Outputs OE HIGH, TTL Inputs
SN74HCT126PWR
74HCT126PW,118
MC74HCT126DTR2
MM74HCT126MTC
SO-16
3-to-8 Line Decoder Demultiplexer, TTL Inputs
TSSOP-16
3-to-8 Line Decoder Demultiplexer, TTL Inputs
TC74HCT138AFN
SN74HCT138DR
74HCT138D
MC74HCT138ADR2G
MM74HCT138MX
SN74HCT138PWR
74HCT138PW
MC74HCT138ADTR2G
MM74HCT138MTCX
SO-16
8-Bit Shift Register 8-Bit Output Register, TTL Inputs
74HCT594D
TSSOP-16
8-Bit Shift Register 8-Bit Output Register, TTL Inputs
74HCT594PW
SO-16
8-Bit Shift Register 8-Bit Output Register, TTL Inputs
74HCT595D
MC74HCT595ADR2G
TSSOP-16
8-Bit Shift Register 8-Bit Output Register, TTL Inputs
74HCT595PW
MC74HCT595ADTR2G
SO-14
Quadruple 2-Input NAND Gate
SN74LV00ADR
74LV00D,118
TSSOP-14
Quadruple 2-Input NAND Gate
SN74LV00APWR
74LV00PW,118
SO-14
Hex Inverters
SN74LV04ADR
74LV04D,118
TSSOP-14
Hex Inverters
SN74LV04APWR
74LV04PW,118
SO-14
Hex Inverters with Open-Drain Outputs
SN74LV06ADR
TSSOP-14
Hex Inverters with Open-Drain Outputs
SN74LV06APWR
SO-14
Hex Buffers with Open-Drain Outputs
SN74LV07ADR
TSSOP-14
Hex Buffers with Open-Drain Outputs
SN74LV07APWR
SO-14
Quadruple 2-Input AND Gate
SN74LV08ADR
74LV08D,118
TSSOP-14
Quadruple 2-Input AND Gate
SN74LV08APWR
74LV08PW,118
SO-14
Hex Schmidt Trigger Inverters
SN74LV14ADR
74LV14D,118
TSSOP-14
Hex Schmidt Trigger Inverters
SN74LV14APWR
74LV14PW,118
SO-14
Quadruple 2-Input OR Gates
SN74LV32ADR
74LV32D,118
TSSOP-14
Quadruple 2-Input OR Gates
SN74LV32APWR
74LV32PW,118
74LV86AS14-13
SO-14
Quadruple 2-Input EXCULSIVE OR Gates
SN74LV86ADR
74LV86D,118
74LV86AT14-13
TSSOP-14
Quadruple 2-Input EXCULSIVE OR Gates
SN74LV86APWR
74LV86PW,118
74LV125AS14-13
SO-14
Quadruple Buffers with 3-State Outputs OE LOW
SN74LV125ADR
74LV125D,118
74LV125AT14-13
TSSOP-14
Quadruple Buffers with 3-State Outputs OE LOW
SN74LV125APWR
74LV125PW,118
74LV126AS14-13
SO-14
Quadruple Buffers with 3-State Outputs OE HIGH
SN74LV126ADR
74LV126D,118
74LV126AT14-13
TSSOP-14
Quadruple Buffers with 3-State Outputs OE HIGH
SN74LV126APWR
74LV126PW,118
74LV240AQ20-13
QFN-20
Octal Buffers/Line Drivers with 3-State Outputs
74LV241AQ20-13
QFN-20
Octal Buffers/Line Drivers with 3-State Outputs
74LV244AQ20-13
QFN-20
Octal Buffers/Line Drivers with 3-State Outputs
74LV245AQ20-13
QFN-20
Octal Bus Transceivers with 3-State Outputs
