Semiconductors

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5

Simply put, nobody gives you more options for Cortex-M than NXP. Our Cortex®-M portfolio − one of the largest in the industry − covers the entire spectrum of embedded applications. Our Cortex-M0 devices use a low-power core that’s ready to replace traditional 8/16-bit architectures. Our Cortex-M3 devices offer best-in-class bandwidth and connectivity, and our new Cortex-M4 devices bring high-performance signal processing capabilities within reach of the typical MCU programmer. All our Cortex-M devices build on an optimized ARM core to deliver higher performance, consume less power, and offer more peripherals. Designers can choose from the many tools available in the ARM ecosystem, or use a single, comprehensive toolchain to support all Cortex-M devices. Plus, our long-term strategic relationship with ARM gives us early access to next-generation IP, so you can be sure you’re working with the latest technologies.

-M0 LPC1100 Simple, low-power, and low-cost

Robust industrial control

Up to 50 MHz

LPC1200

-M4 LPC4300 World’s first dual-core DSCs+150 MHz

-M3 LPC1300 Lowest-power Cortex-M3 with USB

High Speed USB and advanced peripherals

Complete MCUs with USB, Ethernet,and LCD

Up to 150 MHz

LPC1700

LPC1800

Best-in-class performance, power, and connectivity

1. Changing the landscape for embedded

Broaden your options

Cortex-M microcontrollers

Broaden your options

Cortex-M microcontrollers

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www.activecomponents.com | [email protected] | Over one million electronic components online.

Simply put, nobody gives you more options for Cortex-M than NXP. Our Cortex®-M portfolio − one of the largest in the industry − covers the entire spectrum of embedded applications. Our Cortex-M0 devices use a low-power core that’s ready to replace traditional 8/16-bit architectures. Our Cortex-M3 devices offer best-in-class bandwidth and connectivity, and our new Cortex-M4 devices bring high-performance signal processing capabilities within reach of the typical MCU programmer. All our Cortex-M devices build on an optimized ARM core to deliver higher performance, consume less power, and offer more peripherals. Designers can choose from the many tools available in the ARM ecosystem, or use a single, comprehensive toolchain to support all Cortex-M devices. Plus, our long-term strategic relationship with ARM gives us early access to next-generation IP, so you can be sure you’re working with the latest technologies.

-M0 LPC1100 Simple, low-power, and low-cost

Robust industrial control

Up to 50 MHz

LPC1200

-M4 LPC4300 World’s first dual-core DSCs+150 MHz

-M3 LPC1300 Lowest-power Cortex-M3 with USB

High Speed USB and advanced peripherals

Complete MCUs with USB, Ethernet,and LCD

Up to 150 MHz

LPC1700

LPC1800

Best-in-class performance, power, and connectivity

1. Changing the landscape for embedded

simply put, nobody gives you more options for cortex-M than nXP.NXP’s Cortex-M portfolio - one of the largest in the industry - covers the entire

spectrum of embedded applications. The Cortex-M0 devices use a low-power core

that’s ready to replace traditional 8/16-bit architectures. Cortex-M3 devices offer

best-in-class bandwidth and connectivity, and NXP’s new Cortex -M4 devices bring

high-performance signal processing capabilities within reach of the typical MCU

programmer. All Cortex-M devices build on an optimised ARM core to deliver higher

performance, consume less power, and offer more peripherals. Designers can choose

from the many tools available in the ARM ecosystem, or use a single, comprehensive

toolchain to support all Cortex-M devices.

upgrading 8/16-bit designs to faster, more effi cient performance As the smallest, most energy effi cient Cortex-M core, the Cortex-M0 is the new, low-cost

alternative for 8/16-bit designs. The LPC1100L series offers industry-leading cost and

power consumption, and includes the LPC1102, the world’s smallest 32-bit ARM MCU.

The LPC11C00 series is the fi rst CAN microcontroller and transceiver with CANopen

drivers, and the LPC11U00 delivers robust USB performance at a low price point. The

LPC1200 series, NXP’s latest generation of Cortex-M0, delivers high energy effi ciency plus

an extensive list of memory options and high-performance peripherals. Several of NXPs

Cortex-M0 devices are pin-compatible with Cortex-M3 LPC1300 devices.

coRteX-M0: true 8/16-bit requirements

Best-in-class performance, power and connectivity

Upgrading 8/16-bit designs to faster, more efficient performance As the smallest, most energy-efficient Cortex-M core, the Cortex-M0 is the new, low-cost alternative for 8/16-bit designs. The LPC1100L series offers industry-leading cost and power consumption, and includes the LPC1102, the world’s smallest 32-bit ARM MCU. The LPC11C00 series is the first CAN microcontroller and transceiver with CANopen drivers, and the LPC11U00 delivers robust USB performance at a low price point. The LPC1200 series, NXP’s latest generation of Cortex-M0, delivers high energy efficiency plus an extensive list of memory options and high-performance peripherals. Several of NXP's Cortex-M0 devices are pin-compatible with Cortex-M3 LPC1300 devices.

Cortex-M0CODE DENSITYPERFORMANCE

POWER

MIGRATIONPRICING

2. Cortex-M0: True 8/16-bit replacements

LPC1100L seriesThe LPC1100L series is the lowest-priced 32-bit MCU solution on the market. It is a high-value, easy-to-use upgrade for existing 8/16-bit designs, delivering unprecedented

performance, simplicity, and power. The optimized Thumb instruction set also enables dramatic reductions in code size for most 8/16-bit applications. The LPC1100L is a seamless entry point for 8/16-bit designers looking to start using the scalable ARM architecture.

2. LPC1100L: Simple, low-power, and low-cost

ARM coRteX MicRocontRolleRs

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coRteX-M0lPc1100 seRies

lPc11x block diagram

lPc11c00 block diagram

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Cortex-M0: True 8/16-bit replacements

10

The LPC1100L series is the lowest-priced 32-bit MCU solution on the market. It is a high-value, easy-to-use upgrade for existing 8/16-bit designs, delivering unprecedented


LPC111x block diagram

LPC111x

ARMCORTEX-M0

50 MHz

Flashup to 32 KB

SRAMup to 8 KB

SPI (2)

I2C

UART

SERIAL INTERFACES

ADC8-channel, 10-bit

ANALOG

Bridge

AH

B-L

ITE

Bus

APB

Bus

High-speed GPIO (42)

32-bit Timers (2)

16-bit Timers (2)

Systick Timer

WDT

SYSTEM

Power ControlPMU, power modes, BOD,

single Vdd power supply, POR

Clock Generation Unit12 MHz, 1% IRC OSC,

Watchdog OSC,1-25 MHz System OSC,

System PLL

Package

LPC1114 32 4 to 8 5 11** 1 1 1 or 2 8ch 10b 28 to 42 HVQFN33, LQFP48


LPC1112 16 2 to 4 5 11** 1 1 1 8ch 10b 28 HVQFN33

LPC1111 8 2 to 4 5 11** 1 1 1 8ch 10b 28 HVQFN33

LPC1100L: Simple, low-power, and low-cost

Features 50 MHz Cortex-M0 core Up to 32 KB Flash 8 KB SRAM Complete CAN node - On-chip CAN 2.0B C_CAN controller and CANopen drivers - Integrated CAN transceiver (LPC11C22/C24) - Close coupling of CAN transceiver, 32-bit MCU, and CANopen

protocol - Direct on-chip support extends plug-and-play system approach

for CAN 8-channel, 10-bit ADC with up to 400,000 samples per second at

±1 LSB DNL Three reduced-power modes: sleep, deep-sleep, and deep

power-down Up to 42 high-speed GPIO Superior code density compared to traditional 8/16-bit MCUs Supported by NXP’s low-cost LPCXpresso toolchain

LPC11C00 seriesThe LPC11C00 series is the first to integrate CAN, the preferred communication channel for rugged environments. In many applications, the CAN transceiver often costs as much as or more than

the microcontroller itself. Integrating the CAN transceiver increases system reliability and quality, minimizes the issues related to electrical interconnect and compatibility, and reduces board space by over 50% while adding under 20% to the MCU cost. As a result, the LPC11C00 enables low-cost development for a wide range of industrial networking applications.

2. LPC11C00: Complete CAN solutions









Features 50 MHz Cortex-M0 core Up to 32 KB Flash 6 KB SRAM USB 2.0 full-speed device controller USART with fractional baud generation Smart Card interface (ISO 7816-3) Two SSP interfaces, one I2C interface supporting Fast-mode Plus 8-channel, 10-bit ADC with input multiplexing among eight pins Four general-purpose counter/timers, plus a programmable

windowed Watchdog timer Four reduced power modes: sleep, deep-sleep, power-down,

deep power-down On-chip, API-driven power profiles Up to 40 GPIO (configurable in groups) Available in TFBGA48 package (4.5 x 4.5 mm) Superior code density compared to traditional 8/16-bit MCUs Supported by NXP’s low-cost LPCXpresso toolchain Pin-compatible with Cortex-M3 LPC134x devices

LPC11U00 seriesDelivering robust USB performance at a low price point, LPC11U00 devices are compelling replacements for 8/16-bit USB microcontrollers. The highly flexible USB architecture is, quite

simply, a better approach to USB, and the tiny (4.5 x 4.5 mm) TFBGA48 package is especially well suited for mobile and consumer applications. Like NXP’s other ARM-based USB solutions, the LPC11U00 series is supported by easy-to-use software and integrated development platforms that make NXP a one-stop shop for USB. The series is pin-compatible with Cortex-M3 LPC134x devices.

2. LPC11U00: Complete USB solutions


Cortex-M0CODE DENSITYPERFORMANCE

POWER

MIGRATIONPRICING

Features 50 MHz Cortex-M0 core Up to 32 KB Flash Up to 8 KB SRAM Serial peripherals: I2C Fast-mode Plus, two SPI, UART 8-channel, 10-bit ADC Lowest active power consumption (only 130 µA/MHz) Up to 42 high-speed GPIO Superior code density compared to traditional 8/16-bit MCUs Supported by NXP’s low-cost LPCXpresso toolchain

LPC1100L seriesThe LPC1100L series is the lowest-priced 32-bit MCU solution on the market. It is a high-value, easy-to-use upgrade for existing 8/16-bit designs, delivering unprecedented



LPC111x

ARMCORTEX-M0

50 MHz

AH

B-L

ITE

Bus

APB

Bus


32-bit Timers (2)

16-bit Timers (2)

Systick Timer

WDT

SYSTEM





System PLL

LPC1100L selection guide

Memory Timers Serial interfaces Analog

Type Flas

h (K

B)

RAM

(KB)

No.

of t

imer

s*

PWM

cha

nnel

s

UA

RT

I2 C SSP/

SPI

AD

C c

hann

els/

reso

lutio

n

I/O

pin

s

Package



LPC1112 16 2 to 4 5 11** 1 1 1 8ch 10b 28 HVQFN33

LPC1111 8 2 to 4 5 11** 1 1 1 8ch 10b 28 HVQFN33

* Includes Watchdog timer and real-time clock ** Using timersNote: The "L" in LPC1100L indicates lower power consumption and easy-to-use power profiles. Please refer to the datasheet and user manual for detailed information.

2. LPC1100L: Simple, low-power, and low-costThe LPC1100 series is the lowest-priced 32-bit MCU solution on the

market. It is a high-value, easy-to-use upgrade for existing 8/16-bit

designs, delivering unprecedented performance, simplicity and power. The

optimised Thumb instruction set also enables dramatic reductions in code

size for most 8/16-bit applications. The LPC1100 is a seamless entry point

for 8/16-bit designers looking to start using the scalable ARM architecture.

Features• 50 MHz Cortex-M0 core• Up to 32 KB Flash• Up to 8 KB SRAM• Serial peripherals: I2C Fast-mode Plus, two SPI, UART • 8-channel, 10-bit ADC• Lowest active power consumption (only 130 μA/MHz)• Up to 42 high-speed GPIO• Superior code density compared to traditional 8/16-bit MCUs• Supported by NXP’s low-cost LPCXpresso toolchain

Description PackagePackage

nameManf. Part. No.

32 kB fl ash, 8 kB SRAM, 2x2mm WLCSP16 package

OL-LPC1102UK WLCSP LPC1102UK

8 kB fl ash, up to 4 kB SRAM SOT865-3 HVQFN32 LPC1111FHN33


24 kB fl ash, 8 kB SRAM SOT313-2 LQFP48 LPC1113FBD48

24 kB fl ash, up to 8kB SRAM SOT865-3 HVQFN32 LPC1113FHN33

32 kB fl ash, 8 kB SRAM SOT187-2 PLCC44 LPC1114FA44

32 kB fl ash, 8 kB SRAM SOT313-2 LQFP48 LPC1114FBD48


9


Cortex-M0: True 8/16-bit replacements


LPC111x

ARMCORTEX-M0

50 MHz

Flashup to 32 KB

SRAMup to 8 KB

Bridge

AH

B-L

ITE

Bus

APB

Bus


32-bit Timers (2)

16-bit Timers (2)

Systick Timer

WDT

LPC1100L: Simple, low-power, and low-cost

















Features




The LPC11C00 series is the fi rst to integrate CAN, the preferred

communication channel for rugged environments. In many applications,

the CAN transceiver often costs as much as or more than the

microcontroller itself. Integrating the CAN transceiver increases system

reliability and quality, minimises the issues related to electrical interconnect

and compatibility, and reduces board space by over 50% while adding

under 20% to the MCU cost. As a result, the LPC11C00 enables low-cost

development for a wide range of industrial networking applications.

Features• 50 MHz Cortex-M0 core• Up to 32 KB Flash• 8 KB SRAM• Complete CAN node - On-chip CAN 2.0B C_CAN controller and CANopen drivers - Integrated CAN transceiver (LPC11C22/C24) - Close coupling of CAN transceiver, 32-bit MCU, and CANopen protocol - Direct on-chip support extends plug-and-play system approach for CAN• 8-channel, 10-bit ADC with up to 400,000 samples per second at ±1 LSB DNL• Three reduced-power modes: sleep, deep-sleep, and power-down• Up to 42 high-speed GPIO• Superior code density compared to traditional 8/16-bit MCUs• Supported by NXP’s low-cost LPCXpresso toolchain


nameManf. Part. No.

16 kB fl ash, 8 kB SRAM, CAN and CANopen drivers on-chip

SOT313-2 LQFP48 LPC11C12FBD48

32 kB fl ash, 8 kB SRAM, CAN and CANopen drivers on-chip


16 kB fl ash, 8 kB SRAM, CAN and CANopen drivers on-chip and integrated CAN Transceiver


32 kB fl ash, 8 kB SRAM, CAN and CANopen drivers on-chip and integrated CAN Transceiver


50 MHz Cortex-M0 core Up to 32 KB Flash 8 KB SRAM Complete CAN node - On-chip CAN 2.0B C_CAN controller and CANopen drivers - Integrated CAN transceiver (LPC11C22/C24) - Close coupling of CAN transceiver, 32-bit MCU, and CANopen




power-down Up to 42 high-speed GPIO

LPC11C00 block diagram

LPC11Cxx

with TJF1051/3 CAN Transceiver*

*LPC11C2x only

ARMCORTEX-M0Up to 50 MHz


SPI (2)

I2C

UART

CAN

32-bit Timers (2)

16-bit Timers (2)

Systick Timer

WDT

SYSTEM ANALOG

SERIAL INTERFACES






System PLL

Flash16/32 kB

SRAM8 kB

ROMCAN drivers

Bridge

AH

B-L

ITE

Bus

APB

Bus



LPC11C00 selection guide


Type Flas

h (K

B)

RAM

(KB)

No.

of t

imer

s*

PWM

cha

nnel

s

UA

RT

I2 C CA

N

SSP/

SPI

AD

C c

hann

els/

reso

lutio

n

I/O

pin

s

Package

LPC11C24 32 8 5 11** 1 1 1 2 8ch 10b 42 LQFP48

LPC11C22 16 8 5 11** 1 1 1 2 8ch 10b 42 LQFP48

LPC11C00: Complete CAN solutions

50 MHz Cortex-M0 core Up to 32 KB Flash 8 KB SRAM Complete CAN node - On-chip CAN 2.0B C_CAN controller and CANopen drivers - Integrated CAN transceiver (LPC11C22/C24) - Close coupling of CAN transceiver, 32-bit MCU, and CANopen




power-down Up to 42 high-speed GPIO


LPC11Cxx


*LPC11C2x only



SPI (2)

I2C

UART

CAN

32-bit Timers (2)

16-bit Timers (2)

Systick Timer

WDT

SYSTEM ANALOG

SERIAL INTERFACES






System PLL

Flash16/32 kB

SRAM8 kB

ROMCAN drivers

Bridge

AH

B-L

ITE

Bus

APB

Bus





Type Flas

h (K

B)

RAM

(KB)

No.

of t

imer

s*

PWM

cha

nnel

s

UA

RT

I2 C CA

N

SSP/

SPI

AD

C c

hann

els/

reso

lutio

n

I/O

pin

s

Package

LPC11C24 32 8 5 11** 1 1 1 2 8ch 10b 42 LQFP48

LPC11C22 16 8 5 11** 1 1 1 2 8ch 10b 42 LQFP48

LPC11C14 32 8 5 11** 1 1 1 2 8ch 10b 42 LQFP48

LPC11C12 16 8 5 11** 1 1 1 2 8ch 10b 42 LQFP48

LPC11C00: Complete CAN solutions

LPC11U00: Complete USB solutions


coRteX-M0lPc11c00 seRies

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11

Complete CAN node - On-chip CAN 2.0B C_CAN controller and CANopen drivers - Integrated CAN transceiver (LPC11C22/C24) - Close coupling of CAN transceiver, 32-bit MCU, and CANopen




power-down

Superior code density compared to traditional 8/16-bit MCUs


LPC11Cxx


*LPC11C2x only



SPI (2)

I2C

UART

CAN

32-bit Timers (2)

16-bit Timers (2)

Systick Timer

WDT

SYSTEM ANALOG

SERIAL INTERFACES






System PLL

Flash16/32 kB

SRAM8 kB

ROMCAN drivers

Bridge

AH

B-L

ITE

Bus

APB

Bus

The LPC11C00 series is the first to integrate CAN, the preferred communication channel for rugged environments. In many applications, the CAN transceiver often costs as much as or more than




Type Flas

h (K

B)

RAM

(KB)

No.

of t

imer

s*

PWM

cha

nnel

s

UA

RT

I2 C CA

N

SSP/

SPI

AD

C c

hann

els/

reso

lutio

n

I/O

pin

s

Package

LPC11C24 32 8 5 11** 1 1 1 2 8ch 10b 42 LQFP48

LPC11C22 16 8 5 11** 1 1 1 2 8ch 10b 42 LQFP48

LPC11C14 32 8 5 11** 1 1 1 2 8ch 10b 42 LQFP48

LPC11C12 16 8 5 11** 1 1 1 2 8ch 10b 42 LQFP48

* Includes Watchdog timer and real-time clock ** Using timers 11

Complete CAN node - On-chip CAN 2.0B C_CAN controller and CANopen drivers - Integrated CAN transceiver (LPC11C22/C24) - Close coupling of CAN transceiver, 32-bit MCU, and CANopen




power-down

Superior code density compared to traditional 8/16-bit MCUs


LPC11Cxx


*LPC11C2x only



SPI (2)

I2C

UART

CAN

32-bit Timers (2)

16-bit Timers (2)

Systick Timer

WDT

SYSTEM ANALOG

SERIAL INTERFACES






System PLL

Flash16/32 kB

SRAM8 kB

ROMCAN drivers

Bridge

AH

B-L

ITE

Bus

APB

Bus

The LPC11C00 series is the first to integrate CAN, the preferred communication channel for rugged environments. In many applications, the CAN transceiver often costs as much as or more than




Type Flas

h (K

B)

RAM

(KB)

No.

of t

imer

s*

PWM

cha

nnel

s

UA

RT

I2 C CA

N

SSP/

SPI

AD

C c

hann

els/

reso

lutio

n

I/O

pin

s

Package

LPC11C24 32 8 5 11** 1 1 1 2 8ch 10b 42 LQFP48

LPC11C22 16 8 5 11** 1 1 1 2 8ch 10b 42 LQFP48

LPC11C14 32 8 5 11** 1 1 1 2 8ch 10b 42 LQFP48

LPC11C12 16 8 5 11** 1 1 1 2 8ch 10b 42 LQFP48

* Includes Watchdog timer and real-time clock ** Using timers

C interface supporting Fast-mode Plus 8-channel, 10-bit ADC with input multiplexing among eight pins Four general-purpose counter/timers, plus a programmable

windowed Watchdog timer

Delivering robust USB performance at a low price point, LPC11U00 devices are compelling replacements for 8/16-bit USB microcontrollers. The highly flexible USB architecture is, quite


LPC11U00 selection guide

LPC11U1x

LPC11U1x


High-speed GPIO (Up to 40)

2 SSP

I2C

USART / SMARTCARD INTERFACE

USB

32-bit Timers (2)

16-bit Timers (2)

Systick Timer

Windowed WDT

SYSTEM ANALOG

SERIAL INTERFACES






System PLL

Flash16/24/32 kB

SRAM6 kB

ROM

Bridge

AH

B-L

ITE

Bus

APB

Bus


Type Flas

h (K

B)

RAM

(KB)

No.

of t

imer

s*

PWM

cha

nnel

s

USB

UA

RT

IC SSP/

SPI

AD

C c

hann

els/

r eso

lutio

n

I/O

pin

s

LPC11U00: Complete USB solutions

9

As the smallest, most energy-efficient Cortex-M core, the Cortex-M0 is the new, low-cost alternative for 8/16-bit designs. The LPC1100L series offers industry-leading cost and power consumption, and includes the LPC1102, the world’s smallest 32-bit ARM MCU. The LPC11C00 series is the first CAN microcontroller and transceiver with CANopen drivers, and the LPC11U00 delivers robust USB performance at a low price point. The LPC1200 series, NXP’s latest generation of Cortex-M0, delivers high energy efficiency plus an extensive list of memory options and high-performance peripherals. Several of NXP's Cortex-M0 devices are pin-compatible with Cortex-M3 LPC1300 devices.