74LV273AQ20-13
QFN-20
Octal D-Type Flip-Flops with Clear
74LV373AQ20-13
QFN-20
Octal Transparent D-Type Latches with 3-State Outputs
74LV374AQ20-13
QFN-20
Octal D-Type Flip-Flops with 3-State Outputs
74LV540AQ20-13
QFN-20
Octal Buffers/Line Drivers with 3-State Outputs
74LV541AQ20-13
QFN-20
Octal Buffers/Line Drivers with 3-State Outputs
Page 16
Diodes Logic Brochure (Final Artwork) 15/10/2013 10:14 Page 17
Diodes Device Package Description
Toshiba
TI
NXP
ON
Fairchild
a74LV573AQ20-13
QFN-20
Octal Transparent D-Type Latches with 3-State Outputs
74LV574AQ20-13
QFN-20
Octal D-Type Flip-Flops with 3-State Outputs
74LVC1G00FS3-7
DFN0808
Single 2-Input NAND Gate
74LVC1G00FS3-7
DFN0808
Single 2-Input NAND Gate
74LVC1G00FW4-7
DFN1010
Single 2-Input NAND Gate
SN74LVC1G00DSFR
74LVC1G00GF,132
NC7SZ00FHX
74LVC1G00FZ4-7
DFN1410
Single 2-Input NAND Gate
SN74LVC1G00DRYR
74LVC1G00GM,115
NC7SZ00L6X
74LVC1G00SE-7
SOT353
Single 2-Input NAND Gate
TC7SZ00FU
SN74LVC1G00DCKR
74LVC1G00GW,125
74LVC1G00W5-7
SOT25
Single 2-Input NAND Gate
TC7SZ00F
SN74LVC1G00DBVR
74LVC1G00GV,125
74LVC1G00Z-7
SOT553
Single 2-Input NAND Gate
TC7SZ00FE
SN74LVC1G00DRLR
74LVC1G00GX,132
74LVC1G00GX,132
NC7SZ00P5X
NC7SZ00M5X
NL17SZ00XV5
74LVC1G02FW4-7
DFN1010
Single 2-Input NOR Gate
SN74LVC1G02DSFR
74LVC1G02GF,132
NC7SZ02FHX
74LVC1G02FZ4-7
DFN1410
Single 2-Input NOR Gate
SN74LVC1G02DRYR
74LVC1G02GM,115
NC7SZ02L6X
74LVC1G02SE-7
SOT353
Single 2-Input NOR Gate
TC7SZ02FU
SN74LVC1G02DCKR
74LVC1G02GW,125
a74LVC1G02W5-7
SOT25
Single 2-Input NOR Gate
TC7SZ02F
SN74LVC1G02DBVR
74LVC1G02GV,125
74LVC1G02Z-7
SOT553
Single 2-Input NOR Gate
a
NL17SZ00DF
a74LVC1G04FS3-7
SN74LVC1G02DRLR
NL17SZ02DF
NC7SZ02P5X
NC7SZ02M5X
NL17SZ02XV5
DFN0808
Single Inverter
DFN1010
Single Inverter
SN74LVC1G04DSFR
74LVC1G04GF,132
NC7SZ04FHX
74LVC1G04FZ4-7
DFN1410
Single Inverter
SN74LVC1G04DRYR
74LVC1G04GM,115
NC7SZ04L6X
74LVC1G04FW4-7
a
74LVC1G04GX,132
74LVC1G04SE-7
SOT353
Single Inverter
TC7SZ04FU
SN74LVC1G04DCKR
74LVC1G04GW,125
a74LVC1G04W5-7
SOT25
Single Inverter
TC7SZ04F
SN74LVC1G04DBVR
74LVC1G04GV,125
74LVC1G04Z-7
SOT553
Single Inverter
a74LVC1G06FS3-7
SN74LVC1G04DRLR
NL17SZ04DF
NC7SZ04P5X
NC7SZ04M5X
NL17SZ04XV5
DFN0808
Single Inverter with Open-Drain Output
74LVC1G06FW4-7
DFN1010
Single Inverter with Open-Drain Output
SN74LVC1G06DSFR
74LVC1G06GF,132
74LVC1G06GX,132
NC7SZ05FHX
a74LVC1G06FZ4-7
DFN1410
Single Inverter with Open-Drain Output
SN74LVC1G06DRYR
74LVC1G06GM,115
NC7SZ05L6X
74LVC1G06SE-7
SOT353
Single Inverter with Open-Drain Output
TC7SZ05FU
SN74LVC1G06DCKR
74LVC1G06GW,125
a74LVC1G06W5-7
SOT25
Single Inverter with Open-Drain Output
TC7SZ05F
SN74LVC1G06DBVR
74LVC1G06GV,125
74LVC1G06Z-7
SOT553
Single Inverter with Open-Drain Output
TC7SZ05FE
SN74LVC1G06DRLR
a74LVC1G07FS3-7
74LVC1G07FW4-7
DFN0808
Single Buffer with Open-Drain Output
DFN1010
Single Buffer with Open-Drain Output
74LVC1G07GF,132
DFN1410
Single Buffer with Open-Drain Output
SN74LVC1G07DRYR
74LVC1G07GM,115
SOT353
Single Buffer with Open-Drain Output
TC7SZ07FU
SN74LVC1G07DCKR
74LVC1G07GW,125
a74LVC1G07W5-7
a74LVC1G07Z-7
a74LVC1G08FS3-7
a74LVC1G08FW4-7
a74LVC1G08FZ4-7
SOT25
Single Buffer with Open-Drain Output
TC7SZ07F
SN74LVC1G07DBVR
74LVC1G07GV,125
74LVC1G08SE-7
Single Buffer with Open-Drain Output
Single 2-Input AND Gate
SN74LVC1G07DRLR
NL17SZ07XV5
DFN1010
Single 2-Input AND Gate
SN74LVC1G08DSFR
74LVC1G08GF,132
NC7SZ08FHX
DFN1410
Single 2-Input AND Gate
SN74LVC1G08DRYR
74LVC1G08GM,115
NC7SZ08L6X
SOT353
Single 2-Input AND Gate
TC7SZ08FU
SN74LVC1G08DCKR
74LVC1G08GW,125
SOT25
Single 2-Input AND Gate
TC7SZ08F
SN74LVC1G08DBVR
74LVC1G08GV,125
74LVC1G08Z-7
SOT553
Single 2-Input AND Gate
TC7SZ08FE
SN74LVC1G08DRLR
a74LVC1G10DW-7
SOT363
Single 3-Input NAND Gate
DFN1010
Single 3-Input NAND Gate
a74LVC1G10FZ4-7
DFN1410
Single 3-Input NAND Gate
SOT26
Single 3-Input NAND Gate
SN74LVC1G10DBVR
74LVC1G10GV,125
SN74LVC1G11DCKR
74LVC1G11GW,125
a74LVC1G11DW-7
SOT363
Single 3-Input AND Gate
74LVC1G11FW4-7
DFN1010
Single 3-Input AND Gate
a74LVC1G11FZ4-7
a74LVC1G11W6-7
a74LVC1G14FS3-7
DFN1410
Single 3-Input AND Gate
SOT26
Single 3-Input AND Gate
SN74LVC1G10DCKR
NL17SZ08DF
NC7SZ08P5X
NC7SZ08M5X
NL17SZ08XV5
74LVC1G10FW4-7
74LVC1G10W6-7
NL17SZ07DF
74LVC1G08GX,132
74LVC1G08W5-7
a
NC7SZ05M5X
74LVC1G07GX,132
SN74LVC1G07DSFR
74LVC1G07SE-7
SOT553
NC7SZ05P5X
NL17SZ06XV5
a74LVC1G07FZ4-7
DFN0808
NL17SZ06DF
74LVC1G10GW,125
NC7SZ10P6X
74LVC1G10GF,132
74LVC1G10GM,115
NC7SZ10L6X
NC7SZ11P6X
74LVC1G11GF,132
74LVC1G11GM,115
SN74LVC1G11DBVR
74LVC1G11GV,125
NC7SZ11L6