Flashup to 32 KB

SRAMup to 8 KB







LPC11Cxx

*LPC11C2x only





Type

LPC11C24 32 8 5 11** 1 1 1 2 8ch 10b

LPC11C22

LPC11C14 32 8 5 11** 1 1 1 2 8ch 10b 42 LQFP48

LPC11C12 16 8 5 11** 1 1 1 2 8ch 10b 42 LQFP48









*LPC11C2x only





Type

LPC11C24 32 8 5 11** 1 1 1 2 8ch 10b

LPC11C22

LPC11C14 32 8 5 11** 1 1 1 2 8ch 10b 42 LQFP48

LPC11C12 16 8 5 11** 1 1 1 2 8ch 10b 42 LQFP48



Features 50 MHz Cortex-M0 core



LPC11U1x

LPC11U1x



2 SSP

I

32-bit Timers (2)

16-bit Timers (2)

Systick Timer

Windowed WDT


single V power supply, POR


coRteX-M0lPc11u00 seRies

lPc11u1x

Delivering robust USB performance at a low price point, LPC11U00

devices are compelling replacements for 8/16-bit USB microcontrollers.

The highly fl exible USB architecture is, quite simply, a better approach to

USB. Like NXP’s other ARM-based USB solutions, the LPC11U00 series is

supported by easy-to-use software and integrated development platforms

that make NXP a one-stop shop for USB. The series is compatible with

Cortex-M3 LPC134x devices.

Features• 50 MHz Cortex-M0 core• Up to 32 KB Flash• 6 KB SRAM• USB 2.0 full-speed device controller• USART with fractional baud generation• Smart Card interface (ISO 7816-3)• Two SSP interfaces, one I2C interface supporting Fast-mode Plus• 8-channel, 10-bit ADC with up to 400,000 samples per second at ±1 LSB DNL• Four general-purpose counters/timers, plus a programmable windowed Watchdog timer• Four reduced-power modes: sleep, deep-sleep, power-down, deep power-down• On-chip, API-driven power profi les• Up to 40 GPIO (confi gurable in groups)• Available in TFBGA48 package (4.5 x 4.5mm)• Superior code density compared to traditional 8/16-bit MCUs• Supported by NXP’s low-cost LPCXpresso toolchain• Pin-compatible with Cortex-M3 LPC134x devices


nameManf. Part. No.

Up to 16 kB fl ash; 6 kB SRAM; USB device; USART; 2 SSPs

SOT313-2 LQFP48 LPC11U12FBD48


SOT865-1 HVQFN32 LPC11U12FHN33






SOT1155-1 TFBGA48 LPC11U14FET48


SOT865-1 HVQFN32 LPC11U14FHN33


SE-4

NSW+61 2 9893 9400


Victoria+61 3 9775 4778

Auckland+64 9 443 9500



The LPC1300, a low-power, low-cost implementation, operates at up to 72 MHz and performs USB device functions. The LPC1700 operates at up to 120 MHz and integrates advanced peripherals such as Ethernet, USB 2.0, and CAN 2.0B. The LPC1800, the highest-performing Cortex-M3 available on the market, operates at up to 150 MHz and offers up to 1 MB of Flash and up to 200 KB of SRAM. For added design freedom, and the flexibility to quickly upgrade or downgrade system performance, members of NXP’s Cortex-M3 portfolio are pin-compatible with devices in our Cortex-M0, Cortex-M4, and ARM7 portfolios.

Cortex-M3: High-performance MCUs for communications and control

Features Up to 120 MHz Cortex-M3 core Up to 512 KB Flash Up to 96 KB SRAM Up to 4 KB EEPROM

LPC1700 seriesThe LPC1700 series operates at speeds up to 120 MHz. Each device is equipped with up to 512 KB of Flash memory, up to 96 KB of SRAM, up to 4 KB of EEPROM, 12-bit A/D and 10-bit D/A converters, and an

internal oscillator. The series also features advanced peripherals, such as Ethernet, USB 2.0 Host/OTG/Device, LCD control, and CAN 2.0B.

3. LPC1700: Complete MCUs with USB, Ethernet, and LCD

lPc1300 block diagram

The LPC1300, a low-power, low-cost implementation, operates at up to 72 MHz and performs USB device functions. The LPC1700 operates at up to 120 MHz and integrates advanced peripherals such as Ethernet, USB 2.0, and CAN 2.0B. The LPC1800, the highest-performing Cortex-M3 available on the market, operates at up to 150 MHz and offers up to 1 MB of Flash and up to 200 KB of SRAM. For added design freedom, and the flexibility to quickly upgrade or downgrade system performance, members of NXP’s Cortex-M3 portfolio are pin-compatible with devices in our Cortex-M0, Cortex-M4, and ARM7 portfolios.

Cortex-M3

MIGRATION

CONNECTIVITY

LCD GRAPHICS

CONFIGURABLEPERIPHERALS

PERFORMANCE

EASE OF USE

Features Up to 72 MHz Cortex-M3 core Up to 32 KB Flash Up to 8 KB SRAM Power profiles in ROM (LPC131x/xx only) USB 2.0 FS device controller with on-chip PHY - ROM-based drivers save up to 6 KB of Flash - Tested and validated USB-certified code for reduced development risk - Supported device classes: Mass Storage, Human Interface Device - Host driverless USB bootloader also on-chip

LPC1300 seriesThis power-efficient series saves energy in a range of applications. To simplify the design of USB-enabled systems, the LPC1340 includes on-chip USB drivers

for Mass Storage Class and Human Interface Device. The drivers are incorporated in ROM, so they save roughly 5 to 6 KB of user code. For added design flexibility, the LPC134x devices are pin-compatible with the Cortex-M0 LPC11U00 series.

3. LPC1300: Lowest-power Cortex-M3 with USB

This power-effi cient series saves energy in a range

of applications. To simplify the design of USB-

enabled systems, the LPC1340 includes on-chip

USB drivers for Mass Storage Class and Human

Interface Device. The drivers are incorporated in

ROM, so they save roughly 5 to 6 kB of user code.

Features• Up to 72MHz Cortex-M3 core• Up to 32 KB Flash• UP to 8 KB SRAM• Power profi les in ROM (LPC131x/xx only)• USB 2.0 FS device controller with on-chip PHY - ROM-based drivers save up to 6 kB of fl ash - Tested and validated USB-certifi ed code for reduced development risk - Supported device classes: Mass Storage, Human Interface Device - Host driverless USB bootloader also on-chip• Binary ROM driver circumvents potential tool vendor porting issues• Serial peripherals: I2C Fast-mode Plus, SSP/SPI, UART• 8-channel, 10-bit ADC• Low power consumption: ~ 200 μA/MHz• Up to 42 GPIO• Flash programming• Supported by NXP’s low-cost LPCXpresso toolchain• LPC134x devices are pin-compatible with Cortex-M0 LPC11U00 series


nameManf. Part. No.

8 kB fl ash, 4 kB SRAM, up to 72 MHz performance and on-chip

power profi lesSOT865-3 HVQFN32 LPC1311FHN33

32 kB fl ash, 8 kB SRAM, up to 72 MHz performance and on-chip

power profi lesSOT313-2 LQFP48 LPC1313FBD48

32 kB fl ash and 8 kB SRAM SOT865-3 HVQFN32 LPC1313FHN33

16 kB fl ash and 4 kB SRAM; USB device

SOT865-3 HVQFN32 LPC1342FHN33


SOT313-2 LQFP48 LPC1343FBD48


SOT865-3 HVQFN32 LPC1343FHN33


MIGRATION

Features Up to 72 MHz Cortex-M3 core Up to 32 KB Flash Up to 8 KB SRAM Power profiles in ROM (LPC131x/xx only) USB 2.0 FS device controller with on-chip PHY - ROM-based drivers save up to 6 KB of Flash - Tested and validated USB-certified code for reduced development risk - Supported device classes: Mass Storage, Human Interface Device - Host driverless USB bootloader also on-chip Binary ROM driver circumvents potential tool vendor porting issues Serial peripherals: I2C Fast-mode Plus, SSP/SPI, UART 8-channel, 10-bit ADC Low power consumption: ~ 200 µA/MHz Up to 42 GPIO Flash programming Supported by NXP’s low-cost LPCXpresso toolchain LPC134x devices are pin-compatible with Cortex-M0 LPC11U00

series

LPC1300 block diagram

LPC13xx



SSP

I2C

UART

* LPC134x only

USB

32-bit Timers (2)

16-bit Timers (2)

WDT

System Control

SYSTEM ANALOG

SERIAL INTERFACES



ADC10-bit



System PLL

Flash8/16/32 kB

SRAMUp to 8 kB

ROM(USB drivers*)

Bridge

AH

B-L

ITE

Bus

APB

Bus



LPC1300 selection guide

Memory Timers Analog

Type Flas

h (K

B)

RAM

(KB)

No.

of t

imer

s*

PWM

cha

nnel

s

USB

UA

RT

I2 C

SSP/

SPI

AD

C c

hann

els/

reso

lutio

n

I/O

pin

s

Package

LPC1343 32 8 5 11** 1 1 1 1 8ch 10b 28 to 42 LQFP48, HVQFN33

LPC1342 16 4 5 11** 1 1 1 1 8ch 10b 28 HVQFN33

LPC1313/01 32 8 5 11** 1 1 2 8ch 10b 28 to 42 LQFP48, HVQFN33

LPC1311/01 8 2 5 11** 1 1 2 8ch 10b 28 HVQFN33


LPC1300: Lowest-power Cortex-M3 with USB

15

Industry-leading performance with low powerThe LPC1300, a low-power, low-cost implementation, operates at up to 72 MHz and performs USB device functions. The LPC1700 operates at up to 120 MHz and integrates advanced peripherals such as Ethernet, USB 2.0, and CAN 2.0B. The LPC1800, the highest-performing Cortex-M3 available on the market, operates at up to 150 MHz and offers up to 1 MB of Flash and up to 200 KB of SRAM. For added design freedom, and the flexibility to quickly upgrade or downgrade system performance, members of NXP’s Cortex-M3 portfolio are pin-compatible with devices in our Cortex-M0, Cortex-M4, and ARM7 portfolios.

Cortex-M3

MIGRATION

CONNECTIVITY

LCD GRAPHICS

CONFIGURABLEPERIPHERALS

PERFORMANCE

EASE OF USE

3. Cortex-M3: High-performance MCUs for communications and control

16

Features Up to 72 MHz Cortex-M3 core Up to 32 KB Flash Up to 8 KB SRAM Power profiles in ROM (LPC131x/xx only) USB 2.0 FS device controller with on-chip PHY - ROM-based drivers save up to 6 KB of Flash - Tested and validated USB-certified code for reduced development risk - Supported device classes: Mass Storage, Human Interface Device - Host driverless USB bootloader also on-chip Binary ROM driver circumvents potential tool vendor porting issues Serial peripherals: I2C Fast-mode Plus, SSP/SPI, UART 8-channel, 10-bit ADC Low power consumption: ~ 200 µA/MHz Up to 42 GPIO Flash programming Supported by NXP’s low-cost LPCXpresso toolchain LPC134x devices are pin-compatible with Cortex-M0 LPC11U00

series


LPC13xx



SSP

I2C

UART

* LPC134x only

USB

32-bit Timers (2)

16-bit Timers (2)

WDT

System Control

SYSTEM ANALOG

SERIAL INTERFACES



ADC10-bit



System PLL

Flash8/16/32 kB

SRAMUp to 8 kB

ROM(USB drivers*)

Bridge

AH

B-L

ITE

Bus

APB

Bus




Memory Timers Analog

Type Flas

h (K

B)

RAM

(KB)

No.

of t

imer

s*

PWM

cha

nnel

s

USB

UA

RT

I2 C

SSP/

SPI

AD

C c

hann

els/

reso

lutio

n

I/O

pin

s

Package

LPC1343 32 8 5 11** 1 1 1 1 8ch 10b 28 to 42 LQFP48, HVQFN33

LPC1342 16 4 5 11** 1 1 1 1 8ch 10b 28 HVQFN33

LPC1313/01 32 8 5 11** 1 1 2 8ch 10b 28 to 42 LQFP48, HVQFN33

LPC1311/01 8 2 5 11** 1 1 2 8ch 10b 28 HVQFN33


3. LPC1300: Lowest-power Cortex-M3 with USB

coRteX-M3: high performance mcus for communications and control

industry-leading performance with low powerThe LPC1300, a low-power, low-cost implementation, operates at up to

72MHz and performs USB device functions. The LPC1700 operates at up

to 120 MHz and integrates advanced peripherals such as Ethernet, USB

2.0, and CAN 2.0B. The LPC1800, the highest-performing Cortex-M3

available on the market, operates at up to 150MHz and offers up to 1MB

of Flash and up to 200kB of SRAM. For added design freedom, and the

fl exibility to quickly upgrade or downgrade system performance, members

of NXP’s Cortex-M3 portfolio are pin-compatible with devices in the NXP

Cortex-M0, Cortex-M4, and ARM7 portfolios.

MIGRATION

Features• Up to 120MHz Cortex-M3 core• Up to 512 KB Flash• UP to 96 KB SRAM• Up to 4 KB EEPROM• Power profi les in ROM (LPC131x/xx only)• Advanced multi-layer BUS enables high performance without bottlenecks• LCD controller with display resolution of up to 1024 x 768 pixels• 10/100T Ethernet MAC with MII and RMII interfaces• USB 2.0 FS Host/Device/OTG controller• Two CAN 2.0B controllers• Serial peripherals:up to three I2C, up to three SSP/SPI, up to fi ve UARTs, and I2S• Analog peripherals: 12-bit ADC, 10-bit DAC• Other peripherals: low-power RTC, precise internal RC oscillator• Up to 70 GPIO• Supported by NXP’s low-cost LPCXpresso toolchain

The LPC1700 series operates at speeds up to 120MHz. Each device is

equipped with up to 512KB of Flash memory, up to 96 KB of SRAM, up

to 4 KB of EEPROM, 12-bit A/D and 10-bit D/A converters, and an internal

oscillator. The series also features advanced peripherals, such as Ethernet,

USB Host/OTG/Device, LCD control, and CAN 2.0B.




SE-5

NSW+61 2 9893 9400


Victoria+61 3 9775 4778

Auckland+64 9 443 9500




nameManf. Part. No.

32 kB fl ash, 8 kB SRAM, USB 2.0 Device, CAN, 12-bit ADC SOT315-1 LQFP80 LPC1751FBD80


128 kB fl ash, 32 kB SRAM, USB 2.0 Device/Host/OTG, CAN, 12-bit ADC, DAC SOT315-1 LQFP80 LPC1754FBD80

256 kB fl ash, 32 kB SRAM, USB 2.0 Device/Host/OTG, CAN, 12-bit ADC, DAC, 12S SOT315-1 LQFP80 LPC1756FBD80

512 kB fl ash, 64 kB SRAM, USB 2.0 Device/Host/OTG, Ethernet, CAN, 12-bit ADC, DAC, 12S SOT315-1 LQFP80 LPC1758FBD80


256 kB fl ash, 64 kB SRAM, 12-bit ADC, DAC, 12S SOT407-1 LQFP100 LPC1763FBD100

128 kB fl ash, 32 kB SRAM, Ethernet, USB 2.0 Device, CAN, 12-bit ADC SOT407-1 LQFP100 LPC1764FBD100


256 kB fl ash, 64 kB SRAM, USB 2.0 Device/Host/OTG, CAN, 12-bit ADC, DAC, 12S SOT926-1 TFBGA100 LPC1765FET100

256 kB fl ash, 64 kB SRAM, Ethernet, USB 2.0 Device/Host/OTG, CAN, 12-bit ADC, DAC, 12S SOT407-1 LQFP100 LPC1766FBD100

512 kB fl ash, 64 kB SRAM, Ethernet, 12-bit ADC, DAC, 12S SOT407-1 LQFP100 LPC1767FBD100

512 kB fl ash, 64 kB SRAM, Ethernet, USB 2.0 Device/Host/OTG, 12-bit ADC, DAC, 12S SOT407-1 LQFP100 LPC1768FBD100

512 kB fl ash, 64 kB SRAM, Ethernet, USB 2.0 Device/Host/OTG, 12-bit ADC, DAC, 12S SOT926-1 TFBGA100 LPC1768FET100

512 kB fl ash, 64 kB SRAM, Ethernet, USB 2.0 Device/Host/OTG, 12-bit ADC, DAC, 12S SOT407-1 LQFP100 LPC1769FBD100



256 kB fl ash, 80 kB SRAM, Ethernet, USB 2.0 device/host/OTG, CAN, 12-bit ADC SOT459-1 LQFP208 LPC1776FBD208

256 kB fl ash, 80 kB SRAM, Ethernet, USB 2.0 device/host/OTG, CAN, 12-bit ADC SOT570-2 TFBGA180 LPC1776FET180

512 kB fl ash, 96 kB SRAM, USB 2.0 device/host/OTG, CAN, 12-bit ADC SOT459-1 LQFP208 LPC1777FBD208





256 kB fl ash, 80 kB SRAM, 4 kB EEPROM, USB 2.0 device/host/OTG, CAN, 12-bit ADC, LCD, SD/MMC SOT459-1 LQFP208 LPC1785FBD208

256 kB fl ash, 80 kB SRAM, 4 kB EEPROM, Ethernet, USB 2.0 device/host/OTG, CAN, 12-bit ADC, LCD, SD/MMC SOT459-1 LQFP208 LPC1786FBD208

512 kB fl ash, 96 kB SRAM, 4 kB EEPROM, USB 2.0 device/host/OTG, CAN, 12-bit ADC, LCD, SD/MMC, QEI SOT459-1 LQFP208 LPC1787FBD208



512 kB fl ash, 96 kB SRAM, 4 kB EEPROM, Ethernet, USB 2.0 device/host/OTG, CAN, 12-bit ADC, LCD, SD/MMC SOT570-2 TFBGA180 LPC1788FET180

512 kB fl ash, 96 kB SRAM, 4 kB EEPROM, Ethernet, USB 2.0 device/host/OTG, CAN, 12-bit ADC, LCD, SD/MMC SOT950-1 TFBGA208 LPC1788FET208

coRteX-M3 lPc1700 seRies coNt.

17

Advanced multi-layer bus enables high performance without bottlenecks

LCD controller with display resolution of up to 1024 x 768 pixels 10/100T Ethernet MAC with MII and RMII interfaces

Motor-control PWM with Quadrature Encoder Interface

C, up to three SSP/SPI, up to five UARTs, and I

Other peripherals: low-power RTC, precise internal RC oscillator

Supported by NXP’s low-cost LPCXpresso toolchain


LPC177x/178x

FlashUp to 512 KB

EEPROM4 KB

SRAMUp to 96 KB

ROM

ARM CORTEX-M3Up to 120 MHz

5 x UART

3 x SSP/SPI

2 x I2C

I2C FM+I2S

FS USB 2.0H/D/O

EthernetMAC

2 x CAN 2.0B

LCDController

SD/MMC

ExternalMem Ctrl

4 x 32-bitTimers

RTC

TickTimer

MPU

NVIC

WIC

DebugTrace

StandardPWM

GPIO

SYSTEM

MOTOR CONTROL

MEMORYCORE

Motor ControlPWM

QuadratureEncoderInterface

BrownoutDetector

CRCEngineGPDMA

USB PLL

CPU PLL

IRC

Power-onReset

WatchdogTimer

INTERFACES TIMERS

12-Bit /8 ChADC

10-bitDAC

ANALOG

Bus System

The LPC1700 series operates at speeds up to 120 MHz. Each device is equipped with up to 512 KB of Flash memory, up to 96 KB of SRAM, up to 4 KB of EEPROM, 12-bit A/D and 10-bit D/A converters, and an


LPC1700: Complete MCUs with USB, Ethernet, and LCD


Type Flas

h (K

B)

RAM

(KB)

No.

of t

imer

s*

PWM

cha

nnel

s

Ethe

rnet

USB

UA

RT

I2 C CA

N

SPI

SSP/

SPI

I2 S AD

C c

hann

els/

reso

lutio

n

DA

C c

hann

els/

reso

lutio

n

I/O

pin

s

Package

LPC1769 512 64 6 6 1 1 4 3 2 1 2 1 8ch 12b 1ch 10b 70 LQFP100

LPC1768 512 64 6 6 1 1 4 3 2 1 2 1 8ch 12b 1ch 10b 70 LQFP100, TFBGA100

LPC1767 512 64 6 6 1 4 3 1 2 1 8ch 12b 1ch 10b 70 LQFP100

LPC1766 256 64 6 6 1 1 4 3 2 1 2 1 8ch 12b 1ch 10b 70 LQFP100

LPC1765 256 64 6 6 1 4 3 2 1 2 1 8ch 12b 1ch 10b 70 LQFP100

LPC1764 128 32 6 6 1 1 4 3 2 1 2 8ch 12b 1ch 10b 70 LQFP100

LPC1763 256 64 6 6 4 3 1 2 1 8ch 12b 1ch 10b 70 LQFP100

LPC1759 512 64 6 6 1 4 2 2 1 2 1 6ch 12b 1ch 10b 52 LQFP80

LPC1758 512 64 6 6 1 1 4 2 2 1 2 1 6ch 12b 1ch 10b 52 LQFP80

LPC1756 256 32 6 6 1 4 2 2 1 2 1 6ch 12b 1ch 10b 52 LQFP80

LPC1754 128 32 6 6 1 4 2 1 1 2 6ch 12b 1ch 10b 52 LQFP80

LPC1752 64 16 6 6 1 4 2 1 1 2 6ch 12b 1ch 10b 52 LQFP80

LPC1751 32 8 6 6 1 4 2 1 1 2 6ch 12b 1ch 10b 52 LQFP80

LPC1700: Complete MCUs with USB, Ethernet, and LCD



SE-6

NSW+61 2 9893 9400


Victoria+61 3 9775 4778

Auckland+64 9 443 9500



Features Up to 120 MHz Cortex-M3 core Up to 512 KB Flash Up to 96 KB SRAM Up to 4 KB EEPROM Advanced multi-layer bus enables high performance without

bottlenecks LCD controller with display resolution of up to 1024 x 768 pixels 10/100T Ethernet MAC with MII and RMII interfaces USB 2.0 FS Host/Device/OTG controller Motor-control PWM with Quadrature Encoder Interface Two CAN 2.0B controllers Serial peripherals: up to three I2C, up to three SSP/SPI, up to five

UARTs, and I2S Analog peripherals: 12-bit ADC, 10-bit DAC Other peripherals: low-power RTC, precise internal RC oscillator Up to 70 GPIO Supported by NXP’s low-cost LPCXpresso toolchain