DFN0808
Single Schmitt Trigger Inverter
74LVC1G14FW4-7
DFN1010
Single Schmitt Trigger Inverter
SN74LVC1G14DSFR
74LVC1G14GF,132
74LVC1G14GX,132
NC7SZ14FHX
74LVC1G14FZ4-7
DFN1410
Single Schmitt Trigger Inverter
SN74LVC1G14DRYR
74LVC1G14GM,115
NC7SZ14L6X
74LVC1G14SE-7
SOT353
Single Schmitt Trigger Inverter
TC7SZ14FU
SN74LVC1G14DCKR
74LVC1G14GW,125
74LVC1G14W5-7
SOT25
Single Schmitt Trigger Inverter
TC7SZ14F
SN74LVC1G14DBVR
74LVC1G14GV,125
74LVC1G17FS3-7
DFN0808
Single Schmitt Trigger Buffer
74LVC1G17FW4-7
DFN1010
Single Schmitt Trigger Buffer
SN74LVC1G17DSFR
74LVC1G17GF,132
NL17SZ14DF
NC7SZ14P5X
NC7SZ14M5X
74LVC1G17GX,132
74LVC1G17FZ4-7
DFN1410
Single Schmitt Trigger Buffer
SN74LVC1G17DRYR
74LVC1G17GM,115
74LVC1G17SE-7
SOT353
Single Schmitt Trigger Buffer
TC7SZ17FU
SN74LVC1G17DCKR
74LVC1G17GW,125
74LVC1G17W5-7
SOT25
Single Schmitt Trigger Buffer
TC7SZ17F
SN74LVC1G17DBVR
74LVC1G17GV,125
NL17SZ17DF
74LVC1G32FS3-7
DFN0808
Single 2-Input OR Gate
74LVC1G32FW4-7
DFN1010
Single 2-Input OR Gate
SN74LVC1G32DSFR
74LVC1G32GF,132
74LVC1G32GX,132
NC7SZ32FHX
74LVC1G32FZ4-7
DFN1410
Single 2-Input OR Gate
SN74LVC1G32DRYR
74LVC1G32GM,115
NC7SZ32L6X
74LVC1G32SE-7
SOT353
Single 2-Input OR Gate
TC7SZ32FU
SN74LVC1G32DCKR
74LVC1G32GW,125
74LVC1G32W5-7
SOT25
Single 2-Input OR Gate
TC7SZ32F
SN74LVC1G32DBVR
74LVC1G32GV,125
74LVC1G32Z-7
SOT553
Single 2-Input OR Gate
TC7SZ32FE
SN74LVC1G32DRLR
NL17SZ32DF
NC7SZ32P5X
NC7SZ32M5X
NL17SZ32XV5
Page 17
Diodes Logic Brochure (Final Artwork) 15/10/2013 10:14 Page 18
Logic Products Cross Reference (continued)
Diodes Device Package Description
a74LVC1G34FS3-7
a
DFN0808
Toshiba
TI
Single Buffer
NXP
ON
Fairchild
74LVC1G34GX,132
74LVC1G57DW-7
SOT363
Single Configurable Multi-Function Gate
SN74LVC1G57DCKR
74LVC1G57GW,125
NC7SZ57P6X
74LVC1G57FW4-7
DFN1010
Single Configurable Multi-Function Gate
SN74LVC1G57DSFR
74LVC1G57GF,132
NC7SZ57FHX
NC7SZ57L6X
74LVC1G57FZ4-7
DFN1410
Single Configurable Multi-Function Gate
SN74LVC1G57DRYR
74LVC1G57GM,115
74LVC1G57W6-7
SOT26
Single Configurable Multi-Function Gate
SN74LVC1G57DBVR
74LVC1G57GV,125
74LVC1G58DW-7
SOT363
Single Configurable Multi-Function Gate
SN74LVC1G58DCKR
74LVC1G58GW,125
NC7SZ58P6X
74LVC1G58FW4-7
DFN1010
Single Configurable Multi-Function Gate
SN74LVC1G58DSFR
74LVC1G58GF,132
NC7SZ58FHX
NC7SZ57L6X
74LVC1G58FZ4-7
DFN1410
Single Configurable Multi-Function Gate
SN74LVC158DRYR
74LVC1G58GM,115
74LVC1G58W6-7
SOT26
Single Configurable Multi-Function Gate
SN74LVC1G58DBVR
74LVC1G58GV,125
74LVC1G86FS3-7
DFN0808
Single 2-Input EXCULSIVE OR Gate
74LVC1G86GX,132
74LVC1G86FW4-7
DFN1010
Single 2-Input EXCULSIVE OR Gate
74LVC1G86GF,132
74LVC1G86FZ4-7
DFN1410
Single 2-Input EXCULSIVE OR Gate
74LVC1G86GM,115
SOT353
Single 2-Input EXCULSIVE OR Gate
a74LVC1G86SE-7
74LVC1G86W5-7
a74LVC1G86Z-7
74LVC1G97DW-7
a
74LVC1G97FW4-7
74LVC1G97FZ4-7
a74LVC1G97W6-7
TC7SZ86FU
SN74LVC1G86DCKR
74LVC1G86GW,125
74LVC1G86GV,125
SOT25
Single 2-Input EXCULSIVE OR Gate
TC7SZ86F
SN74LVC1G86DBVR
SOT553
Single 2-Input EXCULSIVE OR Gate
TC7SZ86FE
SN74LVC1G86DRLR
SOT363
Single Configurable Multi-Function Gate
SN74LVC1G97DCKR
74LVC1G97GW,125
DFN1010
Single Configurable Multi-Function Gate
SN74LVC1G97DSFR
74LVC1G97GF,132
DFN1410
Single Configurable Multi-Function Gate
SN74LVC197DRYR
74LVC1G97GM,115
SOT26
Single Configurable Multi-Function Gate
SN74LVC1G97DBVR
74LVC1G97GV,125”
74LVC1G98DW-7
SOT363
Single Configurable Multi-Function Gate
SN74LVC1G98DCKR
74LVC1G98GW,125
DFN1010
Single Configurable Multi-Function Gate
SN74LVC1G98DSFR
74LVC1G98GF,132
74LVC1G98FZ4-7
DFN1410
Single Configurable Multi-Function Gate
SN74LVC1G98DRYR
74LVC1G98GM,115
SOT26
Single Configurable Multi-Function Gate
SN74LVC1G98DBVR
74LVC1G98GV,125
74LVC1G125FS3-7
DFN0808
Single Buffer with 3-State Output OE LOW
74LVC1G125GX,132
a74LVC1G125FW4-7
DFN1010
Single Buffer with 3-State Output OE LOW
74LVC1G125GF,132
74LVC1G125FZ4-7
a
74LVC1G125SE-7
74LVC1G125W5-7
a74LVC1G125Z-7
DFN1410
Single Buffer with 3-State Output OE LOW
SOT353
Single Buffer with 3-State Output OE LOW
TC7SZ125FU
SN74LVC1G125DRYR
74LVC1G125GM,115
SN74LVC1G125DCKR
74LVC1G125GW,125
74LVC1G125GV,125
SOT25
Single Buffer with 3-State Output OE LOW
TC7SZ125F
SN74LVC1G125DBVR
SOT553
Single Buffer with 3-State Output OE LOW
TC7SZ125FE
SN74LVC1G125DRLR
74LVC1G126FS3-7
DFN0808
Single Buffer with 3-State Output OE HIGH
74LVC1G126GX,132
DFN1010
Single Buffer with 3-State Output OE HIGH
74LVC1G126GF,132
74LVC1T45FW4-7
a
74LVC1T45FZ4-7
74LVC1T45FX4-7
a74LVC1T45W6-7
74LVC1T45DW-7
a74LVC1T45Z6-7
DFN1410