LPC177x/178x

ROM


C FM+I2S

FS USB 2.0H/D/O

EthernetMAC

2 x CAN 2.0B

LCDController

SD/MMC

ExternalMem Ctrl

4 x 32-bitTimers

RTC

TickTimer

MPU

NVIC

WIC

DebugTrace

StandardPWM

GPIO

CORE

INTERFACES TIMERS

LPC1700 seriesThe LPC1700 series operates at speeds up to 120 MHz. Each device is equipped with up to 512 KB of Flash memory, up to 96 KB of SRAM, up to 4 KB of EEPROM, 12-bit A/D and 10-bit D/A converters, and an





Type Flas

h (K

B)

RAM

(KB)

No.

of t

imer

s*

PWM

cha

nnel

s

Ethe

rnet

USB

UA

RT

I2 C CA

N

SPI

SSP/

SPI

I2 S AD

C c

hann

els/

reso

lutio

n

DA

C c

hann

els/

reso

lutio

n

I/O

pin

s

LPC1769 512 64 6 6 1 1 4 3 2 1 2 1 8ch 12b 1ch 10b 70 LQFP100

LPC1768 512 64 6 6 1 1 4 3 2 1 2 1 8ch 12b 1ch 10b 70 LQFP100, TFBGA100

LPC1767 512 64 6 6 1 4 3 1 2 1 8ch 12b 1ch 10b 70 LQFP100

LPC1766 256 64 6 6 1 1 4 3 2 1 2 1 8ch 12b 1ch 10b 70 LQFP100

LPC1765 256 64 6 6 1 4 3 2 1 2 1 8ch 12b 1ch 10b 70 LQFP100

LPC1764 128 32 6 6 1 1 4 3 2 1 2 8ch 12b 1ch 10b 70 LQFP100

LPC1763 256 64 6 6 4 3 1 2 1 8ch 12b 1ch 10b 70 LQFP100

LPC1759 512 64 6 6 1 4 2 2 1 2 1 6ch 12b 1ch 10b 52 LQFP80

LPC1758 512 64 6 6 1 1 4 2 2 1 2 1 6ch 12b


coRteX-M3 lPc1800 seRieslPc1700 block diagram

Features• Up to 120MHz Cortex-M3 core• Up to 512 KB Flash• UP to 96 KB SRAM• Up to 4 KB EEPROM• Power profi les in ROM (LPC131x/xx only)• Advanced multi-layer BUS enables high performance without bottlenecks• LCD controller with display resolution of up to 1024 x 768 pixels• 10/100T Ethernet MAC with MII and RMII interfaces• USB 2.0 FS Host/Device/OTG controller• Two CAN 2.0B controllers• Serial peripherals:up to three I2C, up to three SSP/SPI, up to fi ve UARTs, and I2S• Analog peripherals: 12-bit ADC, 10-bit DAC• Other peripherals: low-power RTC, precise internal RC oscillator• Up to 70 GPIO• Supported by NXP’s low-cost LPCXpresso toolchain

Operating at speeds

up to 150MHz, the

LPC1800 series is the

fastest Cortex-M3 on

the market. These high-

performance devices

feature advanced

peripherals, such as Ethernet, high-speed USB

2.0 Host/OTG/Device, LCD controller, and CAN

2.0B. They integrate up to 1MB of Flash, up to

200KB of SRAM, 10-bit A/D and D/A converters,

and an internal RC oscillator. The 256-bit-

wide Flash memory fetches, and maximises

the performance of the core processor. The

LPC1800 series is pin-for-pin compatible with

the Cortex-M4 LPC4300 series.

19

Up to 150 MHz Cortex-M3 core Up to 1 MB dual-bank Flash

LCD controller with display resolution of up to 1024 x 768 pixels 10/100T Ethernet MAC with MII and RMII interfaces Two HS USB 2.0 interfaces, with on-chip HS PHY

Innovative Quad SPI Flash interface (SPIFI) State-configurable timer (SCT) subsystem AES decryption with 128-bit secure OTP memories for key storage Four reduced-power modes: sleep, deep-sleep, power-down, deep

power-down

Ultra-low-leakage 90 nm process Pin-compatibility with Cortex-M4 LPC4300 series

Operating at speeds up to 150 MHz, the LPC1800 series is the fastest Cortex-M3 on the market. These high-performance devices feature advanced peripherals, such as Ethernet, high-speed USB 2.0

Host/OTG/Device, LCD controller, and CAN 2.0B. They integrate up to 1 MB of Flash, up to 200 KB of SRAM, 10-bit A/D and D/A converters, and an internal RC oscillator. The 256-bit-wide Flash memory architecture reduces power consumption, by minimizing memory fetches, and maximizes the performance of the core processor. The LPC1800 series is pin-for-pin compatible with the Cortex-M4 LPC4300 series.


LPC18xx

FlashUp to 1 MB Dual Bank

SRAMUp to 200 KB

ROMROM / OTP

Bus System


4 x UART

2 x SSP/SPI

2 x I2C

2 x I2S

2 x HSUSB 2.0

EthernetMAC

SPI FlashInterface

2 x CAN 2.0B

LCDController

SDIO

ExternalMem Ctrl

State ConfigTimer

4 x 32-bitTimers

RTC

AlarmTimer

MPU

NVIC

WIC

DebugTrace

Motor CtrlPWM

Quad EncInterface

SYSTEM

SECURITY

CONFIGURABLE INTERFACES

MEMORYCORE

OTP KeyStorage

2 x 8 Ch10-bit ADC

10-bitDAC

AESDecryption

BrownoutDetector

GPDMA USB PLL

CPU PLL

IRC

Audio PLL

Power-onReset

WatchdogTimer

INTERFACES TIMERS ANALOG

LPC1800: High Speed USB and advanced peripherals

Memory Configurable peripherals

Timers Serial interfaces Analog

Type Flas

h (K

B)

RAM

(KB)

Stat

e-co

nfigu

rabl

e tim

er (S

CT)

No.

of t

imer

s*

PWM

cha

nnel

s

Ethe

rnet

USB

UA

RT

I2 C CA

N

SSP/

SPI

Qua

d SP

I Fla

sh in

terf

ace

(SPI

FI)

I2 S AD

C c

hann

els/

reso

lutio

n

LCD

SD/M

MC

I/O

pin

s

Exte

rnal

bu

s in

terf

ace

Package

5 6 1 2 4 2 2 2 • 2 2x 8ch 10b • • 80 16 to 32 LQFP208, TBGA256/180

5 6 1 2 4 2 2 2 • 2 2x 8ch 10b • • 80 16 to 32 LQFP208, TBGA256/180

LPC1850 200 5 6 1 2 4 2 2 2 • 2 2x 8ch 10b • • 80 16 to 32 LQFP208, TBGA256/180

LPC1837 1024 (2x512) 136 5 6 1 2 4 2 2 2 • 2 2x 8ch 10b • 80 16 to 32 LQFP208, TBGA256/180

LPC1833 512 (2x256) 136 5 6 1 2 4 2 2 2 • 2 2x 8ch 10b • 80 16 to 32 LQFP208, TBGA256/180

LPC1830 200 5 6 1 2 4 2 2 2 • 2 2x 8ch 10b • 80 16 to 32 LQFP208, TBGA256/180

LPC1827 1024 (2x512) 136 5 6 1 4 2 2 2 • 2 2x 4-6ch 10b 50 to 64 8 to 16 LQFP144, TBGA100



LPC1822 512(1x512) 104 5 6 1 4 2 2 2 • 2 2x 4-6ch 10b 50 to 64 8 to 16 LQFP144, TBGA100

LPC1820 168 5 6 1 4 2 2 2 • 2 2x 4-6ch 10b 50 to 64 8 to 16 LQFP144, TBGA100

LPC1817 1024 (2x512) 136 5 6 4 2 2 2 • 2 2x 4-6ch 10b 50 to 64 8 to 16 LQFP144, TBGA100



LPC1812 512(1x512) 104 5 6 4 2 2 2 • 2 2x 4-6ch 10b 50 to 64 8 to 16 LQFP144, TBGA100

LPC1810 136 5 6 4 2 2 2 • 2 2x 4-6ch 10b 50 to 64 8 to 16 LQFP144, TBGA100



nameManf. Part. No.

136 kB SRAM, CAN, AES, SPIFI, SCT SOT926-1 TFBGA100 LPC1810FET100

136 kB SRAM, HS USB on-chip PHY, CAN, AES, SPIFI, SCT

SOT926-1 TFBGA100 LPC1820FET100

200 kB SRAM, 2 HS USB on-chip PHY, Ethernet, CAN, AES, SPIFI, SCT


200 kB SRAM, 2 HS USB on-chip PHY, Ethernet, CAN, AES, SPIFI, SCT

SOT740-2 LBGA256 LPC1830FET256

200 kB SRAM, 2 HS USB on-chip PHY, Ethernet, LCD, CAN, AES,

SPIFI, SCTSOT740-2 LBGA256 LPC1850FET256


OTP KeyStorage

2 x 8 Ch10-bit ADC

10-bitDAC

AESDecryption

BrownoutDetector

GPDMA USB PLL

CPU PLL

IRC

Audio PLL

Power-onReset

WatchdogTimer


LPC4300 seriesIn the LPC4300 series, the Cortex-M4 processor combines the benefits of a microcontroller with high-performance digital signal processing features such as single-cycle MAC, Single Instruction

Multiple Data (SIMD) techniques, saturating arithmetic, and a floating point unit. The Cortex-M0 coprocessor off-loads many of the data movement and I/O handling duties that can drain the bandwidth of the Cortex-M4 core. The 256-bit-wide Flash memory architecture reduces power consumption, by minimizing fetches, and maximizes the performance of the core processor. The LPC4300 series is pin-for-pin compatible with the LPC1800 Cortex-M3 series.

4. LPC4300: World’s first dual-core DSCs

LPC4300 seriesIn the LPC4300 series, the Cortex-M4 processor combines the benefits of a microcontroller with high-performance digital signal processing features such as single-cycle MAC, Single Instruction


4. LPC4300: World’s first dual-core DSCs

World’s first dual-core DSCsThe LPC4300 series, the world’s first family of asymmetrical, dual-core digital signal controllers (DSCs), combine high-performance, low-power Cortex-M4 and Cortex-M0 cores with a unique set of configurable peripherals. They let you develop sophisticated DSP and MCU applications quickly, using one architecture and one development environment.For added design flexibility, the LPC4300 series is pin-compatible with the Cortex-M3 LPC1800 series.

Cortex-M4

SIGNAL PROCESSING

PERFORMANCE CONFIGURABLEPERIPHERALS

EASE OF USECONNECTIVITY

4. Cortex-M4: Extending ARM MCUs with DSP capability

4.


coRteX-M4: eXtenDing ARM Mcus WitH DsP cAPABilitY

In the LPC4300 series, the Cortex-M4 processor

combines the benefi ts of a microcontroller with

high-performance digital signal processing

features such as single-cycle MAC, Single

Instruction Multiple Data (SIMD) techniques,

saturating arithmetic, and a fl oating point unit. The Cortex M-0

coprocessor off-loads many of the data movement and I/O handling

duties that can drain the bandwidth of the Cortex-M4 core. The

256-bit-wide Flash memory architecture reduces power consumption, by

minimising fetches, and maximises the performance of the core processor.


nameManf. Part. No.

168 kB SRAM, CAN, AES, SPIFI, SGPIO, SCT


200 kB SRAM, HS USB with on-chip PHY, CAN, AES, SPIFI, SGPIO, SCT


264 kB SRAM, 2 HS USB with on-chip PHY, Ethernet, CAN, AES,

SPIFI, SGPIO, SCTSOT740-2 LBGA256 LPC4330FET256

264 kB SRAM, 2 HS USB with on-chip PHY, Ethernet, LCD, CAN,

AES, SPIFI, SGPIO, SCTSOT740-2 LBGA256 PLC4350FET256

World’s fi rst dual-core DscsThe LPC4300 series, the world’s fi rst family of asymmetrical, dual-core digital signal controllers (DSCs), combine high-performance,

low-power Cortex-M4 and Cortex-M0 cores with a unique set of confi gurable peripherals. They let you develop sophisticated DSP

and MCU applications quickly, using one architecture and one development environment. For added design fl exibility, the LPC4300

series is pin-compatible with the Cortex-M3 LPC1800 series.


SE-7

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DeVeloPMent tools

nXP’s uniQue, loW-cost toolcHAin

Features• 150 MHz dual-core architecture - Cortex-M4 core with hardware fl oating-point unit - Cortex-M0 asymmetrical coprocessor• Up to 1 MB dual-bank Flash, up to 264 KB SRAM, up to 4 KB EEPROM• LCD controller with display resolution up to 1024 x 768 pixels• 10/100T Ethernet MAC with MII and RMII interfaces• Two HS USB 2.0 interfaces, with on-chip HS PHY• External memory controller • Memory protection unit• Innovative Quad SPI Flash interface (SPIFI)• State-configurable timer (SCT) subsystem • AES decryption with 128-bit secure OTP memories for key storage• Four reduced-power modes: sleep, deep sleep, power-down, deep power-down• Up to 164 GPIO, with confi gurable serial GPIO (SGPIO)• Pin-compatibility with Cortex-M3 LPC1800 series

Evaluate, explore, develop• An end-to-end tool for less that $30• Eclipse-based IDE• Intuitive, NXP-designed user interface• Optimised libraries• LPC-Link JTAG/SWD debug probe• Target boards• Linux version now available• Supports all Cortex-M devices

Thin groundbreaking development platform,

created by NXP exclusively for its Cortex-M0

and Cortex-M3 microcontrollers, takes you

from evaluation all the way through to product

development for less than $30. Designed for simplicity and ease of use,

it features a powerful Eclipse-based IDE with a special, NXP-designed

user interface. Also included are an optimised Cortex M-0 compiler with

libraries, an LPC-Link JTAG/SWD debug probe, and target boards. A Linux

version is also available.

LPCXpresso users can evaluate, explore, and develop within a single,

easy-to-use interface while retaining all the advanced features associated

with powerful and expensive tools. More than 15,000 LPCXpresso

boards have already shipped, and there are more than 1,000 community

members on the LPCXpresso forum.

For more information, please visit:

www.nxp.com/lpcxpresso

www.nxp.com/lpcxpresso-support

www.nxp.com/lpcxpresso-forum

Better tools make better designsNXP’s entire ARM portfolio works with a single MCU toolchain. That means you get to use a familiar set of tools no matter what

product or architecture you choose.


NSW+61 2 9893 9400


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Auckland+64 9 443 9500


22

150 MHz dual-core architecture - Cortex-M4 core with hardware floating-point unit - Cortex-M0 asymmetrical coprocessor Up to 1 MB dual-bank Flash, up to 264 KB SRAM, up to 4 KB EEPROM

LCD controller with display resolution up to 1024 x 768 pixels 10/100T Ethernet MAC with MII and RMII interfaces Two HS USB 2.0 interfaces, with on-chip HS PHY


power-down Up to 164 GPIO, with configurable serial GPIO (SGPIO) Pin compatibility with Cortex-M3 LPC1800 series

LPC43xx


SRAMUp to 264 KB

ROMROM /OTP

Bus System


ARMCortex-M0

Up to 150 MHz

Floating Point Unit

4 x UART

3 x SSP/SPI

2 x I2C

2 x I2S

2 x HSUSB 2.0

EthernetMAC

SPI FlashInterface

CAN 2.0B

LCDController

SDIO

ExternalMem Ctrl

State ConfigTimer

SerialGPIO

4 x 32-bitTimers

RTC

AlarmTimer

MPU

NVIC

NVICIPC

WIC

DebugTrace

Motor CtrlPWM

Quad EncInterface

SYSTEM

SECURITY


MEMORYCORE SUBSYSTEM

OTP KeyStorage

2 x 8 Ch10-bit ADC

10-bitDAC

AESDecryption

BrownoutDetector

GPDMA Audio PLL

USB PLL

CPU PLL

IRC

Power-onReset

WatchdogTimer


In the LPC4300 series, the Cortex-M4 processor combines the benefits of a microcontroller with high-performance digital signal processing features such as single-cycle MAC, Single Instruction


23

Type

MemoryConfigu-rable pe-ripherals

Timers Serial interfaces Analog

Flas

h (K

B)

RAM

(KB)

Stat

e-co

nfigu

rabl

e tim

er (S

CT)

Seria

l GPI

O (S

GPI

O)

No.

of t

imer

s

PWM

cha

nnel

s

Ethe

rnet

USB

UA

RT

I²C

CA

N

SPI

SSP/

SPI

Qua

d SP

I Fla

sh in

terf

ace

(SPI

FI)

I²S

AD

C c

hann

els/

reso

lutio

n

LCD

SD/M

MC

I/O

pin

s

Exte

rnal

bus

inte

rfac

e

Package

5 6 1 2 4 2 2 1 2 • 2 2x 8ch 10b • • 146 16 to 32 LQFP208, TBGA256/180

LPC4353 512 (2x256) 136 5 6 1 2 4 2 2 1 2 • 2 2x 8ch 10b • • 146 16 to 32 LQFP208, TBGA256/180

LPC4350 264 5 6 1 2 4 2 2 1 2 • 2 2x 8ch 10b • • 146 16 to 32 LQFP208, TBGA256/180

LPC4337 1024 (2x512) 136 5 6 1 2 4 2 2 1 2 • 2 2x 8ch 10b • 146 16 to 32 LQFP208, TBGA256/180

LPC4333 512 (2x256) 136 5 6 1 2 4 2 2 1 2 • 2 2x 8ch 10b • 146 16 to 32 LQFP208, TBGA256/180

LPC4330 264 5 6 1 2 4 2 2 1 2 • 2 2x 8ch 10b • 146 16 to 32 LQFP208, TBGA256/180

LPC4327 1024 (2x512) 136 5 6 1 4 2 2 1 2 • 2 2x 4-6ch 10b up to 64 8 to 16 LQFP144, TBGA100



LPC4322 512(1x512) 104 5 6 1 4 2 2 1 2 • 2 2x 4-6ch 10b up to 64 8 to 16 LQFP144, TBGA100

LPC4320 200 5 6 1 4 2 2 1 2 • 2 2x 4-6ch 10b up to 64 8 to 16 LQFP144, TBGA100

LPC4317 1024 (2x512) 136 5 6 4 2 2 1 2 • 2 2x 4-6ch 10b up to 64 8 to 16 LQFP144, TBGA100



LPC4312 512(1x512) 104 5 6 4 2 2 1 2 • 2 2x 4-6ch 10b up to 64 8 to 16 LQFP144, TBGA100

LPC4310 168 5 6 4 2 2 1 2 • 2 2x 4-6ch 10b up to 64 8 to 16 LQFP144, TBGA100

LPC4300: World’s first dual-core DSCs

22

150 MHz dual-core architecture - Cortex-M4 core with hardware floating-point unit - Cortex-M0 asymmetrical coprocessor Up to 1 MB dual-bank Flash, up to 264 KB SRAM, up to 4 KB EEPROM

LCD controller with display resolution up to 1024 x 768 pixels 10/100T Ethernet MAC with MII and RMII interfaces Two HS USB 2.0 interfaces, with on-chip HS PHY


power-down Up to 164 GPIO, with configurable serial GPIO (SGPIO) Pin compatibility with Cortex-M3 LPC1800 series

LPC43xx


SRAMUp to 264 KB

ROMROM /OTP

Bus System


ARMCortex-M0

Up to 150 MHz

Floating Point Unit

4 x UART

3 x SSP/SPI

2 x I2C

2 x I2S

2 x HSUSB 2.0

EthernetMAC

SPI FlashInterface

CAN 2.0B

LCDController

SDIO

ExternalMem Ctrl

State ConfigTimer

SerialGPIO

4 x 32-bitTimers

RTC

AlarmTimer

MPU

NVIC

NVICIPC

WIC

DebugTrace

Motor CtrlPWM

Quad EncInterface

SYSTEM

SECURITY


MEMORYCORE SUBSYSTEM

OTP KeyStorage

2 x 8 Ch10-bit ADC

10-bitDAC

AESDecryption

BrownoutDetector

GPDMA Audio PLL

USB PLL

CPU PLL

IRC

Power-onReset

WatchdogTimer


In the LPC4300 series, the Cortex-M4 processor combines the benefits of a microcontroller with high-performance digital signal processing features such as single-cycle MAC, Single Instruction



LPC4300: World’s first dual-core DSCs

21

SIGNAL PROCESSING

PERFORMANCE CONFIGURABLEPERIPHERALS

EASE OF USECONNECTIVITY

Four reduced-power modes: sleep, deep-sleep, power-down, deep power-down

Up to 164 GPIO, with configurable serial GPIO (SGPIO) Pin compatibility with Cortex-M3 LPC1800 series

Description order code

LPCXpresso board for LPC1343 OM11048



LPCXpresso board for LPC11C2x OM13012

lPcXpresso supports all cortex-M devices


39

Better tools make better designsOur entire ARM portfolio works with a single MCU toolchain. That means you get to use a familiar set of tools no matter what product or architecture you choose. Plus, because we have such an extensive range of options to choose from, you can be certain you’ll be working with the best. Whether you opt for one of our custom-developed tools or software from a third-party partner, you’ll be able to explore new ideas and get to market faster than ever. The third-party tools listed here are available for purchase through NXP-authorized dealers. This is just a partial list; for a complete list, go to www.nxp.com and enter “ARM Development Tools” in the search field.

NXP ARM tool solutions

and others

Fully FeaturedDevelopment Tools

Online RapidPrototyping Tool

NXP’s Low costDevelopment Tool Platform(under $30)

7. Development tools

40

NXP's unique, low-cost toolchain This groundbreaking development platform, created by NXP exclusively for its Cortex-M0 and Cortex-M3 microcontrollers, takes you from evaluation all the way through to product development for less than $30. Designed for simplicity and ease of use, it features a powerful Eclipse-based IDE with a special, NXP-designed user interface. Also included are an optimized Cortex-M0 compiler with libraries, an LPC-Link JTAG/SWD debug probe, and target boards. A Linux version is also available.

LPCXpresso users can evaluate, explore, and develop within a single, easy-to-use interface while retaining all the advanced features associated with powerful and expensive tools. More than 15,000 LPCXpresso boards have already shipped, and there are more than 1,000 community members on the LPCXpresso forum.