Single Buffer with 3-State Output OE HIGH
Single Buffer with 3-State Output OE HIGH
TC7SZ126FU
SN74LVC1G126DRYR
74LVC1G126GM,115
SN74LVC1G126DCKR
74LVC1G126GW,125
74LVC1G126GV,125
SOT25
Single Buffer with 3-State Output OE HIGH
TC7SZ126F
SN74LVC1G126DBVR
SOT553
Single Buffer with 3-State Output OE HIGH
TC7SZ126FE
SN74LVC1G126DRLR
DFN1010
Single Translator Dual Voltage
74LVC1T45GF,132
DFN1410
Single Translator Dual Voltage
74LVC1T45GM,115
DFN1409
Single Translator Dual Voltage
74LVC1T45YZPR
SOT26
Single Translator Dual Voltage
SN74LVC1T45DCKR
SOT363
Single Translator Dual Voltage
SN74LVC1T45DVBR
SOT563
Single Translator Dual Voltage
SN74LVC1T45DRLR
SN74LVC2G04DCKR
NC7SZ86M5X
NC7SZ125L6X
NL17SZ125DF
NC7SZ125P5X
NL17SZ125DT
NC7SZ125M5X
NC7SZ126L6X
NL17SZ126DF
NC7SZ126P5X
NC7SZ126M5X
NL17SZ126XV5
74LVC2G04DW-7
SOT363
Dual Inverters
a74LVC2G04FW4-7
DFN1010
Dual Inverters
74LVC2G04GF,132
74LVC2G04FZ4-7
DFN1410
Dual Inverters
74LVC2G04GM,115
SOT26
Dual Inverters
SN74LVC2G04DBVR
SOT363
Dual Inverters with Open-Drain Outputs
SN74LVC2G06DCKR
DFN1010
Dual Inverters with Open-Drain Outputs
a74LVC2G04W6-7
a74LVC2G06DW-7
a74LVC2G06FW4
NC7SZ86P5X
NL17SZ125XV5
a74LVC1G126FW4-7
a74LVC1G126FZ4-7
a74LVC1G126SE-7
a74LVC1G126W5-7
a74LVC1G126Z-7
SOT353
NC7SZ86L6X
NL17SZ86DF
NL17SZ86XV5
a74LVC1G98FW4-7
a74LVC1G98W6-7
NC7SZ86FHX
74LVC2G04GW,125
NL27WZ04DF
NC7WZ04P6X
NC7WZ04FHX
NC7WZ04L6X
74LVC2G04GV,125
NL27WZ04DT
74LVC2G06GW,125
NL27WZ06DF
74LVC2G06GF,132
74LVC2G06FZ4-7
DFN1410
Dual Inverters with Open-Drain Outputs
74LVC2G06W6-7
SOT26
Dual Inverters with Open-Drain Outputs
SN74LVC2G06DBVR
74LVC2G06GM,115
74LVC2G06GV,125
NL27WZ06DT
74LVC2G07DW-7
SOT363
Dual Buffers with Open-Drain Outputs
SN74LVC2G07DCKR
74LVC2G07GW,125
NL27WZ07DF
74LVC2G07FW4
DFN1010
Dual Buffers with Open-Drain Outputs
74LVC2G07GF,132
74LVC2G07FZ4-7
DFN1410
Dual Buffers with Open-Drain Outputs
74LVC2G07GM,115
74LVC2G07W6-7
SOT26
Dual Buffers with Open-Drain Outputs
SN74LVC2G07DBVR
SN74LVC2G14DCKR
NC7WZ07FHX
NC7WZ07L6X
74LVC2G07GV,125
NL27WZ07DT
74LVC2G14GW,125
NL27WZ14DF
74LVC2G14DW-7
SOT363
Dual Schmitt Trigger Inverters
74LVC2G14FW4-7
DFN1010
Dual Schmitt Trigger Inverters
74LVC2G14GF,132
74LVC2G14FZ4-7
DFN1410
Dual Schmitt Trigger Inverters
74LVC2G14GM,115
74LVC2G14W6-7