For more information, please visit:www.nxp.com/lpcxpressowww.nxp.com/lpcxpresso-supportwww.nxp.com/lpcxpresso-forum

Evaluate, explore, develop An end-to-end tool for less than $30 Eclipse-based IDE Intuitive, NXP-designed user interface Optimized libraries LPC-Link JTAG/SWD debug probe Target boards Linux version now available Supports all Cortex-M devices

LPCXpresso

HS USB Interface

powered by

LPC1100LPC11C00LPC11U00LPC1200

LPC1300LPC1700

USB

USB

CAN

-M3

-M0

LPCXpresso supports all Cortex-M devices

7. LPCXpresso toolchain

LPCXpresso selection guide

Order number Price (USD) Price (EURO) Description

OM11048 $ 29 € 20 LPCXpresso board for LPC1343



OM13012 $ 29 € 20 LPCXpresso board for LPC11C2x

7.

coRteX-M4 lPc4300 seRies coNt.

ARM coRteX / DeVeloPMent tools

SE-8

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41

This remarkable online prototyping tool, co-developed by NXP and ARM, is an industry first. It provides a tightly coupled combination of hardware and software, so it’s easy to explore design ideas quickly. New users can get started in just minutes, and compiling the first program can take as little as 60 seconds. The Cortex version of mbed uses an LPC1768 Cortex-M3 device. For more information, please visit http://mbed.org.

Drag-and-drop programming, with the board represented as a USB drive

Easy-to-use online tools - Web-based C/C++ programming environment - Uses the ARM RealView compile engine - API-driven development using libraries with intuitive interfaces - Comprehensive help and online community

Benefits Get started right away, with nothing to install Get working fast, using high-level APIs Explore, test, and demonstrate ideas more effectively Write clean, compact code that’s easy to modify Log in from anywhere, on Windows, Mac, or Linux

The mbed rapid prototyping tool

mbed prototyping tool

mbed selection guide


OM11043 $ 60 € 41 mbed LPC1768 board

Code Red Technologies produces innovative and powerful development tools for ARM-based 32-bit microcontrollers, enabling embedded systems designers to get up and running with their applications in just minutes instead of weeks. We have developed our own unique technology to provide unprecedented levels of visibility into target systems, enabling the rapid development and debugging of fully featured embedded applications. Our Red Suite family includes the Red Probe+ debug probe, which provides high levels of visibility into target systems so developers can quickly debug their embedded applications.

Code Red Technologies1119 Diamond StreetSan Francisco, CA 94114USA

Phone (Europe): +44 1223 515768Phone (US): +1 415 420 2467Email: [email protected]://www.code-red-tech.com

Code Red Technologies

Highlighted products


OM11048 $ 280 € 200 Code Red LPC1768 eval board

N/A $256 € 176 Red Suite 3 IDE upgrade (256 K)

N/A $512 € 353 Red Suite 3 IDE upgrade (512 K)

RAPiD PRototYPing

Features• Convenient form-factor: 40-pin DIP, 0.1-inch pitch• Drag-and-drop programming, with the board represented as a USB drive• Best-in-class Cortex-M3 hardware - 100 MHz ARM with 64 KB of SRAM, 512 - Ethernet, USB OTG - SPI, I2C, UART, CAN - GPIO, PWM,ADC, DAC• Easy-to-use online tools - Web-based C/C++ programming environment - Uses the ARM RealView compile engine -API-driven development using libraries with intuitive interfaces - Comprehensive help and online community

Benefi ts• Get started right away, with nothing to install• Get working fast, using high-level APIs• Explore, test, and demonstrate ideas more effectively • Write clean, compact code that’s easy to modify• Log in from anywhere, on Windows, Mac, or Linux

This remarkable online prototyping tool, co-developed by NXP and ARM,

is an industry fi rst. It provides a tightly coupled combination of hardware

and software, so it’s easy to explore design ideas quickly. New users can

get started in just minutes, and compiling the fi rst program can take

as little as 60 seconds. The Cortex version of mbed uses an LPC1768

Cortex-M3 device. For more information, please visit http://mbed.org.


mbed LPC1768 board OM11043

the mbed rapid prototyping tool

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45

IAR Systems

IAR Systems is the world’s leading supplier of software tools for embedded systems that enable large and small companies, mainly in the areas of industrial automation, medical devices, consumer electronics, and automotive products, to develop premium products. IAR Systems have a long co-operation with NXP Semiconductors and extensive support of their ARM and Cortex devices. For software engineers who need professional yet easy-to-use development tools for embedded systems, IAR Embedded Workbench is an integrated development environment that generates very efficient code. IAR Embedded Workbench is the world-leading C/C++ compiler and debugger tool suite for applications that use ARM-based microcontrollers.

IAR Systems AB P.O. Box 23051 SE-750 23 Uppsala SWEDEN

Phone: +46 18 16 78 00 Fax: +46 18 16 78 38 www.iar.com

7. IAR Systems



OM11085 $ 139 € 100 IAR LPC1114 KS board

OM13003 $ 139 € 120 IAR LPC11C1x eval board



OM13013 $ 183 € 129 IAR LPC1200 KSK with j-link lite

46

Keil - An ARM Company

Keil develops, manufactures, and distributes embedded software development tools for the 8051, 251, ARM, and XC16x/C16x/ST10 microcontroller families. Keil provides ANSI-C compilers, Macro Assemblers, real-time executives, debuggers and simulators, integrated environments, and evaluation boards. Since its beginning, Keil has driven the industry to new heights with advanced software technology. Our constant, hard-driving research has paid off time and again as we continue to develop innovative products that make product development easier. In October 2005, Keil (Keil Elektronik GmbH in Munich, Germany, and Keil Software, Inc. in Plano, Texas) was acquired by ARM.

Keil - An ARM CompanyBretonischer Ring 16D-85630 GrasbrunnGERMANY

Phone (Europe): +49 89/456040-20Phone (US): +1 972 312 1107www.keil.com

7. Keil - An ARM Company



OM11032 $ 320 € 250 Keil MCB1768 eval board





OM13004 $ 150 € 106 Keil MCB11C1x eval board

OM13011 $ 150 € 106 Keil LPC1200 eval boardMany more third-party tools are available,

but not listed here. Please contact us for

more information.


IAR LPC1114 KS board OM11085

IAR LPC11C1x eval board OM13003



IAR LPC1200 KS with j-link lite OM13013

www.iar.com

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43





OM11083 $ 125 € 89 EA base board for LPCXpresso/mbed


OM13009 $ 415 € 299 EA motor-control kit for LPCXpresso


44



OM11041 $ 69 € 49 Hitex LPC1313 stick



IAR Systems




7. IAR Systems





















OM13011 $ 150 € 106 Keil LPC1200 eval board

NSW+61 2 9893 9400


Victoria+61 3 9775 4778

Auckland+64 9 443 9500


45

IAR Systems




7. IAR Systems








46
















Keil MCB1768 eval board OM11032





Keil MCB11C1x eval board OM13004

Keil LPC1200 eval board OM13011

NSW+61 2 9893 9400


Victoria+61 3 9775 4778

Auckland+64 9 443 9500



43





OM11083 $ 125 € 89 EA base board for LPCXpresso/mbed


OM13009 $ 415 € 299 EA motor-control kit for LPCXpresso


44






IAR Systems




7. IAR Systems






















www.keil.com

DeVeloPMent tools coNt.

DeVeloPMent tools

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USB in-circuit ProgrammerUSB-ICP supports In-System Programming

(ISP) on NXP’s ARM7 LPC2xxx

microcontroller family. In-System

Programming uses a two-wire serial

interface to program and erase ISP enabled

microcontroller devices without removing

them from the system. The ISP function

uses only six pins: VCC, GND, RXD, TXD,

P0.14 (or P2.10) and RESETn. A small

connector is all that is needed to interface your ISP application to the

USB-ICP programmer.

SAB-TFBGAxxx adapter boards are also available for devices in 100pin,

180pin, and 208pin TFBGA packages. When used in conjunction with the

USB-ICB-LPC2K, these facilitate programming devices in packages that

normally are diffi cult to handle. For more information, visit our website at

www.teamfdi.com

USB-icP USB-icP coNt.

tEchNicAl DEtAilS

highlights• USB port powered so no external power supply required• Supports usb 2.0• Plugs directly into any standard usb port – great for laptops• Supports nxp’s arm 7 lpc2xxx microcontroller family• Uses nxp’s free fl ash magic software - downloaded from the web

USB-icP Kit includes:• USB-ICP dongle• Standard 18” cable allowing direct connection to the user’s application• Mini ISP cable for direct programming of ARM7DIMM from ARM Touch Screen LCD kits, ARM-57TS-LPC2478• ISP design guide for the user’s target board

Now supports ARM Cortex-M3 LPC17xx Devices

USB-ICP uses a standard RJ-45 for connection to the target cable.

Indicator LEDs:Green – “Link” Indicates the USB-ICP has been confi gured by the host PC

Yellow –“ACT” indicates USB Activity (Rx/Tx)

Target SchematicThe ISP function uses only six pins: VCC, GND, RXD, TXD, P0.14 (or P2.10) and RESETn. The simple example circuit above is all that must be added to the user’s application to use ISP with USB-ICP. (Consult your specifi c device datasheet for details on ISP connectivity)

Example user Target Board (not part of kit)

6-pin 0.1” Header Standard ISP

6-pin 1mm Header Mini-ISP

VCC

RESETn123456

P0.14

RXDTXD

DeVeloPMent tools


6pin 0.1” vertical through hole 22-03-2061

6pin 0.1” vertical surface mount 68301-1017

6pin 0.1” right angle through hole 22-05-2061

6pin 1mm right angle Mini-ISP SM06B-SHLS-TF


NXP LPC9xx USB-ICP-LPC9xx

NXP P89C51 Flash USB-ICP-80C51ISP

NXP ARM LPC2xxx & LPC17XX USB-ICP-LPC2K


Socket Adapter Bd (LPC2364/68) SAB-TFBGA100

Socket Adapter Bd (LPC2458) SAB-TFBGA180

Socket Adapter Bd (LPC2468/78) SAB-TFBGA208

USB icP Product Family

other USB icP Products

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NXP’s microcontroller offering combines the highest performance in Flash

with the lowest power consumption in the smallest packages.

NXP MicrocoNtrollErS

lPc 2000, ArM7

FlASh 128KB

FlASh 16KB

FlASh 256KB

FlASh 32KB

FlASh 64KB

FlASh 8KB

Package rAM (bytes) timers PWMs Serial interface ADcs i/o Pins Manf. Part No.

LQFP48 2K 4x32/2x16 - 2xUART; 2x12C; 2xSPI 8-ch 10-bit 32 LPC2101FBD48-S


LQFP48 4K 4x32 bit/2x16 bit - 2xUART; 2xI²C; 2xSPI 8-ch 10-bit 32 LPC2102FBD48-S


LQFP48 8K 4x32 bit/2x16 bit - 2xUART; 2xI²C; 2xSPI 8-ch 10-bit 32 LPC2103FBD48-S

LQFP64 8K 4 x 32 bit 6-ch 2xUART; 2xI²C; 2xSPI 8-ch 10-bit 47 LPC2131FBD64/01-S

LQFP64 8K 4 x 32 bit 6-ch USB 2.0; 2xUART; 2xI²C; 2xSPI 6-ch 10-bit 45 LPC2141FBD64-S


LQFP64 16K 4 x 32 bit 6-ch 2xUART; I²C; 2xSPI; 2xCAN 4-ch 10-bit 46 LPC2109FBD64/01-S

LQFP64 16K 4 x 32 bit 6-ch 2xUART; 2xI²C; 2xSPI 8-ch 10-bit 47 LPC2132FBD64/01 -S

HVQFN64 16K 4 x 32 bit 6-ch 2xUART; 2xI²C; 2xSPI 8-ch 10-bit 47 LPC2132FHN64/01-S



LQFP64 16K 4 x 32 bit 6-ch 2xUART; I²C; 2xSPI 4-ch 10-bit 46 LPC2124FBD64/01-S


LQFP64 16K 4 x 32 bit 6-ch 2xUART; I²C; 2xSPI; 4xCAN 4-ch 10-bit 46 LPC2194HBD64/01-S



TFBGA144 16K 4 x 32 bit 6-ch 2xUART; I²C; 2xSPI; 2xCAN 8-ch 10-bit 112 LPC2292FET144/01-S

LQFP144 16K 4 x 32 bit 6-ch 2xUART; I²C; 2xSPI; 4xCAN 8-ch 10-bit 112 LPC2294HBD144/01-S



LQFP100 58K 6 x 32 bit 6-ch USB 2.0; ENET; 2xCAN; I²S; 4xUART; 3xI²C; 3xSPI 6-ch 10-bit 70 LPC2366FBD100-S


LQFP48 16K 4 x 32 bit 6-ch 2xUART; I²C; SPI - 32 LPC2104BBD48-S

LQFP48 16K 4 x 32 bit 6-ch 128K FL/16K RAM/2 UART/I2C/SPI - 32 LPC2104FBD48/01-S





LQFP48 64K 4 x 32 bit 6-ch 2xUART; I²C; SPI - 32 LPC2106FBD48-S

HVQFN48 64K 4 x 32 bit 6-ch 128K FL/64K RAM/2 UART/I2C/SPI - 32 LPC2106FHN48/01-S

HVQFN48 64K 4 x 32 bit 6-ch 2xUART; I²C; SPI - 32 LPC2106FHN48-S






LQFP100 34K 6 x 32 bit 6-ch USB 2.0; ENET 2xCAN; I²S; 4xUART 3xI²C; 3xSPI 6-ch 10-bit 70 LPC2364FBD100-S

ARM7 MicRocontRolleRs

http://www.activecomponents.com

mailto:sales%40activecomponents.com?subject=Enquiry

SE-11

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ARM7 / ARM9 MicRocontRolleRs


TFBGA180 64K 4 x 32 bit - USB 2 HS; UART; I²C 5-ch 10-bit 85 LPC2888FET180


LFBGA320 64K 4 x 32 bit 2-ch USB 2.0; 7xUART; 2xI²C; 2xSPI 3-ch 10-bit 55 LPC3180FEL320


LQFP-208 98K 4 x 32 bit 2x6 ch LCD CONT/ETHNET/USB HOST/OTG 8-ch 10-bit 160 LPC2470FBD208-S

TFBGA-208 98K 4 x 32 bit 2x6 ch LCD CONT/ETHNET/USB HOST/OTG 8-ch 10-bit 160 LPC2470FET208-S

LQFP-208 98K 4 x 32 bit 2x6 ch LCD CONT/ETHNET/USB/512K FL 8-ch 10-bit 160 LPC2478FBD208-S

TFBGA-208 98K 4 x 32 bit 2x6 ch LCD CONT/ETHNET/USB/512K FL 8-ch 10-bit 160 LPC2478FET208-S



LQFP144 64K 4 x 32 bit 6-ch 2xUART; I²C; SPI 8-ch 10-bit 112 LPC2210FBD144/01-S

TFBGA144 64K 4 x 32 bit 6-ch 2xUART; I²C; 2xSPI 8-ch 10-bit 112 LPC2220FET144/G



HVQFN64 32K 4 x 32 bit 6-ch 2xUART; 2xI²C; 2xSPI 16-ch 10-bit 47 LPC2138FHN64/01




LQFP208 98K 6 x 32 bit 2x6-ch USB 2.0; ENET; 2xCAN; I²S; 4xUART; 3xI²C; 3xSPI 8-ch 10-bit 160 LPC2468FBD208-S

TFBGA208 98K 6 x 32 bit 2x6 ch USB 2.0; ENET; 2xCAN; I²S; 4xUART; 3xI²C; 3xSPI 8-ch 10-bit 160 LPC2468FET208-S

lcD coNtrollEr

The LH7 products all have an integrated LCD controller for ease of design.

FlASh 1MB

FlASh 512KB

rAM oNly

lPc 3000, ArM9

lh7, ArM7/ArM9

rAM oNly

Family/core Freq PackagerAM

(bytes)timers PWMs Serial interface ADcs i/o Pins Manf. Part No.

ARM7 84MHz LQFP144 32K 5 x 32 bit 3-ch 3xUART; SPI; SSP; CAN 8-ch 10-bit 76 LH75401N0Q100C0

ARM7 84MHz LQFP144 32K 5 x 32 bit 3-ch 3xUART; SPI; SSP 8-ch 10-bit 76 LH75411N0Q100C0

ARM7 77.4144MHz LQFP176 32K 6 x 32 bit 2-ch 3xUART; SPI; SSP - 64 LH79520N0Q000B1

ARM7 76.205MHz LFBGA208 16K 5 x 32 bit 3-ch USB 2.0; ENET; 3xUART; I²C; SPI; SSP; I²S 10-ch 10-bit 104 LH79524N0F100A1

ARM7 76.205MHz LQFP176 16K 5 x 32 bit 3-ch USB 2.0; ENET; 3xUART; I²C; SPI; SSP; I²S 10-ch 10-bit 86 LH79525N0Q100A1

ARM9 195MHz LFBGA256 16K 5 x 32 bit - USB 2.0; 3xUART; SPI - 60 LH7A400N0F000B5

ARM9 245MHz LFBGA256 16K 5 x 32 bit - USB 2.0; 3xUART; SPI - 61 LH7A400N0F076B5

ARM9 195MHz BGA256 16K 5 x 32 bit - USB 2.0; 3xUART; SPI - 62 LH7A400N0G000B5

ARM9 200MHz LFBGA 80K 3 x 32 bit 2-ch USB 2.0; 3xUART; SPI 9-ch 10-bit 64 LH7A404N0F000B3

ARM9 266MHz LFBGA 80K 3 x 32 bit 2-ch USB 2.0; 3xUART; SPI 9-ch 10-bit 64 LH7A404N0F092B3

lPc 2000, ArM7 coNt.



SE-12

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Victoria+61 3 9775 4778

Auckland+64 9 443 9500



80c51 MicRocontRolleRs

Designed for real-time applications, these microcontrollers are used in

a wide variety of applications, from consumer products and computer

peripherals to automotive systems.

80c51

FlASh 1KB

FlASh 2KB


SO8 128 4 x 16 bit - 2 Analog Comp. 6 P89LPC902FD

DIP8 128 4 x 16 bit - 2 Analog Comp. 6 P89LPC902FN

SO8 128 4 x 16 bit - UART 2 Analog Comp. 6 P89LPC903FD

SO8 128 4 x 16 bit - 1 Analog Comp. 6 P89LPC906FD

SO8 128 4 x 16 bit - UART 1 Analog Comp. 6 P89LPC908FD

HVSON10 128 4 x 16 bit 2-ch 8-bit 4-ch 8-bit 8 P89LPC9102FTK

HVSON10 128 4 x 16 bit - UART 4-ch 8-bit 8 P89LPC9103FTK

TSSOP14 128 4 x 16 bit 2-ch 8-bit UART 4ch 8-bit 10 P89LPC9107FDH

TSSOP14 128 4 x 16 bit 1-ch 8-bit SPI 2 Analog Comp. 12 P89LPC912FDH


TSSOP14 256 2 x 16 bit - UART; I²C; SPI - 13 P89LPC915FDH



TSSOP20 256 4 x 16 bit 2-ch 8-bit UART; I²C 2 Analog Comp. 18 P89LPC920FDH


PLCC44 512 4 x 16 bit 5-ch PCA UART; I²C 32 P89V660FA

PLCC28 768 5 x 16 bit 4-ch CCU UART; I²C; SPI 2x 4-ch 8-bit 26 P89LPC936FA

TSSOP28 768 5 x 16 bit 4-ch CCU UART; I²C; SPI 2x 4-ch 8-bit 26 P89LPC936FDH


PLCC44 1K 4 x 16 bit 5-ch PCA UART; I²C - 32 P89V662FA

TQFP44 1K 4 x 16 bit 5-ch PCA UART; I²C - 32 P89V662FBC

FlASh 16KB

FlASh 32KB

FlASh 4KB

FlASh 8KB


TSSOP20 256 4 x 16 bit 2-ch 8-bit UART; I²C 4-ch 8-bit 18 P89LPC924FDH

TSSOP28 256 4 x 16 bit 2-ch 8-bit UART; I²C; SPI 2 Analog Comp. 26 P89LPC930FDH

TSSOP28 256 4 x 16 bit 2-ch 8-bit UART; I²C; SPI 4-ch 8-bit 26 P89LPC933FDH


DIP20 256 4 x 16 bit 2-ch 8-bit UART; I²C 2 Analog Comp. 18 P89LPC9221FN

TSSOP20 256 4 x 16 bit 2-ch 8-bit UART; I²C 2 Analog Comp. 18 P89LPC922FDH

TSSOP28 256 4 x 16 bit 2-ch 8-bit UART; I²C; SPI 2 Analog Comp. 26 P89LPC931FDH

TSSOP28 256 4 x 16 bit 2-ch 8-bit UART; I²C; SPI 4-ch 8-bit 26 P89LPC934FDH

LQFP64 256 4 x 16 bit 2-ch 8-bit UART; I²C; SPI 2 Analog Comp. 26 P89LPC9401FBD

PLCC44 512 4 x 16 bit 2-ch 8-bit 2xUART; I²C; SPI 8-ch 10-bit 39 P89LPC952FA

LQFP44 512 4 x 16 bit 2-ch 8-bit 2xUART; I²C; SPI 8-ch 10-bit 39 P89LPC952FBD

TSSOP28 768 5 x 16 bit 4-ch CCU UART; I²C; SPI 2 Analog Comp. 26 P89LPC932A1FDH

HVQFN28 768 5 x 16 bit 4-ch CCU UART; I²C; SPI 2 Analog Comp. 26 P89LPC932A1FHN

PLCC28 768 5 x 16 bit 4-ch CCU UART; I²C; SPI 2x 4-ch 8-bit 26 P89LPC935FA

TSSOP28 768 5 x 16 bit 4-ch CCU UART; I²C; SPI 2x 4-ch 8-bit 26 P89LPC935FDH

HVQFN28 768 5 x 16 bit 4-ch CCU UART; I²C; SPI 2x 4-ch 8-bit 26 P89LPC935FHN

PLCC28 768 5 x 16 bit 4-ch CCU UART; I²C; SPI 8-ch 10-bit 26 P89LPC938FA

TSSOP28 768 5 x 16 bit 4-ch CCU UART; I²C; SPI 8-ch 10-bit 26 P89LPC938FDH



SE-13

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PLCC44 1K 3 x 16 bit 2-ch 8-bit UART; SPI - 37 P89CV51RB2FA

TQFP44 1K 3 x 16 bit 2-ch 8-bit UART; SPI - 37 P89CV51RB2FBC

PLCC44 1K 3 x 16 bit 2-ch 8-bit UART; SPI - 37 P89CV51RC2FA

TQFP44 1K 3 x 16 bit 2-ch 8-bit UART; SPI - 37 P89CV51RC2FBC

TQFP44 1K 3 x 16 bit 2-ch 8-bit UART; SPI - 37 P89CV51RD2FBC

TQFP44 1K 4 x 16 bit 5-ch PCA UART - 32 P89LV51RD2BBC

PLCC44 1K 4 x 16 bit 5-ch PCA UART - 32 P89V51RD2FA

TQFP44 1K 4 x 16 bit 5-ch PCA UART - 32 P89V51RD2FBC

DIP40 1K 4 x 16 bit 5-ch PCA UART - 32 P89V51RD2FN

PLCC44 2K 4 x 16 bit 5-ch PCA UART; I²C - 32 P89V664FA

TQFP44 2K 4 x 16 bit 5-ch PCA UART; I²C - 32 P89V664FBC

PLCC44 8K 4 x 16 bit 5-ch PCA UART; I²C - 32 P89C668HBA

LQFP44 8K 4 x 16 bit 5-ch PCA UART; I²C - 32 P89C668HBBD

PLCC44 8K 4 x 16 bit 5-ch PCA UART; I²C - 32 P89C668HFA

FlASh 64KB

80c51 coNt.



SO20 128 2 x 16 bit - UART; I²C - 18 P87LPC762BD

TSSOP20 128 2 x 16 bit - UART; I²C - 18 P87LPC762BDH

DIP20 128 2 x 16 bit - UART; I²C - 18 P87LPC762BN

DIP20 128 2 x 16 bit - UART; I²C - 18 P87LPC762FN


PLCC44 128 3 x 16 bit - UART - 32 P87C51SBAA

DIP40 128 3 x 16 bit - UART - 32 P87C51SBPN

PLCC44 128 3 x 16 bit - UART - 32 P87C51X2FA

SO20 128 2 x 16 bit - UART; I²C - 18 P87LPC764BD

TSSOP20 128 2 x 16 bit - UART; I²C - 18 P87LPC764BDH

DIP20 128 2 x 16 bit - UART; I²C - 18 P87LPC764BN

DIP20 128 2 x 16 bit - UART; I²C - 18 P87LPC764FN

SO20 128 2 x 16 bit - UART; I²C 4-ch 8-bit 18 P87LPC767BD

DIP20 128 2 x 16 bit - UART; I²C 4-ch 8-bit 18 P87LPC767BN

SO20 128 2 x 16 bit 4-ch UART; I²C 4-ch 8-bit 18 P87LPC768FD

DIP20 128 2 x 16 bit 4-ch UART; I²C 4-ch 8-bit 18 P87LPC768FN

SO20 128 2 x 16 bit - UART; I²C 4-ch 8-bit 18 P87LPC769HD

otP 1KB

otP 2KB

otP 4KB


TSSOP14 128 2x16 bit - UART; I²C - 12 P87LPC760BDH

otP 8KB


PLCC44 256 4 x 16 bit 5-ch PCA UART - 32 P87C51FA-4A

DIP40 256 4 x 16 bit 5-ch PCA UART - 32 P87C51FA-4N


QFP44 256 3 x 16 bit - UART - 32 P87C52SBBB


PLCC44 256 3 x 16 bit - UART - 32 P87C52SFAA

PLCC44 256 3 x 16 bit - UART - 32 P87C52UBAA

PLCC44 256 3 x 16 bit - UART - 32 P87C52X2BA

DIP40 256 3 x 16 bit - UART - 32 P87C52X2BN

PLCC44 256 3 x 16 bit - UART - 32 P87C52X2FA

PLCC68 256 3 x 16 bit 2-ch UART; I²C 8-ch 10-bit 48 P87C552SBAA



SE-14

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Victoria+61 3 9775 4778

Auckland+64 9 443 9500



80c51 coNt.


otP 16KB


PLCC44 256 4 x 16 bit 5-ch PCA UART - 32 P87C51FB-4A

DIP40 256 4 x 16 bit 5-ch PCA UART - 32 P87C51FB-4N



PLCC44 512 4 x 16 bit 5-ch PCA UART - 32 P87C51RB+4A

DIP40 512 4 x 16 bit 5-ch PCA UART - 32 P87C51RB2BN

PLCC68 512 3 x 16 bit 2-ch UART; I²C 8-ch 10-bit 48 P87C554SBAA

PLCC68 512 3 x 16 bit 2-ch UART; I²C 8-ch 10-bit 48 P87C554SFAA

PLCC44 512 3 x 16 bit 2-ch UART; I²C; CAN 6-ch 10-bit 32 P87C591VFAA

PLCC44 512 4 x 16 bit 5-ch PCA UART; I²C - 32 P87C660X2FA

otP 32KB

otP 64KB

otP 96KB


PLCC44 512 4 x 16 bit 5-ch PCA UART 32 P87C51RC2FA

PLCC44 512 3 x 16 bit - 2xUART - 32 PXAG37KBA

PLCC44 512 3 x 16 bit - 2xUART - 32 PXAG37KFA

LQFP80 1K 4 x 16 bit 5-ch PCA UART; I²C 8-ch 8-bit 50 PXAS37KBBE


PLCC44 2K 4 x 16 bit 5-ch PCA 2 UARTs; SPI 34 P87C51MB2BA/02


PLCC44 3K 4 x 16 bit 5-ch PCA 2 UARTs; SPI 34 P87C51MC2BA/02






PLCC44 256 3 x 16 bit - UART - 32 P80C32UBAA

PLCC44 256 3 x 16 bit - UART - 32 P80C32UFAA

PLCC68 256 3 x 16 bit 2-ch UART; I²C 8-ch 10-bit 48 P80C552EBA

QFP80 256 3 x 16 bit 2-ch UART; I²C 8-ch 10-bit 48 P80C552EBB

PLCC68 256 3 x 16 bit 2-ch UART; I²C 8-ch 10-bit 48 P80C552EFA

PLCC68 256 3 x 16 bit 2-ch UART; I²C 8-ch 10-bit 48 P80C552IBA

LQFP64 512 3 x 16 bit 2-ch UART; I²C 7-ch 10-bit 48 P80C554SFBD

PLCC68 512 3 x 16 bit 2-ch UART; CAN 8-ch 10-bit 48 P80C592FFAA

LQFP44 512 3 x 16 bit - 2xUART - 32 PXAG30KBBD

PLCC68 1K 4 x 16 bit 5-ch PCA 2xUART; I²C 8-ch 8-bit 50 PXAS30KBA

LQFP80 1K 4 x 16 bit 5-ch PCA 2xUART; I²C 8-ch 8-bit 50 PXAS30KBBE

PLCC68 1K 4 x 16 bit 5-ch PCA 2xUART; I²C 8-ch 8-bit 50 PXAS30KFA

rAM oNly

SE-15

NSW+61 2 9893 9400


Victoria+61 3 9775 4778

Auckland+64 9 443 9500



i2c DEVEloPMENt BoArDS

i2c-BUS:thE SEriAl rEVolUtioN

I2C-bus: The serial revolution

By replacing complex parallel interfaces with a straightforward yet powerful serial structure, the I2C-bus revolutionized chip-to-chip communications.

Invented by NXP (Philips) more than 30 years ago, the I2C-bus uses a simple two-wire format to carry data one bit at a time. It performs inter-chip addressing, selection, control, and data transfer. Speeds are up to 400 kHz (Fast-mode), 1 MHz (Fast-mode Plus), 3.4 MHz (High Speed-mode), or 5 MHz (Ultra Fast-mode).

The I C-bus shrinks the IC footprint and leads to lower IC costs. Plus, since far fewer copper traces are needed, it enables a smaller PCB, reduces design complexity, and lowers system cost.

SDA

SCL

uC

A0A11010A2A1A0R/WA2New function address

1010011 R/W

New function addressas assigned

Newfunction

MCUMCU RTCLCDI/O A/DD/A

C-bus devices are available in a wide range of functions. Each slave device has its own I2C-bus address, selectable using address pins set high (1) or low (0). Information is transmitted byte by byte, and each byte is acknowledged by the receiver. There can be multiple devices on the same bus, and more than one IC can act as master. The master role is typically played by a microcontroller.

Our I C-bus website (www.nxp.com/interface)is a valuable resource for device information and training programs. It gives you direct access to a comprehensive handbook, application notes, information about evaluation kits and training materials, links to application and design support, and more.

The I C Fm+ development board and daughter cards make it easy to program new peripherals and are a quick way to learn about the I2C-bus protocol.

OM6275 I2C 2005-1 evaluation board with OM6293

PCA9600 Fm+ 1-MHz bus buffer daughter card

OM6281 PCA9698 Fm+ 40-bit GPIO daughter

card with PCA9530 2-bit LED dimmer

OM6290 LCD driver evaluation board :

PCF8576D, PCF2119, PCF8531, PCA9633

Parallel Interface I2C Serial Interface

MasterWrite data SlaveSDA

SCL

transmitterPW dataslave address data AA A receiver

SDA

SCL

transmitterreceiver

Read data

PR dataslave address data AA A

< n data bytes >

last data byte

S = Start condition R/W = read/write

A = Acknowledge A = Not acknowledge P = Stop condition

The master always sends the clock< n data > bytes




The I2C-bus shrinks the IC footprint and leads to lower IC costs. Plus, since far fewer copper traces are needed, it enables a smaller PCB, reduces design complexity, and lowers system cost.

SDA

SCL

uC


1010011 R/W


Newfunction


I2C-bus devices are available in a wide range of functions. Each slave device has its own I2C-bus address, selectable using address pins set high (1) or low (0). Information is transmitted byte by byte, and each byte is acknowledged by the receiver. There can be multiple devices on the same bus, and more than one IC can act as master. The master role is typically played by a microcontroller.

Our I2C-bus website (www.nxp.com/interface)is a valuable resource for device information and training programs. It gives you direct access to a comprehensive handbook, application notes, information about evaluation kits and training materials, links to application and design support, and more.

The I2C Fm+ development board and daughter cards make it easy to program new peripherals and are a quick way to learn about the I2C-bus protocol.






PCF8576D, PCF2119, PCF8531, PCA9633



SCL

transmitterPWS dataslave address data AA A receiver

SDA

SCL

transmitterreceiver

Read data

PRS dataslave address data AA A

< n data bytes >

last data byte





By replacing complex parallel interfaces with a straightforward yet powerful serial structure, the I C-bus revolutionized chip-to-chip communications.



SDA

SCL

uC


1010011 R/W


Newfunction










PCF8576D, PCF2119, PCF8531, PCA9633



SCL


SDA

SCL

transmitterreceiverPR dataslave address data AA A

< n data bytes >

last data byte




C-bus revolutionized chip-to-chip communications.



uC


1010011 R/W


Newfunction










PCF8576D, PCF2119, PCF8531, PCA9633



SCL


SDA

SCL

transmitterreceiver

Read data


< n data bytes >

last data byte








SDA

SCL

uC


1010011 R/W


Newfunction










PCF8576D, PCF2119, PCF8531, PCA9633



SCL


SDA

SCL

transmitterreceiver

Read data


< n data bytes >

last data byte




The I2C Fm+ development boards and daughter cards make it easy to program new peripherals and are a quick way to learn about the I2C-bus protocol.

By replacing complex parellel interfaces with a straightforward yet

powerful serial structure, the I2C-bus revolutionised chip-to-chip

communications.

Invented by NXP (Philips) more than 30 years ago, the I2 C-bus uses a

simple two-wire format to carry data one bit at a time. It performs inter-

chip addressing, selection, control, and data transfer. Speeds are up to

400 kHz (Fast-mode), 1 MHz (Fast-mose Plus), 3.4 MHz (High Speed-

mode), or 5MHz (Ultra Fast-mode).

The I2C-bus shrinks the

IC footprint and leads to

lower IC costs. Plus, since

far fewer copper traces

are needed, it enables

a smaller PCB, reduces

design complexity, and

lowers system cost.

I2C-bus devices are available in a wide range of function. Each slave device has its own I2C-bus address, selectable using address pins set high (1) or

low (0). Information is transmitted byte by byte, and each byte is acknowledged by the receiver. There can be multiple devices on the same bus, and

more than one IC can act as master. The master role is typically played by a microcontroller.

Description order number

I2C 2005-1 evaluation board with OM6293 PCA9600 Fm+ 1-MHz bus

buffer daughter cardOM6275

PCA9698 Fm+ 40-bit GPIO daughter card with PCA9530 2-bit

LED dimmerOM6281

LCD driver evaluation board: PCF8576D, PCF2119, PCF8531,

PCA9633OM6290





SDA

SCL

uC


1010011 R/W


Newfunction










PCF8576D, PCF2119, PCF8531, PCA9633



SCL


SDA

SCL

transmitterreceiverPR dataslave address data AA A

< n data bytes >

last data byte




OM6275

OM6281

OM6290

i2c solutions

SE-16

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Auckland+64 9 443 9500



i2c iNtErFAcE coNtrollErS

i2c BUS rEPEAtErS/hUBS/EXtENDErS

Package Description Manf. Part No.

SO20 400 kHz I2C-bus controller PCA9564D

TSSOP20 400 kHz I2C-bus controller PCA9564PW

TSSOP20 Fast-mode Plus I2C-bus controller with 68-byte buffer PCA9665PW

DIP20 100 kHz I2C-bus controller PCF8584P

SO20 101 kHz I2C-bus controller PCF8584T/2

TSSOP16 UART-to-I2C-master bridge with GPIO SC18IM700IPW


DIP8 Fast-mode I2C bus extender P82B715PN

SO8 Fast-mode I2C bus extender P82B715TD

TSSOP8 Fast-mode bidirectional bus buffer P82B96DP

DIP8 Fast-mode bidirectional bus buffer P82B96PN

SO8 Fast-mode bidirectional bus buffer P82B96TD

SO8 Fast-mode shift DDC buffer with accelerator PCA9507D

TSSOP8 Fast-mode shift DDC buffer with accelerator PCA9507DP

SO8 Fast-mode shift hot-swap I2C bus repeater PCA9508D

SO8 Fast-mode shift bus buffer with current source PCA9509D

TSSOP8 Fast-mode shift bus buffer with current source PCA9509DP

TSSOP8 Fast-mode hot-swap I2C/SMBus bus buffer PCA9510ADP

SO8 Fast-mode hot-swap I2C/SMBus bus buffer PCA9510AD




SO8 Fast-mode shift I2C/SMBus bus buffer PCA9512BD

TSSOP8 Fast-mode shift I2C/SMBus bus buffer PCA9512BDP




TSSOP8 Fast-mode I2C bus repeater PCA9515ADP/DG

TSSOP8 Fast-mode I2C bus repeater PCA9515ADP

SO8 Fast-mode I2C bus repeater PCA9515AD

SO8 Fast-mode I2C bus repeater PCA9515D

TSSOP8 Fast-mode I2C bus repeater PCA9515DP

SO8 Fast-mode shift I2C bus repeater PCA9517AD

TSSOP8 Fast-mode shift I2C bus repeater PCA9517ADP

SO8 Fast-mode (1 MHz) I2C-bus repeater unidirectional clock PCA9525D

TSSOP8 Fast-mode (1 MHz) I2C-bus repeater unidirectional clock PCA9525DP

SO16 Fast-mode 5-channel I2C hub PCA9516AD

TSSOP20 Fast-mode expandable 5-channel I2C hub PCA9518PW

SO16 4-channel Fast-mode Plus fully buffered switch with reset 8-channel PCA9646D

SO16 8-bit I2C Fast-mode Plus 65 mA open-drain GPO with reset PCA9621D


SO16 8-bit I2C Fast-mode quasi-bidirectional GPIO with interrupt and pull-up resistors PCA8574AD

TSSOP16 8-bit I2C Fast-mode quasi-bidirectional GPIO with interrupt and pull-up resistors PCA8574APW

TSSOP16 8-bit I2C Fast-mode quasi-bidirectional GPIO with interrupt and pull-up resistors PCA8574PW

SSOP20 8-bit I2C Fast-mode quasi-bidirectional GPIO with interrupt and pull-up resistors PCA8574TS

TSSOP24 16-bit I2C Fast-mode quasi-bidirectional GPIO with interrupt and PCA8575PW

SO16 8-bit I2C Fast-mode quasi-bidirectional GPIO with pull-up resistors and 2-K EEPROM PCA9500D

TSSOP16 8-bit I2C Fast-mode quasi-bidirectional GPIO with pull-up resistors and 2-K EEPROM PCA9500PW

HVQFN208-bit I2C Fast-mode quasi-bidirectional GPIO with interrupt,

pull-up resistors, and 2-K EEPROM PCA9501BS

SO208-bit I2C Fast-mode quasi-bidirectional GPIO with interrupt,

pull-up resistors, and 2-K EEPROM PCA9501D

TSSOP208-bit I2C Fast-mode quasi-bidirectional GPIO with interrupt,

pull-up resistors, and 2-K EEPROM PCA9501PW

HVQFN24 8-bit I2C /SPI Fast-mode totem-pole GPIO with interrupt and reset PCA9502BS

TSSOP5640-bit I2C Fast-mode totem-pole GPIO with interrupt, reset,

pull-up resistors and output enable PCA9505DGG

i2c GENErAl PUrPoSE iNPUt/oUtPUt (GPio)

i2c solutions



SE-17

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Victoria+61 3 9775 4778

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HVQFN56 40-bit I2C Fast-mode totem-pole GPIO with interrupt, reset, and output enable PCA9506BS

TSSOP56 40-bit I2C Fast-mode totem-pole GPIO with interrupt, reset, and output enable PCA9506DGG

HVQFN16 8-bit I2C Fast-mode totem-pole GPIO with interrupt PCA9534BS

SO16 8-bit I2C Fast-mode totem-pole GPIO with interrupt PCA9534D

TSSOP16 8-bit I2C Fast-mode totem-pole GPIO with interrupt PCA9534PW

HVQFN24 16-bit I2C Fast-mode totem-pole GPIO with interrupt PCA9535BS

SO24 16-bit I2C Fast-mode totem-pole GPIO with interrupt PCA9535CD

HWQFN24 16-bit I2C Fast-mode totem-pole GPIO with interrupt PCA9535CHF

TSSOP24 16-bit I2C Fast-mode totem-pole GPIO with interrupt PCA9535CPW

SO24 16-bit I2C Fast-mode totem-pole GPIO with interrupt PCA9535D

TSSOP24 16-bit I2C Fast-mode totem-pole GPIO with interrupt PCA9535PW

SO8 4-bit I2C Fast-mode totem-pole GPIO with pull-up resistor PCA9536D

TSSOP8 4-bit I2C Fast-mode totem-pole GPIO with pull-up resistor PCA9536DP

SO16 8-bit I2C Fast-mode totem-pole GPIO with interrupt and reset PCA9538D

TSSOP16 8-bit I2C Fast-mode totem-pole GPIO with interrupt and reset PCA9538PW

HVQFN24 16-bit I2C Fast-mode totem-pole GPIO with interrupt and reset PCA9539BS

TSSOP24 16-bit I2C Fast-mode totem-pole GPIO with interrupt and reset PCA9539PW

TSSOP24 16-bit I2C Fast-mode totem-pole GPIO with interrupt and reset PCA9539RPW

HVQFN16 8-bit I2C Fast-mode totem-pole GPIO with interrupt and pull-up resistors (AEC-Q100) PCA9554ABS

SO16 8-bit I2C Fast-mode totem-pole GPIO with interrupt and pull-up resistors (AEC-Q100) PCA9554AD

SSOP16 8-bit I2C Fast-mode totem-pole GPIO with interrupt and pull-up resistors (AEC-Q100) PCA9554ADB

TSSOP16 8-bit I2C Fast-mode totem-pole GPIO with interrupt and pull-up resistors (AEC-Q100) PCA9554APW

SO16 8-bit I2C Fast-mode totem-pole GPIO with interrupt and pull-up resistors (AEC-Q100) PCA9554D

SSOP16 8-bit I2C Fast-mode totem-pole GPIO with interrupt and pull-up resistors (AEC-Q100) PCA9554DB

DIP16 8-bit I2C Fast-mode totem-pole GPIO with interrupt and pull-up resistors (AEC-Q100) PCA9554N

TSSOP16 8-bit I2C Fast-mode totem-pole GPIO with interrupt and pull-up resistors (AEC-Q100) PCA9554PW

TSSOP16 8-bit I2C Fast-mode totem-pole GPIO with interrupt and pull-up resistors (AEC-Q100) PCA9554PW/DG

TSSOP16 8-bit I2C Fast-mode totem-pole GPIO with interrupt and pull-up resistors (AEC-Q100) PCA9554PW/Q900

HVQFN24 16-bit I2C Fast-mode totem-pole GPIO with interrupt and pull-up PCA9555BS

SO24 16-bit I2C Fast-mode totem-pole GPIO with interrupt and pull-up PCA9555D

SSOP24 16-bit I2C Fast-mode totem-pole GPIO with interrupt and pull-up PCA9555DB

DIP24 16-bit I2C Fast-mode totem-pole GPIO with interrupt and pull-up PCA9555N

TSSOP24 16-bit I2C Fast-mode totem-pole GPIO with interrupt and pull-up PCA9555PW

TSSOP24 16-bit I2C Fast-mode totem-pole GPIO with interrupt and pull-up PCA9555PW/DG

HVQFN16 8-bit I2C Fast-mode totem-pole GPIO with reset PCA9557BS

SO16 8-bit I2C Fast-mode totem-pole GPIO with reset PCA9557D

TSSOP16 8-bit I2C Fast-mode totem-pole GPIO with reset PCA9557PW

HWQFN2416-bit I2C Fast-mode LV totem-pole/OD GPIO with interrupt, reset,

and pull-up/pull-down resistors PCA9575HF

TSSOP2816-bit I2C Fast-mode LV totem-pole/OD GPIO with interrupt, reset,

and pull-up/pull-down resistors PCA9575PW2

TSSOP16 8-bit I2C Fast-mode Plus quasi-bidirectional GPIO with reset and pull-up resistors PCA9670PW

SSOP2416-bit I2C Fast-mode Plus quasi-bidirectional GPIO with interrupt, reset,

and pull-up resistors PCA9673DK

HVQFN16 8-bit I2C Fast-mode Plus quasi-bidirectional GPIO with interrupt and pull-up resistors PCA9674ABS