SOT26
Dual Schmitt Trigger Inverters
SN74LVC2G14DBVR
SN74LVC2G17DCKR
NC7W07P6X
NC7WZ14P6X
NC7WZ14FHX
NC7WZ14L6X
74LVC2G14GV,125
NL27WZ14DT
74LVC2G17GW,125
NL27WZ17DF
74LVC2G17DW-7
SOT363
Dual Schmitt Trigger Buffers
74LVC2G17FW4
DFN1010
Dual Schmitt Trigger Buffers
74LVC2G17GF,132
NC7WZ17FHX
74LVC2G17FZ4-7
DFN1410
Dual Schmitt Trigger Buffers
74LVC2G17GM,115
NC7WZ17L6X
74LVC2G17W6-7
SOT26
Dual Schmitt Trigger Buffers
SN74LVC2G17DBVR
74LVC2G17GV,125”
74LVC2G34DW-7
SOT363
Dual Buffers
SN74LVC2G34DCKR
74LVC2G34GW,125
Page 18
NL27WZ16DF
Diodes Logic Brochure (Final Artwork) 15/10/2013 10:14 Page 19
Diodes Device Package Description
Toshiba
TI
NXP
a74LVC2G34FW4-7
DFN1010
Dual Buffers
74LVC2G34GF,132
74LVC2G34FZ4-7
DFN1410
Dual Buffers
74LVC2G34GM,115
74LVC2G34W6-7
SOT26
Dual Buffer
a
SN74LVC2G34DBVR
74LVC2G34GV,125
ON
Fairchild
NC7WZ34FHX
NC7WZ34L6X
NL27WZ16DT
74LVC00AS14-13
SO-14
Quadruple 2-Input NAND Gates
TC74LCX00FN
SN74LVC00ADR
74LVC00AD,118
MC74LCX00DR2
74LCX00M
74LVC00AT14-13
TSSOP-14
Quadruple 2-Input NAND Gates
TC74LCX00FT
SN74LVC00APWR
74LVC00APW,118
MC74LCX00DTR2
74LCX00MTC
74LVC04AS14-13
SO-14
Hex Inverters
TC74LCX04FN
SN74LVC04ADR
74LVC04AD,118
MC74LCX04DR2
74LCX04M
74LVC04AT14-13
TSSOP-14
Hex Inverters
TC74LCX04FT
SN74LVC04APWR
74LVC04APW,118
MC74LCX04DTR2
74LCX04MTC
74LVC06AS14-13
SO-14
Hex Inverters with Open-Drain Outputs
TC74LCX05FN
SN74LVC06ADR
74LVC06AD,118
MC74LCX06DR2
74LCX06M
74LVC06AT14-13
TSSOP-14
Hex Inverters with Open-Drain Outputs
TC74LCX05FT
SN74LVC06APWR
74LVC06APW,118
MC74LCX06DTR2
74LCX06MTC
74LVC07AS14-13
SO-14
Hex Buffers with Open-Drain Outputs
TC74LCX07FN
SN74LVC07ADR
74LVC07AD,118
MC74LCX07DR2
74LCX07M
74LVC07AT14-13
TSSOP-14
Hex Buffers with Open-Drain Outputs
TC74LCX07FT
SN74LVC07APWR
74LVC07APW,118
MC74LCX07DTR2
74LCX07MTC
74LVC08AS14-13
a74LVC08AT14-13
74LVC14AS14-13
a74LVC14AT14-13
74LVC32AS14-13
a
74LVC32AT14-13
74LVC86AS14-13
a74LVC86AT14-13
74LVC125AS14-13
a74LVC125AT14-13
74LVC126AS14-13
a74LVC126AT14-13
SO-14
Quadruple 2-Input AND Gates
TC74LCX08FN
SN74LVC08ADR
74LVC08AD,118
MC74LCX08DR2
74LCX08M
TSSOP-14
Quadruple 2-Input AND Gates
TC74LCX08FT
SN74LVC08APWR
74LVC08APW,118
MC74LCX08DTR2
74LCX08MTC
SO-14
Hex Schmitt Trigger Inverters
TC74LCX14FN
SN74LVC14ADR
74LVC14AD,118