DIP16 8-bit I2C Fast-mode Plus quasi-bidirectional GPIO with interrupt and pull-up resistors PCA9674AN

TSSOP24 16-bit I2C Fast-mode Plus quasi-bidirectional GPIO with interrupt and pull-up resistors PCA9675PW

TSSOP5640-bit I2C Fast-mode Plus totem-pole GPIO with interrupt, reset,

pull-up resistors and output enable PCA9698DGG

DIP16 8-bit I2C 100 kHz quasi-bidirectional GPIO with interrupt and pull-up resistors PCF8574AP

SO16 8-bit I2C 100 kHz quasi-bidirectional GPIO with interrupt and pull-up resistors PCF8574AT/3

SSOP20 8-bit I2C 100 kHz quasi-bidirectional GPIO with interrupt and pull-up resistors PCF8574ATS/3

DIP16 8-bit I2C 100 kHz quasi-bidirectional GPIO with interrupt and pull-up resistors PCF8574P

SO16 8-bit I2C 100 kHz quasi-bidirectional GPIO with interrupt and pull-up resistors PCF8574T/3

SSOP20 8-bit I2C 100 kHz quasi-bidirectional GPIO with interrupt and pull-up resistors PCF8574TS/3

SSOP24 16-bit I2C Fast-mode quasi-bidirectional GPIO with interrupt and pull-up resistors PCF8575TS/1

i2c GENErAl PUrPoSE iNPUt/oUtPUt (GPio) coNt.

i2c solutions



SE-18

NSW+61 2 9893 9400


Victoria+61 3 9775 4778

Auckland+64 9 443 9500




TSSOP8 2-channel I2C mux PCA9540BDP/DG

TSSOP162-to-1 I2C demux with interrupt and reset (channel

0 default) PCA9541APW/01

TSSOP162-to-1 I2C demux with interrupt and reset (no

channel default) 4-channel PCA9541APW/03


XSON6 Fast-mode Plus 1-bit voltage translator NVT2001GM

TSSOP8Fast-mode Plus 2-bit voltage translator for I2C/

SMBus applicationsNVT2002DP

XSON8 Fast-mode Plus dual I2C/SMBus voltage translator PCA9306GF

DHVQFN16 Fast-mode Plus 6-bit voltage translator NVT2006BQ

HVQFN16 Fast-mode Plus 6-bit voltage translator NVT2006BS

i2c MUltiPlEXErS/SWitchES

i2c VoltAGE lEVEl trANSlAtorS

AUDio


SIL9MPF 4W Power AMP w/Volume TDA1013BU

SO8 Stereo Headphone Driver TDA1308AT/N2

SO8 Stereo Headphone Driver TDA1308T/N2

DBS13P Stereo Power Amp TDA1516BQU

HDIP18 2x6W Stereo Power Amp TDA1517PN

SIL9MPF 2x6W Stereo Power Amp TDA1517U

SIL9MPF 12W BTL, 2x6W TDA1519BU

SIL9P 22W BTL, 2x11W TDA1519CU

DIP18 Stereo Tone/Volume Control TDA1524AN

DBS13P 2 x22W BTL Power Amp TDA1552QU

DBS17P 4x11W/2x22W Power Amp TDA1554QU

DBS17P 70W HI-EFF Power Amp TDA1562QU

SIL9MPF 2x6W HI-FI Power Amp TDA2615U

SIL9P 2X12W HI-FI Power Amp TDA2616U

SO8 LV Mono/Stereo Power TDA7050TD

DIP8 1W BTL Mono Amp TDA7052AN

SO8 0.5W BTL Mono Amp TDA7052ATD

SO8 0.5W BTL Mono Amp TDA7052BTD

DIP8 1W Low Volt Power Amp TDA7052N

DIP16 2x1W Stereo AMP BTL TDA7053AN

SO20 3W BTL+DC Volume Control TDA7056ATD

SIL9MPF 3W BTL Mono Power Amp TDA7056AU

SIL9MPF 5W BTL Mono Power Amp TDA7056BU

DBS13P Stereo Audio Amp TDA7057AQU

DBS17P AMP Power 26W 17-SIL TDA8510JU

SO8 AMP Audio 1W BTL TDA8541TD

SO8 1W CMOS Power Amp TDA8551TD

SO20 Audio Power Amp BTL TDA8552TD

SSOP20 Audio Power Amp BTL TDA8552TSDB

SO16 Headphone AMP LV TDA8559TD

DBS13P Audio AMP BTL TDA8563QU

DBS17P Audio AMP BTL TDA8566QU

NXP ANAloGUE/ MiSc ic’S

NXP ANAloGUE/ MiSc ic’S coNt.

coDEcS


LQFP48 Audio Codec w/ Touchscreen UCB1400BE

SSOP28 Audio Codec Minidisc UDA1341TSDB

SSOP28 Audio Codec Minidisc UDA1342TSDB

SSOP28 Audio Codec w/Dsp UDA1344TSDB

SSOP28 Audio Codec UDA1345TSDB


DBS23P Radio Power AMP 4X25W TDA8567QU

DBS23P Class-D Power AMP TDA8920BJ

HSOP24 Class-D Power AMP TDA8920BTH

SIL9MPF 6W Mono BTL Power AMP TDA8943SFU

SIL9P 15W Mono BTL Power AMP TDA8945SU

DBS17P Audio AMP 2X15W TDA8946JU

SO32 Sound Fader Controller TEA6320TD

DBS9P Audio AMP 2-Channel TFA9843J

coNtrollErS/iNtErFAcES


TSSOP16 USB1.1 Low Voltage ISP1106DH

LQFP64 USB Host Controller ISP1160BD01

TSSOP48 USB Controller Full-Speed ISP1160BM01

LQFP64 USB Host+Dev Controller ISP1161A1BM

TSSOP48 USB Otg Controller ISP1181ADGG

TSSOP48 USB Controller Full-Speed ISP1181BDGG

LQFP64 USB2 7-Port Hub ISP1362BD

LQFP64 USB2 4-Port Pci Host ISP1520BD

LQFP80 USB Periphial Controller ISP1521BE

LQFP128 USB Periphial Controller ISP1563BM

LQFP100 USB Host Controller ISP1564HL

HVQFN56 USB Host Controller ISP1582BS

HVQFN64 USB Periphial Controller ISP1583BS

LQFP128 USB Host Controller ISP1760BE

LQFP144 IEEE 1394 Link Controller PDI1394L40BE

SO28 Interface Spi/I2C PDIUSBD12D

TSSOP28 Stand-Alone Can PDIUSBD12PWDH

TSSOP16 Controller I2C w/UART SC18IM700IPW

TSSOP16 Interface SPI/I2C SC18IS600IPW

DIP28 Stand-Alone Can SJA1000N

SO28 Stand-Alone Can SJA1000TD

LQFP32 Smart Card Reader TDA8002CGB

LQFP48 Interface Card MP TDA8007BHLBE

TSSOP28 Smart Card Interface TDA8024TT

LQFP32 Smart Card Reader TDA8029HL07BD

i2c / AnAlogue & Misc ic’s



SE-19

NSW+61 2 9893 9400


Victoria+61 3 9775 4778

Auckland+64 9 443 9500



ANAloGUE to DiGitAl coNVErtErS

DiGitAl to ANAloGUE coNVErtErS


DIP16 Adc/Dac 8-Bit I2C PCF8591PN

SO16 Adc/Dac 8-Bit I2C PCF8591TD

LQFP144 Trpl 8Bit Video Adc TDA8754HL11BE




LQFP48 Adc 10Bit 40Msps TDA8783HLBE

LQFP48 Adc 10Bit 18Msps TDA8787AHLBE

SSOP16 Adc Stereo Audio 24Bit UDA1361TSDK


LQFP48 Video DAC 10Bit TDA8777HL/24/C1S

SSOP16 Audio DAC Stereo UDA1330ATSDK

SSOP16 Audio DAC Lp UDA1334ATSDH




SOT263 Topfet High Side Sw BUK202-50Y




SO8 Hotswap I2C/SMBUS PCA9511AD

TSSOP8 Hotswap I2C/SMBUS PCA9511ADP

TSSOP8 Hotswap I2C/SMBUS PCA9513ADP

DiSPlAy DriVErS

hiGh SiDE, loW SiDE, BriDGE DriVErS

- SMArt MoSFEtS

hot SWAPS


SO28 LCD Driver 40SEG PCF2100CTD

TSSOP48 LCD Driver 32/128SEG PCF8562TT/2

DIP40 LCD Driver Univ. Low-MUX PCF8566PN

VSO40 LCD Driver Univ. Low-MUX PCF8566TD

VSO56 LCD Driver Univ. Low-MUX PCF8576CTD

TQFP64 LCD Driver 40/160SEG PCF8576DH/2

TSSOP56 LCD Driver 40/160SEG PCF8576DT/2

VSO56 LCD Driver Univ. Low-MUX PCF8576TD

DIP40 LCD Driver 32/64SEG PCF8577CPN

VSO40 LCD Driver 32/64SEG PCF8577CTD

LQFP64 LCD Driver DOT Matrix PCF8578H/1

VSO56 LCD Driver DOT Matrix PCF8578TD

VSO56 LCD Driver DOT Matrix PCF8579TD

SO24 I2C LED Blinker 16Bit PCA9552D

TSSOP24 I2C LED Blinker 16Bit PCA9552PW

SO8 LED Driver 4Bit I2C PCA9553D/01

SO16 LED Driver 4Bit I2C PCA9633D16

TSSOP8 LED Driver 4Bit I2C PCA9633DP1

TSSOP16 LED Driver 4Bit I2C PCA9633PW

DIP24 LED Driver 4 Digit W/I2C SAA1064PN

SO24 LED Driver 4 Digit W/I2C SAA1064TD

icS -trANSlAtorS


VSSOP8 Xlatr 2Bit Bi-Directional GTL2002DC

TSSOP14 Xlatr Quad Bi-Directional GTL2005PW

TSSOP28 Xlatr Gtl/Lvttl 13Bt GTL2006PW

TSSOP28 12Bit Xeon GTL/LVTTL GTL2007PW

HVQFN24 Volt Translator GTL2010BS

DIP16 Volt Translator Quad HEF4104BPN

SO16 Volt Translator Quad HEF4104BTD

rF AMPliFiEr icS AND MoDUlES

rF MiXEr icS


SOT343 MM Amplifier BGA2001


SOT363 MM Amplifier 1.9GHZ BGA2012

SOT363 MMVAR Gain Amplifier BGA2031/1



SOT363 MM Amplifier BGA2T/R

SOT89 MMIC Amplifier BGA6589

SOT363 MM Amplifier BGM1013

SOT363 MM Amplifier BGM1014


SOT363 MM Mixer BGA2022

SSOP20 Mixer FM IF System SA58641DK

SO8 LP VHF DBL-BAL w/OSC SA602AD/01

DIP8 LP VHF DBL-BAL w/OSC SA602AN/01

SO20 LP Mixer FM IF SYS SA605D/01

SSOP20 LP Mixer FM IF SYS SA605DK/01

SSOP20 LP Mixer FM IF SYS SA606DK/01

SO8 LP VHF DBL-BAL w/OSC SA612AD/01

DIP8 LP VHF DBL-BAL w/OSC SA612AN/01

SSOP20 LP FM IF Receiver SYS SA616DK/01

SSOP20 LP FM IF Receiver SYS SA676DK/01

rEAl tiME clocKS


TSSOP8 CMOS RTC/Calendar PCA8565TS

DIP8 Clock/Calendar PCF8583PN

SO8 Clk/Calendar 240X8 RAM PCF8583TD

DIP8 Low Power Clock/Calendar PCF8593N

SO8 Low Power Clock/Calendar PCF8593TD

rF trANSMittEr, trANScEiVEr AND rEcEiVEr icS, MoDUlES


SO16 FM IF System Low Power SA604AD/01

TSSOP20 Digital IF Receiver SA647DH

QFP44 Self Tuned Radio w/SYN TEA5757HB

ic’s



SE-20

NSW+61 2 9893 9400


Victoria+61 3 9775 4778

Auckland+64 9 443 9500



SENSorS -tEMPErAtUrE


SOD70 Temp Sensor KTY81/110



SOD68 Temp Sensor Axial KTY83/150

TSSOP8 Temp Sensor Digital LM75ADP

TSSOP8 Temp Sensor SA56004ADP

TSSOP8 Temp Sensor SA56004EDP

TSSOP8 Temp Sensor SA56004FDP

TSSOP8 Temp Sensor Digital SE95DP


ic’s



PLCC44 2CH UART 16B FIFO SC16C2550BIA44

LQFP48 2CH UART 16B FIFO SC16C2550BIB48

HVQFN32 2CH UART 16B FIFO SC16C2550BIBS






LQFP64 4CH UART 16B FIFO SC16C554BIBM

PLCC68 4CH UART 16B FIFO SC16C554DBIA68

LQFP64 4CH UART 16B FIFO SC16C554DBIB64



LQFP64 4CH UART 64B FIFO SC16C654DBIB64







TSSOP16 UART Single w/FIFO SC16IS740IPW

HVQFN24 UART I2C/SPI SC16IS750IBS

HVQFN32 UART Dual I2C/SPI SC16IS752IBS

TSSOP28 UART Dual 12C/SPI SC16IS752IPW

HVQFN24 UART I2C/SPI SC16IS760IBS

HVQFN32 UART Dual I2C/SPI SC16IS762IBS

TSSOP28 Dual UART 64BYTE SC16IS762IPW

PLCC44 UART Dual w/FIFO SC26C92A1A

PLCC44 UART Dual w/FIFO SC26C92C1A

PLCC52 UART Quad w/FIFO SC28C94A1A

LQFP80 UART Quad w/FIFO SC28L194A1BE

PLCC84 UART Octal w/FIFO SC28L198A1A

QFP44 UART Single w/FIFO SC28L91A1B

QFP44 UART Dual w/FIFO SC28L92A1B

LQFP48 UART Dual w/FIFO SC68C2550BIB48

LQFP48 UART Dual w/FIFO SC68C752BIB48

DIP40 UART Dual SCC2681AC1N40

SO24 1CH. 5V Ind. UART SCC2691AC1D24

DIP24 1CH. 5V Ind. UART SCC2691AC1N24

DIP24 1CH. 5V Ind. UART SCC2691AE1N24

PLCC44 2CH. 5V Ind. UART SCC2692AC1A44

DIP40 2CH. 5V Ind. UART SCC2692AC1N40

PLCC84 8CH. UART Enhanced SCC2698BC1A84

PLCC44 2CH. UART SCC68681C1A44

PLCC44 2CH. 5V IND.MOT INTRF. SCC68692C1A44

UArtS

ViDEo -ENcoDErS & DEcoDErS


QFP44 PC Graphics 45MHZ SAA7103HB

QFP64 PC Graphics 85MHZ SAA7105HBG

LQFP100 Decoder w/Filter SAA7114HBE

LQFP100 ADV Digital Video Decoder SAA7115HLBE

LBGA156 Video Decoder w/Filter SAA7118EEB

QFP160 Video Decoder w/Filter SAA7118HBB

QFP44 Digital Vid Encdr NTSC, PAL SAA7121HB

QFP44 DV Enc/NTSC, PAL, SECAM SAA7129AHB


QFP64 Enhanced Video Input SAA7111AHBG

LQFP64 Enhanced Video Input SAA7111AHZBD

QFP44 9-BIT Video Input SAA7113HB

QFP44 9-BIT Video Input SAF7113HB

ViDEo ProcESSorS


SO5 CapFree LDO 150mA Lo-Noise SA57000-30D

SO5 CapFree LDO 150mA Lo-Noise SA57000-33D

SOT223 5V 100MA VLDO Regulator TDA3664/N1

VoltAGE rEGUlAtorS

DEMoS, EVAlUAtioN KitS, & rEADEr MoDUlES

Description Manf. Part No.

Mifare Pegoda Demo MFEV700HABM

Mifare Evaluation Kit MFEV800HABM

Spi/I2C To Uart OM6270

Uart To I2C Master OM6272

Spi/I2C To Uart/Irda OM6273

I2C Portfolio OM6275

I2C Bus Controller OM6277

I2C Portfolio OM6278

I.Code Pegoda Sh.-Rg SLEV400/HAB

Mifare&ICODE RFID Reader CLRD701



SE-21

NSW+61 2 9893 9400


Victoria+61 3 9775 4778

Auckland+64 9 443 9500



Description Package Manf. Part No.

Quad 2-In NAND Gate SO14 74ABT00D

Hex Inverter SO14 74ABT04D

Hex Inverter TSSOP14 74ABT04PW

Quad 2-In AND Gate TSSOP14 74ABT08PW

Quad Buffer 3State SO14 74ABT125D

Octal Transceiver w/ 30Ω TSSOP20 74ABT2245PW

Octal Buffer/Line Driver 3State SO20 74ABT244D

Octal Buffer/Line Driver 3State SSOP20 74ABT244DB

Octal Transceiver 3State SO20 74ABT245D

Octal Buffer/Driver 3State SO20 74ABT541D

9-Bit D-TYPE F/F 3-S TSSOP24 74ABT823PW

Quad 2-In NOR Gate TSSOP14 74AHC02PW

Single 2-In NAND Gate SOT353 74AHC1G00GW

Inverter Buffer SOT353 74AHC1G04GW

Single 2-In AND Gate SOT353 74AHC1G08GW

Schmitt Trigger Inverter SOT753 74AHC1G14GV

Inverter Schmitt Trigger SOT353 74AHC1G14GW

Single 2-In OR Gate SOT353 74AHC1G32GW

8-Bit Address Latch SO16 74AHC259D

8-In NAND Gate TSSOP14 74AHC30PW

Oct D F/F POS Edge TSSOP20 74AHC377PW

8-Bit Address BL Latch SO16 74AHCT259D

Transceiver 16Bit Dual 3State TSSOP48 74ALVC164245DG

Transceiver 16Bit LVL Shift SSOP48 74ALVC164245DL

16-Bit Transceiver w/30Ω TSSOP48 74ALVT162245DG

Single 2-In AND Gate SOT353 74AUP1G08GW

Buffer/Driver 3State 1.8V SOT353 74AUP1G125GW

Schmitt Trigger Inverter SOT886 74AUP1G14GM

Single 2-In OR Gate SOT886 74AUP1G32GM

Single Inverter Unbuffered SOT353 74AUP1GU04GW

Dual Inverter LP SOT363 74AUP2G04GW

Dual Buffer 1.8V SOT886 74AUP2G07GM

Dual Schmitt-Trigger Inverter SOT363 74AUP2G14GW

Dual Buffer 1.8V SOT363 74AUP2G34GW

Dual UnBuffered Inverter SOT363 74AUP2GU04GW

Quad 2-In NAND Gate DHVQFN14 74HC00BQ

Quad 2-In NAND Gate SO14 74HC00D

Quad 2-In NAND Gate DIP14 74HC00N

Quad 2-In NOR Gate SO14 74HC02D

Quad 2-In NOR Gate DIP14 74HC02N


Hex Inverter DHVQFN14 74HC04BQ

Hex Inverter LSTTL Compatible SO14 74HC04D

Hex Inverter LSTTL Compatible DIP14 74HC04N

Quad 2-In AND Gate SO14 74HC08D

Quad 2-In AND Gate SSOP14 74HC08DB

Quad 2-In AND Gate DIP14 74HC08N

TRIP 3-In NAND Gate DIP14 74HC10N

Triple 3-In AND Gate SO14 74HC11D

Triple 3-In AND Gate DIP14 74HC11N

Dual Mono Retriggerable SO16 74HC123D

Dual Mono Multivibrator SSOP16 74HC123DB

Dual Mono Retriggerable DIP16 74HC123N

Quad Buffer/Driver 3State SO14 74HC125D

Quad Buffer/Driver 3State DIP14 74HC125N

Quad Buffer/Driver 3State SO14 74HC126D


Quad 2-In NAND Gate DIP14 74HC132N

NXP loGic


Quad 2-In NAND Schmitt TSSOP14 74HC132PW

3-8 Decoder/Demux SO16 74HC137D

3-8 Line Decoder/Demultiplxr SO16 74HC138D

3-8 Line Decoder/Demultiplxr DIP16 74HC138N

2-4 Line Decoder/Demultiplxr SO16 74HC139D

2-4 Line Decoder/Demultiplxr DIP16 74HC139N

Hex Inverter Schmitt Trigger SO14 74HC14D

Hex Inverter Schmitt Trigger SSOP14 74HC14DB

Hex Inverter Schmitt Trigger DIP14 74HC14N

8-Input Multiplexer SO16 74HC151D

Dual 4-Input Multiplexer SO16 74HC153D

Dual 4-Input Multiplexer DIP16 74HC153N

4-16 Line DCOD/DMUX SO24 74HC154D

4-16 Line DCOD/DMUX DIP24 74HC154N

Quad 2-IN Multiplexer SO16 74HC157D

8-BIT Shift Register SO14 74HC164D


8-BIT Shift Register DIP16 74HC165N

8-BIT Shift Register TSSOP16 74HC165PW


Quad D F/F POS-Edge DIP16 74HC173N

Hex D F-F POS-Edge SO16 74HC174D

Quad D F/F POS-Edge SO16 74HC175D

Counter Up/Down Sync DIP16 74HC191N

4-BIT Counter U/D Sync SO16 74HC193D

4-BIT BIN Up/Down Counter SSOP16 74HC193DB

Single 2-In NAND Gate SOT353 74HC1G00GW

Single 2-In NOR Gate SOT353 74HC1G02GW

Inverter Buffer SOT353 74HC1G04GW

Single 2-In AND Gate SOT353 74HC1G08GW

BUS Buffer/Driver 3State SOT353 74HC1G125GW

Inverter Schmitt Trigger SOT353 74HC1G14GW

Bilateral Switch SOT353 74HC1G66GW

Dual 4-In NAND Gate DIP14 74HC20N

Dual Mono Non Retrigger SO16 74HC221D




OCT Buffer/Driver Inverter 3St SSOP20 74HC240DB

Octal Buffer/Line Driver 3State DIP20 74HC241N

Octal Buffer/Driver 3State DHVQFN20 74HC244BQ

Octal Buffer/Line Driver 3State SO20 74HC244D


Octal BUS Transceiver 3State SO20 74HC245D

Octal BUS Transceiver 3State DIP20 74HC245N

Octal BUS Transceiver 3State TSSOP20 74HC245PW

8-Input Multiplexer SO16 74HC251D

Quad 2-In Multiplexer 3State SO16 74HC257D

8-Bit Address Latch SO16 74HC259D

8-Bit Address Latch DIP16 74HC259N

Octal D F/F w/Reset SO20 74HC273D

Octal D F/F w/Reset DIP20 74HC273N

Triple 3-In NOR Gate SO14 74HC27D

4-Bit BIN Full Adder SSOP16 74HC283DB

8-Bit Universal Shift Register SSOP20 74HC299DB

8-Bit Universal Shift Register DIP20 74HC299N

8-Input NAND Gate SO14 74HC30D

8-Input NAND Gate DIP14 74HC30N

logic



SE-22

NSW+61 2 9893 9400


Victoria+61 3 9775 4778

Auckland+64 9 443 9500




Quad 2-In OR Gate SO14 74HC32D

Quad 2-In OR Gate DIP14 74HC32N

Hex Buffer/Driver SO16 74HC365D

Hex Inverter Buffer/Driver SO16 74HC366D

Octal D Latch 3State SO20 74HC373D

Octal D Latch 3State DIP20 74HC373N

Octal D F/F 3State SO20 74HC374D

Octal D F/F 3State DIP20 74HC374N

Octal D F/F POS-Edge DIP20 74HC377N

Dual Decade RIP Counter SO16 74HC390D

Dual DEC RIP Counter DIP16 74HC390N

Dual 4-Bit BIN RIP Counter DHVQFN14 74HC393BQ

4-Bit BIN RIP Counter SO14 74HC393D

4-Bit BIN RIP Counter DIP14 74HC393N

8-Bit Sync BIN Down SO16 74HC40103D

8-Bit BIN Down Counter DIP16 74HC40103N

4BX16W FIFO Register SO16 74HC40105D

Dual 4-Bit Shift Register SSOP16 74HC4015DB

5ST Johnson Counter SO16 74HC4017D

5ST Johnson Counter DIP16 74HC4017N

14ST BIN RIP Counter SSOP16 74HC4020DB

7ST BIN Counter/DIV SO14 74HC4024D

7ST BIN Counter/DIV DIP14 74HC4024N

12ST BIN RIP Counter SO16 74HC4040D

12ST BIN RIP Counter DIP16 74HC4040N

Phase Locked Loop SO16 74HC4046AD

Hex Inverter Level Shifter SO16 74HC4049D

Hex HI-LO Level Shifter SO16 74HC4050D

8-Ch Analog MUX/DMUX SO16 74HC4051D

8-Ch Analog MUX/DEMUX SSOP16 74HC4051DB

8-Ch Analog MUX/DMUX DIP16 74HC4051N

8-Ch Analog MUX/DMUX TSSOP16 74HC4051PW

DL 4-Ch Analog MUX/DMUX SO16 74HC4052D

DL 4-Ch Analog MUX/DMUX DIP16 74HC4052N

Dual 4-Ch MUX/DMUX TSSOP16 74HC4052PW

Triple 2-Ch MUX/DMUX SO16 74HC4053D

Triple 2-Ch MUX/DMUX DIP16 74HC4053N

14ST BIN Counter/DIV SO16 74HC4060D

14ST BIN Counter/DIV DIP16 74HC4060N

Quad Billateral Switch SO14 74HC4066D

Quad Billateral Switch DIP14 74HC4066N

Quad Billateral Switch TSSOP14 74HC4066PW

16-Ch Analog MUX/DEMUX SO24 74HC4067D

16-Ch Analog MUX/DEMUX TSSOP24 74HC4067PW

8-Stage BUS Register SO16 74HC4094D

8-Stage BUS Register DIP16 74HC4094N



Decoder BCD-Decimal DIP16 74HC42N

Quad Bilateral Switch SO16 74HC4316D


Dual 4B BIN RIP Counter SSOP16 74HC4520DB

Dual 4B BIN RIP Counter TSSOP16 74HC4520PW



Octal Buffer/Driver INV 3State SO20 74HC540D


Octal Buffer/Line Driver 3State SO20 74HC541D



Prog Delay Timer SO16 74HC5555D

Octal D Latch Inverter 3State DIP20 74HC563N

Octal D Latch Inverter 3State SO20 74HC573D

Octal D Transp Latch SSOP20 74HC573DB

Octal D Latch Inverter 3State DIP20 74HC573N

Octal D Latch Inverter 3State TSSOP20 74HC573PW

Octal D F/F POS-Edge SO20 74HC574D

Octal D F-F POS-Edge SSOP20 74HC574DB

Octal D F/F POS-Edge DIP20 74HC574N

Dual AND/OR Gate DIP14 74HC58N


8-BIT Shift Register DHVQFN16 74HC595BQ


8-BIT Shift Register SSOP16 74HC595DB


8-BIT Shift Register TSSOP16 74HC595PW


8-BIT Shift Register SSOP16 74HC597DB


Prog Ripple Counter SO8 74HC6323AD

Octal BUS XCVR 3State SSOP20 74HC640DB

8-BIT Magnitude COMP SO20 74HC688D

Comparator 8-BIT MAG DIP20 74HC688N

Hex Schmitt Trigger SO14 74HC7014D

Hex NONINV Schmitt Trigger DIP14 74HC7014N

Quad 2IN EX-NOR Gate SSOP14 74HC7266DB

Dual JK F/F NEG-Edge SO14 74HC73D

Dual J-K Flip Flop DIP14 74HC73N

4BX64W FIFO Register DIP16 74HC7403N

Dual D F/F POS-Edge DHVQFN14 74HC74BQ

Dual D F/F POS-Edge SO14 74HC74D

Dual D F/F Edge Trigger DIP14 74HC74N

Octal Schmitt Trigger 3State SO20 74HC7540D

Octal Schmitt Trigger 3State SSOP20 74HC7540DB

Octal Schmitt Trigger 3State SO20 74HC7541D

Octal BUF/DVR Schmitt Trgger SSOP20 74HC7541DB

Octal Schmitt Trigger 3State DIP20 74HC7541N

Quad Bistable Latch SO16 74HC75D

Quad Bistable Latch DIP16 74HC75N

Comparator 4-BIT MAG SO16 74HC85D

4-BIT Magnitude COMP SSOP16 74HC85DB

Comparator 4BIT MAG DIP16 74HC85N

Quad EXCL NOR Gate SO14 74HC86D

Quad EXCL NOR Gate DIP14 74HC86N

4BIT BIN RIP Counter SO14 74HC93D

Quad 2-IN NAND Gate SO14 74HCT00D

Quad 2-IN NAND Gate DIP14 74HCT00N

Quad 2-IN NOR Gate SO14 74HCT02D

Quad 2-IN NOR Gate DIP14 74HCT02N

Hex Inverter DHVQFN14 74HCT04BQ

Hex Inverter LSTTL Cmpatible SO14 74HCT04D

Hex Inverter LSTTL Cmpatible DIP14 74HCT04N

Quad 2-IN AND Gate DHVQFN14 74HCT08BQ

Quad 2-IN AND Gate SO14 74HCT08D

Quad 2-IN AND Gate DIP14 74HCT08N

Dual JK F/F NEG-Edge SO16 74HCT112D

Dual Mono Retriggerable SO16 74HCT123D

NXP loGic coNt.

logic



SE-23

NSW+61 2 9893 9400


Victoria+61 3 9775 4778

Auckland+64 9 443 9500




Dual Mono Retriggerable DIP16 74HCT123N

Dual Mono Multivibrator TSSOP16 74HCT123PW

Quad Buffer/Driver 3State SO14 74HCT125D

Quad 2IN NAND Schmitt SO14 74HCT132D

Quad 2-IN NAND Gate DIP14 74HCT132N

3-8 Line Decoder/Demultiplexr SO16 74HCT138D

3-8 Line Decoder/Demultiplexr DIP16 74HCT138N

Dual 2-4 Decoder/Demultiplexr SO16 74HCT139D

2-4 Line Decoder/Demultiplexr DIP16 74HCT139N

10-4 Priority Encoder SO16 74HCT147D

Hex Inverter Schmitt Trigger SO14 74HCT14D

Hex Inverter Schmitt MT-Trigger DIP14 74HCT14N

8-Input Multiplexer SO16 74HCT151D

Dual 4-Input Multiplexer SO16 74HCT153D

4-16 Line Decoder/Demultiplxr DIP24 74HCT154N

Quad 2-Input Multiplexer SO16 74HCT157D

Quad 2-Input Multiplexer SSOP16 74HCT157DB

8-BIT Shift Register SO14 74HCT164D

8-BIT Shift Register SO16 74HCT165D

8-BIT Shift Register SSOP16 74HCT165DB

Hex D F/F Master RST DIP16 74HCT174N

Quad D F/F POS-Edge SO16 74HCT175D

Quad D F/F POS-Edge DIP16 74HCT175N

4BIT Counter U/D SYNC SO16 74HCT193D

Dual Mono Multivibrator SO16 74HCT221D

3-8 Decoder/Demultiplexer SO16 74HCT238D

3-8 Decoder/Demultiplexer SSOP16 74HCT238DB

3-8 Decoder/Demultiplexer TSSOP16 74HCT238PW

Octal Buffer/Line Driver 3State DIP20 74HCT240N

Octal Buffer/Line Driver 3State SO20 74HCT244D


Octal BUS TXRX 3State SO20 74HCT245D

Octal BUS TXRX 3State DIP20 74HCT245N

Octal BUS XCVR 3State Inv. TSSOP20 74HCT245PW

8-BIT Address Latch SO16 74HCT259D

8-BIT Address Latch DIP16 74HCT259N

Octal D F/F w/RESET SO20 74HCT273D

Octal D F/F w/RESET DIP20 74HCT273N

9-BIT Parity Generator/checker SO14 74HCT280D

Quad 2-IN OR Gate SO14 74HCT32D

Quad 2-IN OR Gate DIP14 74HCT32N

Hex Buffer/Driver 3State SO16 74HCT365D

Hex Buffer/Driver 3State SSOP16 74HCT365DB



Hex Buffer/Driver 3State DIP16 74HCT367N

Octal D Latch 3State SO20 74HCT373D

Octal D Latch 3State DIP20 74HCT373N

Octal D F/F 3State SO20 74HCT374D

Octal D F/F 3State DIP20 74HCT374N

Octal D F-F POS-Edge TSSOP20 74HCT377PW

4-Bit BIN RIP Counter SO14 74HCT393D

Dual 4-Bit BIN RIP Counter SSOP14 74HCT393DB

Quad Billateral Switch DIP14 74HCT4016N

12-Stage BIN Counter SO16 74HCT4040D

12-Stage BIN RIP Counter DIP16 74HCT4040N

Phase Locked Loop SO16 74HCT4046AD

Phase Locked Loop SSOP16 74HCT4046ADB


8-Ch Analog Multiplexer/DMlpx SO16 74HCT4051D

Dual 4-Ch Multiplexer/Demlpxr SO16 74HCT4052D

Dual 4-Ch Multiplexer/Demlpxr SSOP16 74HCT4052DB

Triple 2-Ch Multiplxer/Demlpxr SO16 74HCT4053D

COUNTR Prog DIV-BY-N DIP24 74HCT4059N

Quad Billateral Switch SO14 74HCT4066D

Quad Billateral Switch TSSOP14 74HCT4066PW

16-Ch Analog Multiplxer/DMlpx SSOP24 74HCT4067DB

16-Ch Analog Multiplxer/DMlpx DIP24 74HCT4067N

16-Ch Analog Multiplxer/DMlpx TSSOP24 74HCT4067PW

Triple 3-In OR Gate SO14 74HCT4075D

8-Stage Shift/Store SO16 74HCT4094D

Quad Bilateral Switch TSSOP16 74HCT4316PW

BCD-7Seg LCH/DEC/Driver SO16 74HCT4511D

4-16 Line Decoder/DMUX SO24 74HCT4514D

Dual Mono Multivibrator SO16 74HCT4538D

Oct Buffer/Driver Inverter 3St SO20 74HCT540D

Octal Buffer/Line Driver 3State SO20 74HCT541D


Prog Delay Timer SO16 74HCT5555D

Octal D Latch 3State SO20 74HCT573D

Octal D Latch 3State DIP20 74HCT573N

Octal D F-F POS-Edge SSOP20 74HCT574DB

Octal D F/F POS-Edge SO20 74HCT574D

Octal D F/F POS-Edge DIP20 74HCT574N

8-Bit Shift Register SO16 74HCT594D

8-Bit Shift Register DHVQFN16 74HCT595BQ

8-Bit Shift Register SO16 74HCT595D

8-Bit Shift Register DIP16 74HCT595N

8-Bit Shift Register TSSOP16 74HCT595PW

Oct Bus XCVR Inverter 3State DIP20 74HCT640N

Comparator 8-Bit MAG SO20 74HCT688D

Comparator 8-Bit MAG DIP20 74HCT688N

Octal D FF POS-Edge SO20 74HCT7273D

Dual D F/F POS-Edge DHVQFN14 74HCT74BQ

Dual D F/F Edge Trigger SO14 74HCT74D

Dual D F/F Edge Trigger DIP14 74HCT74N

Oct BUF/DVR Schmitt Trigger SO20 74HCT7541D

Comparator 4-Bit MAG DIP16 74HCT85N

Quad 2IN EX-NOR Gate SO14 74HCT86D

Quad EXCL NOR Gate DIP14 74HCT86N

PLL BAND GAP Controller SO16 74HCT9046AD

PLL BAND GAP Controller DIP16 74HCT9046AN

PLL BAND GAP Controller TSSOP16 74HCT9046APW

Hex Inverter Unbuffered SO14 74HCU04D

Hex Inverter Schmitt Trigger SO14 74LV14D

Dual 4-In Multiplxer SO16 74LV153D

8-Input MUX 3State TSSOP16 74LV251PW

8-Bit Address BL Latch SO16 74LV259D

8-Bit Address BL Latch TSSOP16 74LV259PW

Octal D F-F POS-Edge SO20 74LV377D

Octal D F-F POS-Edge SSOP20 74LV377DB

Dual 4-Bit BIN RIP Counter SO14 74LV393D

14ST BIN RIP Counter TSSOP16 74LV4020PW

14ST BIN Counter/DIV SO16 74LV4060D

14ST BIN RIP Counter TSSOP16 74LV4060PW

8-ST Shift/Store BUS SO16 74LV4094D

8-ST Shift/Store BUS SSOP16 74LV4094DB

logic

NXP loGic coNt.



SE-24

NSW+61 2 9893 9400


Victoria+61 3 9775 4778

Auckland+64 9 443 9500




8-ST Shift/Store BUS TSSOP16 74LV4094PW

Quad 2-In NAND Gate SO14 74LVC00AD

Quad 2-In NAND Gate TSSOP14 74LVC00APW

Quad 2-In NOR Gate TSSOP14 74LVC02APW

Hex Inverter TTL Compatible SO14 74LVC04AD

Hex Inverter LSTTL Compatible TSSOP14 74LVC04APW

Hex Inverter Buffer/Driver SO14 74LVC06AD

Hex Buffer/Driver 3State SO14 74LVC07AD

Hex Buffer/Driver 3State TSSOP14 74LVC07APW

Quad 2-In AND Gate SO14 74LVC08AD

Quad 2-In AND Gate TSSOP14 74LVC08APW

Quad Buffer/Line Driver DHVQFN14 74LVC125ABQ

Quad Buffer/Driver 3State SSOP14 74LVC125ADB

Quad Buffer/Driver 3State SO14 74LVC125AD

Quad Buffer/Driver 3State TSSOP14 74LVC125APW

Quad Buffer/Line Driver DHVQFN14 74LVC126ABQ

3-8 Line DCOD/DMUX SO16 74LVC138AD

Dual 2-4 DCOD/DMUX DHVQFN16 74LVC139BQ

Hex Inverter Schmitt Trigger SSOP14 74LVC14ADB

Hex BUF/DVR Schmitt Trigger SO14 74LVC14AD

Hex Inverter Schmitt Trigger TSSOP14 74LVC14APW

Quad 2-Input Multiplexer DHVQFN16 74LVC157ABQ

16-B Buff/Driver 3State TSSOP48 74LVC162244ADG

16-Bit TXRX 3State TSSOP48 74LVC162245ADG

4-Bit Sync BIN Counter TSSOP16 74LVC163PW

Inverter Buffer SOT753 74LVC1G04GV

Inverter Buffer SOT353 74LVC1G04GW

Buff w/Open Drain Out SOT353 74LVC1G07GW

Single 2-In AND Gate SOT353 74LVC1G08GW

BUS Buffer/Driver 3State SOT753 74LVC1G125GV

BUS Buffer/Driver 3State SOT353 74LVC1G125GW

Schmitt-Trigger Inverter SOT353 74LVC1G14GW

Single 2-Input MUX SOT457 74LVC1G157GV

Single 2-Input MUX SOT363 74LVC1G157GW

Single 2-Input OR Gate SOT753 74LVC1G32GV

Single 2-Input OR Gate SOT353 74LVC1G32GW

2-Ch Analog MUX/DEMUX VSSOP8 74LVC1G53DC

Single D F/F POS Edge XSON8 74LVC1G74GT

X3.3V Crystal Driver SOT363 74LVC1GX04GW

Octal Buffer/Line Driver 3State SO20 74LVC244AD

Octal Buffer/Line Driver 3State SSOP20 74LVC244ADB

Octal Buffer/Line Driver 3State TSSOP20 74LVC244APW

Oct BUS Transceiver 3State SSOP20 74LVC245ADB

Oct BUS Transceiver 3State SO20 74LVC245AD

Octal Transceiver 3State TSSOP20 74LVC245APW

Oct D F/F POS Edge TSSOP20 74LVC273PW

Triple 3-In NOR Gate SO14 74LVC27D

Triple 3-In NOR Gate TSSOP14 74LVC27PW

Dual 2-In EX-OR Gate VSSOP8 74LVC2G86DC

Quad 2-In OR Gate DHVQFN14 74LVC32ABQ

Quad 2-In OR Gate SO14 74LVC32AD

Quad 2-In OR Gate TSSOP14 74LVC32APW

Octal Transp Latch TSSOP20 74LVC373APW

Oct D F/F POS Edge TSSOP20 74LVC377PW

Quad Billateral Switch SO14 74LVC4066D

Quad Bilateral Switch TSSOP14 74LVC4066PW

Transceiver 8-Bit Level Shifter SO24 74LVC4245AD

8-Bit 3-5V Transl Transceiver SSOP24 74LVC4245ADB


Transceiver 8-Bit Level Shifter TSSOP24 74LVC4245APW

Octal Buff/Line Driver 3State TSSOP20 74LVC541APW

Octal Transpar Latch TSSOP20 74LVC573APW

Dual D F/F POS-Edge SO14 74LVC74AD

Dual D F/F POS-Edge TSSOP14 74LVC74APW

Hex Inverter SO14 74LVCU04AD

Quad 2-In NAND Gate TSSOP14 74LVT00PW

Quad 2-In NOR Gate TSSOP14 74LVT02PW

Hex Inverter 3.3V TSSOP14 74LVT04PW

Quad 2-Input AND Gate SO14 74LVT08D

Quad 2-Input AND Gate SSOP14 74LVT08DB

Quad 2-Input AND Gate TSSOP14 74LVT08PW

Quad Buffer 3.3V 3State SO14 74LVT125D

Quad Buffer 3.3V 3State TSSOP14 74LVT125PW

Hex Inverter Schmitt Trigger SO14 74LVT14D

Hex Inverter Schmitt Trigger TSSOP14 74LVT14PW

16-Bit BUS Transceiver 3State TSSOP48 74LVT162245BDG

16-Bit BUS Transceiver 3State SSOP48 74LVT162245BDL

16-Bit BUS Transceiver 3State TSSOP48 74LVT16245BDG

Octal Buffer/LDriver 3State TSSOP20 74LVT244APW

Octal BUS Transceiver 3State SSOP20 74LVT245DB

Octal BUS Transceiver 3State TSSOP20 74LVT245PW

Dual D F/F POS-Edge SO14 74LVT74D

SAE/J1850/VPW Transceiver SO8 AU5780AD

J1850/VPW Transceiver SO14 AU5783D

CAN Transceiver 1-WIRE SO8 AU5790D

Octal BUS SW 8-Bit TSSOP20 CBT3244APW

3-Bit FSB FREQ CMPR TSSOP16 GTL2009PW

4-Bit LVTTL-GTL Transceiver TSSOP14 GTL2014PW

4-Bit GTL-GTL Buffer TSSOP14 GTL2034PW

Quad 2-Input NOR Gate DIP14 HEF4001BPN

Quad 2-Input NOR Gate SO14 HEF4001BTD

Dual 4-Input NOR Gate SO14 HEF4002BTD

Hex Schmitt Trigger DIP14 HEF40106BPN

Hex Schmitt Trigger SO14 HEF40106BTD

Quad 2-Input NAND Gate DIP14 HEF4011BPN

Quad 2-Input NAND Gate SO14 HEF4011BTD

Dual D Flip-Flop DIP14 HEF4013BPN

Dual D Flip-Flop SO14 HEF4013BTD

8-Bit Static Shift Register SO16 HEF4014BTD

Dual 4-Bit Shift Register DIP16 HEF4015BPN

Quad Billateral Switch DIP14 HEF4016BPN

5ST Johnson Counter SO16 HEF4017BTD

14ST BIN RIP Counter SO16 HEF4020BTD

8-Bit Static Shift Register DIP16 HEF4021BPN

8-Bit Static Shift Register SO16 HEF4021BTD

Triple 3-Input NAND Gate SO14 HEF4023BTD

Octal Buffer/Driver 3State SO20 HEF40244BTD

Dual JK Flip-Flop DIP16 HEF4027BPN

Dual JK F/F Edge-TRG SO16 HEF4027BTD

Decoder BCD-Decimal SO16 HEF4028BTD

Quad EXCL-OR Gate SO14 HEF4030BTD

Octal TRANSP Latch DIP20 HEF40373BPN

Octal TRANSP Latch SO20 HEF40373BTD

12ST BIN RIP Counter DIP16 HEF4040BPN

12ST BIN RIP Counter SO16 HEF4040BTD

Quad R/S Latch 3State SO16 HEF4044BTD

Phase Locked Loop DIP16 HEF4046BPN

logic

NXP loGic coNt.