MC74LCX14DR2
74LCX14M
TSSOP-14
Hex Schmitt Trigger Inverters
TC74LCX14FT
SN74LVC14APWR
74LVC14APW,118
MC74LCX14DTR2
74LCX14MTC
SO-14
Quadruple 2-Input OR Gates
TC74LCX32FN
SN74LVC32ADR
74LVC32AD,118
MC74LCX32DR2
74LCX32M
TSSOP-14
Quadruple 2-Input OR Gates
TC74LCX32FT
SN74LVC32APWR
74LVC32APW,118
MC74LCX32DTR2
74LCX32MTC
SO-14
Quadruple 2-Input EXCULSIVE OR Gates
TC74LCX86FN
SN74LVC86ADR
74LVC86AD,118
MC74LCX86DR2
74LCX86M
TSSOP-14
Quadruple 2-Input EXCULSIVE OR Gates
TC74LCX86FT
SN74LVC86APWR
74LVC86APW,118
MC74LCX086DTR2
74LCX086MTC
SO-14
Quadruple Buffers with 3-State Outputs OE LOW
TC74LCX125FN
SN74LVC125ADR
74LVC125AD,118
MC74LCX125DR2
74LCX125M
TSSOP-14
Quadruple Buffers with 3-State Outputs OE LOW
TC74LCX125FT
SN74LVC125APWR
74LVC125APW,118
MC74LCX125DTR2
74LCX125MTC
SO-14
Quadruple Buffers with 3-State Outputs OE HIGH
TC74LCX126FN
SN74LVC126ADR
74LVC126AD,118
MC74LCX126DR2
74LCX126M
TSSOP-14
Quadruple Buffers with 3-State Outputs OE HIGH
TC74LCX126FT
SN74LVC126APWR
74LVC126APW,118
MC74LCX126DTR2
74LCX126MTC
74LVC240AQ20-13
QFN-20
Octal Buffers/Line Drivers with 3-State Outputs
a74LVC241AQ20-13
QFN-20
Octal Buffers/Line Drivers with 3-State Outputs
74LVC244AQ20-13
74LVC240ABQ
QFN-20
Octal Buffers/Line Drivers with 3-State Outputs
74LVC245AQ20-13
QFN-20
Octal Bus Transceivers with 3-State Outputs
74LVC245ABQ
74LVC273AQ20-13
QFN-20
Octal D-Type Flip-Flops with Clear
74LVC273BQ
a
74LVC244ABQ
a74LVC373AQ20-13
QFN-20
Octal Transparent D-Type Latches with 3-State Outputs
74LVC373ABQ
74LVC374AQ20-13
QFN-20
Octal D-Type Flip-Flops with 3-State Outputs
74LVC374ABQ
a74LVC540AQ20-13
a74LVC541AQ20-13
a74LVC573AQ20-13
a74LVC574AQ20-13
a74LVCH244AQ20-13
QFN-20
Octal Buffers/Line Drivers with 3-State Outputs
QFN-20
Octal Buffers/Line Drivers with 3-State Outputs
74LVC541ABQ
QFN-20
Octal Transparent D-Type Latches with 3-State Outputs
74LVC573ABQ
QFN-20
Octal D-Type Flip-Flops with 3 State Outputs
74LVC574ABQ
QFN-20
Octal Buffers/Line Drivers with Bus Hold / 3-State Outputs
74LVCH244ABQ
Octal Bus Transceivers with Bus Hold / 3-State Outputs
74LVCH245ABQ
74LVCH245AQ20-13 QFN-20
Page 19
Diodes Logic Brochure (Final Artwork) 15/10/2013 10:11 Page 2
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LOG 1 | August 2013
www.diodes.com