SE-25

NSW+61 2 9893 9400


Victoria+61 3 9775 4778

Auckland+64 9 443 9500




Phase Locked Loop SO16 HEF4046BTD

Mono/ASTBL Multivibrator DIP14 HEF4047BPN

Mono/ASTBL Multivibrator SO14 HEF4047BTD

Buffer Hex Inverting DIP16 HEF4049BPN

Buffer Hex Inverting SO16 HEF4049BTD

Buffer Hex NonInverter SO16 HEF4050BTD

8-Channel MUX/DEMUX DIP16 HEF4051BPN

8-Channel MUX/DEMUX SO16 HEF4051BTD

8-Ch Analog MUX/DEMUX TSSOP16 HEF4051BTT

DL 4-Ch Analog MUX/DMUX DIP16 HEF4052BPN

DL 4-Ch Analog MUX/DMUX SO16 HEF4052BTD

Triple 2-Ch MUX/DMUX DIP16 HEF4053BPN

Triple 2-Ch MUX/DMUX SO16 HEF4053BTD

Counter Prog DIV-BY-N SO24 HEF4059BTD

14ST BIN Counter/DIV SO16 HEF4060BTD

Quad Bilateral Switch DIP14 HEF4066BPN

Quad Bilateral Switch SO14 HEF4066BTD

16-Channel MUX/DMUX DIP24 HEF4067BPN

16-Channel MUX/DMUX SO24 HEF4067BTD

8-Input NAND Gate SO14 HEF4068BTD

Hex Inverter Unbuffered SO14 HEF4069UBTD

Quad 2-Input OR Gate SO14 HEF4071BTD

Dual 4-Input OR Gate SO14 HEF4072BTD

Quad EXCL NOR Gate DIP14 HEF4077BPN

Quad 2-Input AND Gate DIP14 HEF4081BPN

Quad 2-Input AND Gate SO14 HEF4081BTD

QD 2-In NAND Schmitt Trigger DIP14 HEF4093BPN

QD 2-In NAND Schmitt Trigger SO14 HEF4093BTD

8-Stage BUS Register SO16 HEF4094BTD

BCD-7 SEG DIP16 HEF4511BPN

BCD-7 SEG SO16 HEF4511BTD

BIN Up/Down Counter SO16 HEF4516BTD

Dual Counter BINARY DIP16 HEF4520BPN

Dual Counter BINARY SO16 HEF4520BTD

FREQ Divider 24STG SO16 HEF4521BTD

Dual Mono Multivibrator SO16 HEF4528BTD

Dual Mono Multivibrator DIP16 HEF4538BPN

Dual Mono Multivibrator SO16 HEF4538BTD

Programmable Timer DIP14 HEF4541BPN

BCD-7 SEG DIP16 HEF4543BPN

Dual 1-4 DCOD/DMUX SO16 HEF4555BTD

8STG Shift/Store Reg DIP16 HEF4794BPN

Shift/Register Store SO16 HEF4794BTD

12-ST Shift Register DIP20 HEF4894BPN

12-ST Shift Register SO20 HEF4894BTD

HDMI Interface w/ESD TSSOP38 IP4776CZ38

USB2.0 Transciever HBCC16 ISP1104W

USB TXRX 12/1.5MBITS HVQFN16 ISP1105BS



USB2.0/ULPI1.1 Transceiver HVQFN32 ISP1504ABS

USB2.0/ULPI1.1 Transceiver HVQFN24 ISP1505ABS

Triple Driver/Receiver SO16 MC145406D

Triple Driver/Receiver DIP16 MC145406N

Quad 2-Input NAND Gate SO14 N74F00D

Hex Inverter SO14 N74F04D

Hex Buffer/Driver OPN COL DIP14 N74F06N

Hex Buffer/Driver OPN COL SO14 N74F07D


Hex Buffer/Driver OPN COL DIP14 N74F07N

Quad 2-Input AND Gate SO14 N74F08D

Quad Buffer 3State SO14 N74F125D

Quad Buffer 3State DIP14 N74F125N

Hex Inverter Schmitt Trigger SO14 N74F14D

Buffer Octal 3State SO20 N74F244D

Octal BUS Transceiver 3State SO20 N74F245D

Quad 2-Input NAND Driver SO16 N74F3037D

Quad 2-Input NAND Driver DIP16 N74F3037N

Quad 2-Input OR Gate SO14 N74F32D

Hex Buffer/Driver 3State SO16 N74F367D

2-Input NAND Buffer SO14 N74F38D

Dual D F/F Edge Trigger SO14 N74F74D

Hi-Speed CAN Transceiver DIP8 PCA82C250N

Hi-Speed CAN Transceiver SO8 PCA82C250TD

CAN Transceiver SO8 PCA82C251TD

PECL CLK Terminator SOT23 PSSI3120CA

PCI-Express X1 PHY LFBGA81 PX1011A-EL1/G

TRANSIMP AMP 180MHZ SO14 SA5211D/01

28-Bit Reg Buffer TFBGA160 SSTUH32865ET/G

Reg Buffer 13-Bit SSTL2 HVQFN56 SSTVF16859BS

Smart Card Interface LQFP32 TDA8020HL2BD

Smart Card Interface LQFP32 TDA8020HLBD

LIN Transceiver SO8 TJA1020TD

Hi-Speed CAN Transceiver SO8 TJA1040TD



CAN Transceiver Fault-Tol SO14 TJA1053TD

CAN Transceiver Fault-Tol SO14 TJA1054ATD

CAN Transceiver Fault-Tol SO14 TJA1054TD

logic

NXP loGic coNt.



SE-26

NSW+61 2 9893 9400


Victoria+61 3 9775 4778

Auckland+64 9 443 9500




SOT223 NPN 150MA 15V 7GHZ BFG135

SOT343N NPN 70MA 15V 9GHZ BFG520W/X

SOT143B NPN 15V 9GHZ BFG540/X

SOT223 NPN 15V 9GHZ BFG541

SOT223 NPN 15V 7GHZ BFG591

SOT223 NPN 15V 5.5GHZ BFG97

SOT363 NPN DL 70MA 8V 9GHZ BFM520

SOT23 NPN 50MA 10V 8GHZ BFQ67

SOT23 NPN 15V 5GHZ BFR106

SOT23 NPN 15V 9GHZ BFR505

SOT23 NPN 70MA 15V 9GHZ BFR520

SOT23 NPN 120MA 15V 9GHZ BFR540

SOT23 NPN 25MA 15V 5GHZ BFR92A

SOT323 NPN 15V 5GHZ BFR92AW

SOT23 NPN 35MA 12V 6GHZ BFR93A

SOT23 NPN 25MA 15V 3GHZ BFS17A

SOT23 NPN 25MA 15V 1GHZ BFS17

SOT323 NPN 15V 1GHZ BFS17W

SOT323 NPN 15V 9GHZ BFS505

SOT323 NPN 70MA 15V 9GHZ BFS520

SOT23 NPN 5V 5GHZ BFT25A

SOT23 PNP 25MA 15V 5GHZ BFT92

SOT323 PNP 35MA 15V 4GHZ BFT92W

SOT23 PNP 12V 5GHZ BFT93

SOT23 NPN UHF 50MA PBR941

SOT23 NPN UHF 100MA PBR951

SOT416 NPN 10V 9GHZ PRF949

SOT323 NPN 10V 100mA 8.5GHZ PRF957

NXP trANSiStorS

NPN/PNP WiDEBAND trANSiStorS


SOT343R NPN 15V .5A 18GHZ BFG21W

SOT343R NPN 4.5V 17GHZ BFG403W




SOT143B N-CH Dual Gate 6V BF1212

SOT143R N-CH Dual Gate 6V BF1212R

SOT343R N-CH Dual Gate 6V BF1212WR

SOT23 JFET N-CH 20V 10MA BF511

SOT23 JFET N-CH 30V 10MA BF545C

SOT23 JFET N-CH 25V 10MA BF861B

SOT23 JFET N-CH 20V 10MA BF862

SOT343R N-CH DUAL GATE 12V BF908WR

SOT143B N-CH DUAL GATE 20V BF991


SOT143B N-CH DUAL GATE 20V BF994S


NPN/PNP WiDEBAND trANSiStorS

rF MoSFEtS


SOT123A RF DMOS 30W HF BLF145

SOT121B RF DMOS 150W VHF BLF147

SOT123A RF DMOS 30W HF-VHF BLF175

SOT121B RF DMOS 150W HF-VHF BLF177

SOT123A RF DMOS 5W HF-VHF BLF242

SOT123A RF DMOS 15W VHF BLF244

SOT123A RF DMOS 30W VHF BLF245

SOT279A RF DMOS 30W VHF P-P BLF245B

SOT161A RF DMOS 60W VHF P-P BLF246B

SOT262A1 RF DMOS 300W VHF P-P BLF248

SOT262A1 RF DMOS 250W VHF BLF278

SOT171A RF DMOS 5W UHF BLF542

SOT171A RF DMOS 20W UHF BLF544

BiPolAr trANSiStorS -GENErAl PUrPoSE

PoWEr MoS trANSiStorS

PoWEr lDMoS trANSiSitorS


SOT23 PNP GP 500MA 45V BC807-40

SOT23 NPN GP 500 45V BC817-25

SOT23 NPN GP 500 45V BC817-40

SOT23 NPN GP 100MA 65V BC846B

SOT23 NPN/PNP 45V 100mA BC847B

SOT23 NPN GP 100MA 45V BC847C

SOT363 NPN/PNP 100MA 45V BC847BPN

SOT363 NPN GP 100MA 45V BC847BS

SOT23 PNP GP 100MA 65V BC856B

SOT23 PNP GP 100MA 45V BC857B

SOT223 NPN MED 1A 80V BCP56

SOT23 PNP 500MA 45V BCX17

SOT89 PNP MED 1A 80V BCX53-16

SOT89 NPN MED 1A 80V BCX56-16


SOT538A RF LDMOS 10W UHF BLF1043

SOT467C RF LDMOS 45W UHF BLF1046

SOT467C RF LDMOS 10W UHF BLF2043F

SOT800-2 MOD RF LDMOS 65V 100A BLF369

SOT540A RF LDMOS 150W UHF BLF647

SOT540A RF LDMOS 150W UHF BLF861A

SOT800-1 MOD RF LDMOS 300W UHF BLF872

SOT502A RF LDMOS L-BAND BLL1214-250

DiscRetes



SE-27

NSW+61 2 9893 9400


Victoria+61 3 9775 4778

Auckland+64 9 443 9500




SOT416 PNP W/RES 50V PDTA115EE

SOT346 PNP W/RES 50V PDTA115EK

SOT23 PNP W/RES 50V PDTA115ET

SOT323 PNP W/RES 50V PDTA115EU

SOT23 PNP W/RES 50V PDTA115TT

SOT416 PNP W/RES 50V PDTA124TE




SOT416 PNP W/RES 50V PDTA144WE

SOT346 PNP W/RES 50V PDTA114TK

SOT416 PNP W/RES 50V PDTA114YE



SOT323 PNP W/RES 50V PDTA115TU

SOT416 PNP W/RES 50V PDTA123EE



SOT416 PNP W/RES 50V PDTA143ZE




NXP trANSiStorS coNt.

PNP rESiStor-EqUiPPED trANSiStorS


SOT416 NPN W/RES 50V PDTC115TE

SOT323 NPN W/RES 50V PDTC115TU



SOT416 NPN W/RES 50V PDTC144WE

SOT23 NPN W/RES 50V PDTC115TT

SOT416 NPN W/RES 50V PDTC123EE

SOT23 NPN W/RES 50V PDTC123JT


SOT416 NPN W/RES 50V PDTC143ZE

SOT23 NPN W/RES 50V PDTC143ZT

NPN rESiStor-EqUiPPED trANSiStorS


SOT23 NPN SW 600MA 40V PMBT2222A

SOT23 NPN SW 200MA 15V PMBT2369

SOT23 PNP SW 600MA 60V PMBT2907A


SOT23 PNP SW 200MA 40V PMBT3906


SOT23 PNP SW 600MA 40V PMBT4403

SOT23 NPN GP 500MA 80V PMBTA06

SOT23 NPN HV 100MA 300V PMBTA42

SOT23 PNP GP 500MA 80V PMBTA56

SOT23 PNP HV 100MA 300V PMBTA92

SOT89 NPN SW 40V 100MA PXT2222A

SOT223 NPN SW 40V 600MA PZT4401

SOT223 PNP SW 40V 600MA PZT4403

NPN/PNP SWitchiNG trANSiStorS

NPN/PNP loW VcE SAt (BiSS*) trANSiStorS


SOT457 NPN 20V 4A LOW SAT PBSS301ND

SOT23 NPN 40V 1000MA PBSS4140T

SOT23 PNP 40V 2A PBSS4240T

SOT89 NPN 80V 4A PBSS4480X



SOT23 PNP 20V 2A LO VCESAT PBSS5320T

SOT23 PNP 50V 2A LO VCESAT PBSS5350T

SOT416 NPN 15V .5A LOW SAT PBSS2515E

SOT457 PNP 20V 4A LOW SAT PBSS301PD

SOT457 NPN 40V 4A LOW SAT PBSS302ND

SOT89 PNP 20V 5.3A PBSS302NX

SOT223 NPN 20V 5.8A PBSS302NZ

SOT457 PNP 40V 4A LOW SAT PBSS302PD

SOT89 PNP 20V 5.1A PBSS302PX

SOT223 PNP 20V 5.5A PBSS302PZ

SOT457 NPN 80V 3A SC-74 PBSS304ND

SOT457 PNP 80V 3A SC-74 PBSS304PD

SOT89 NPN 80V 4.6A PBSS305NX

SOT223 NPN 80V 5.1A PBSS305NZ

SOT89 PNP 80V 4A PBSS305PX

SOT223 PNP 80V 4.5A PBSS305PZ

SOT23 NPN 30V 1A LOW SAT PBSS4130T

SOT457 NPN/PNP 40V 1A PBSS4140DPN

SOT23 NPN 30V 2A PBSS4230T

SOT23 NPN 20V 2A PBSS4320T

SOT89 NPN 50V 3A PBSS4350X

SOT223 NPN 50V 3A PBSS4350Z

SOT223 NPN 40V 5A PBSS4540Z

SOT89 PNP 20V 3A LO VCESAT PBSS5320X

SOT89 PNP 50V 3A LO VCESAT PBSS5350X

SOT223 PNP 40V 5A LO VCESAT PBSS5540Z

*BISS stands for Breakthrough In Small Signal. These are NXP’s 3rd generation transistors with a very low collector-emitter resistance. This reduces the heat, power consumption and increases efficiency.

DiscRetes



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Victoria+61 3 9775 4778

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Package configuration Vr max (V) iF max (mA) VF max (mV) @ iF (mA) ir max (µA) @ Vr (V) Manf. Part No.

SOT23 Dual Series 30 200 340 10 2 25 BAT754S

SOT23 Dual Common Cathode 30 200 340 10 2 25 BAT754C

SOD80C Single 30 200 400 10 2 25 BAS85

DO-34 Single 30 200 400 10 2 25 BAT85

SOT23 Single 30 200 400 10 2 25 BAT54

SOD123F Single 30 200 400 10 2 25 BAT54H

SOT323 Single 30 200 400 10 2 25 BAT54W

SOD323 Single 30 200 400 10 2 25 1PS76SB10


SOT323 Dual Series 30 200 400 10 2 25 BAT54SW


SOT323 Dual Common Cathode 30 200 400 10 2 25 BAT54CW

SOT23 Dual Common Anode 30 200 400 10 2 25 BAT54A

SOT323 Dual Common Anode 30 200 400 10 2 25 BAT54AW

SOT143B Dual Isolated 30 200 400 10 2 25 BAT74

SOT363 Dual-Dual Series 30 200 400 10 2 25 BAT54XY

SOD882 Single 30 200 300 10 30 10 PMEG3002AEL

SOD123F Single 40 120 500 10 1 30 BAS40H

SOD882 Single 40 120 500 10 1 30 BAS40L

SOT23 Dual Series 40 120 500 10 1 30 BAS40-04

SOT323 Dual Series 40 120 500 10 1 30 BAS40-04W



SOT23 Dual Common Anode 40 200 300 10 15 30 BAT721A

SOD882 Single 40 200 360 10 0.5 25 PMEG4002EL

SOD80C Single 50 200 450 10 5 40 BAS86

SOT23 Single 70 70 750 10 0.1 50 BAS70

SOT23 Dual Series 70 70 750 10 0.1 50 BAS70-04

SOT323 Dual Series 70 70 750 10 0.1 50 BAS70-04W

SOT23 Dual Common Cathode 70 70 750 10 0.1 50 BAS70-05

SOT23 Dual Common Anode 70 70 750 10 0.1 50 BAS70-06

SOT143B Dual Isolated 70 70 750 10 0.1 50 BAS70-07

NXP DioDES -SchottKy

SMAll SiGNAl SchottKy DioDES

VR Reverse VoltageIR Reverse CurrentVF Forward VoltageIF Forward Current

DiscRetes



SE-29

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Package Vr max (V) iF max (mA) VF max (V) iFSM max (A) recovery time trr max (ns) ir max (nA) Manf. Part No.

DO-35 100 200 1.0@IF=10mA 4 4 25@VR=20V 1N4148

DO-35 100 200 1.0@IF=100mA 4 4 25@VR=20V 1N4448

DO-34 75 200 1.0@IF=10mA 4 4 25@VR=20V 1N4531

SOT346 80 215 1.0@IF=50mA 4 4 500@VR=80V 1PS193

SOT23 50 215 1.0@IF=50mA 4 4 100@VR=50V BAL74

SOT23 70 215 1.0@IF=50mA 4 4 1000@VR=70V BAL99

SOT23 300 200 1.1@IF=100mA 9 50 150@VR=250V BAS101

SOT23 75 215 1.0@IF=10mA 4 3000 5@VR=75V BAS116

SOD123F 75 215 1.0@IF=10mA 4 3000 5@VR=75V BAS116H

SOT23 100 215 1.0@IF=50mA 4 4 1000@VR=75V BAS16


SOD323F 100 250 1.0@IF=50mA 3.3 4 1000@VR=75V BAS16J

SOD882 100 215 1.0@IF=50mA 4 4 1000@VR=75V BAS16L

SOT416 100 155 1.0@IF=50mA 4 4 1000@VR=75V BAS16T

SOT323 100 175 1.0@IF=50mA 4 4 1000@VR=75V BAS16W

SOT23 100 200 1.0@IF=100mA 9 50 100@VR=100V BAS19

SOT23 150 200 1.0@IF=100mA 9 50 100@VR=150V BAS20

SOT23 200 200 1.0@IF=100mA 9 50 100@VR=200V BAS21


SOD323F 300 250 1.1@IF=100mA 3 50 150@VR=250V BAS21J

SOD323 100 250 1.0@IF=50mA 4 4 1000@VR=75V BAS316

SOD323 200 250 1.0@IF=100mA 9 50 100@VR=200V BAS321

SOD80C 75 200 1.0@IF=100mA 4 4 5000@VR=75V BAS32L

SOD323 75 200 1.0@IF=10mA 4 3000 5@VR=75V BAS416

DO-34 125 250 1.0@IF=100mA 4 1500 1@VR=125V BAS45A

SOD80C 125 250 1.0@IF=100mA 4 1500 1@VR=125V BAS45AL

SOD523 100 250 1.0@IF=50mA 4 4 1000@VR=75V BAS516

SOD523 300 250 1.1@IF=100mA 4.5 50 150@VR=250V BAS521

SOD523 75 200 1.0@IF=10mA 4 3000 5@VR=75V BAS716

SOD80C 150 250 1.0@IF=100mA 9 50 100@VR=150V BAV102

SOD80C 200 250 1.0@IF=100mA 9 50 100@VR=200V BAV103

DO-35 150 250 1.0@IF=100mA 9 50 100@VR=150V BAV20

DO-35 200 250 1.0@IF=100mA 9 50 100@VR=200V BAV21

DO-35 75 250 1.0@IF=100mA 4 4 5000@VR=75V BAW62

SOT23 70 215 1.0@IF=50mA 4 4 100@VR=50V PMBD6050

SOT23 100 215 1.0@IF=50mA 4 4 1000@VR=75V PMBD914

SOD80C 75 200 1.0@IF=50mA 4 4 25@VR=20V PMLL4148L

SOD80C 50 200 0.88@IF=50mA 4 4 50@VR=50V PMLL4153

SOD80C 75 200 1.0@IF=100mA 4 4 25@VR=20V PMLL4448

NXP DioDES -SWitchiNG

SWitchiNG DioDES -Single

DiscRetes



SE-30

NSW+61 2 9893 9400


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Auckland+64 9 443 9500



NXP DioDES -SWitchiNG coNt.

SWitchiNG DioDES -Dual


SOT346 80 215 1.0@IF=50mA 4 4 500@VR=80V 1PS181

SOT346 80 215 1.0@IF=50mA 4 4 500@VR=80V 1PS184

SOT346 80 215 1.0@IF=50mA 4 4 500@VR=80V 1PS226

SOT323 80 200 1.0@IF=50mA 4 4 500@VR=80V 1PS300

SOT323 80 250 1.0@IF=50mA 4 4 500@VR=80V 1PS301

SOT323 80 200 1.0@IF=50mA 4 4 500@VR=80V 1PS302

SOT23 300 200 1.1@IF=100mA 9 50 150@VR=250V BAS101S

SOT143B 75 215 1.0@IF=50mA 4 4 1000@VR=75V BAS28

SOT23 75 215 1.0@IF=10mA 4 3000 5@VR=75V BAV170

SOT23 75 160 1.0@IF=10mA 4 3000 5@VR=75V BAV199

SOT323 75 135 1.0@IF=10mA 4 3000 5@VR=75V BAV199W

SOT143B 200 225 1.0@IF=100mA 9 50 100@VR=200V BAV23

SOT23 200 225 1.0@IF=100mA 9 50 100@VR=200V BAV23S

SOT23 100 215 1.0@IF=50mA 4 4 500@VR=80V BAV70

SOT416 100 150 1.0@IF=50mA 4 4 500@VR=80V BAV70T

SOT323 100 175 1.0@IF=50mA 4 4 500@VR=80V BAV70W

SOT23 50 215 1.0@IF=100mA 4 4 100@VR=50V BAV74

SOT23 100 215 1.0@IF=50mA 4 4 1000@VR=75V BAV99

SOT323 100 150 1.0@IF=50mA 4 4 1000@VR=75V BAV99W

SOT143B 300 250 1.1@IF=100mA 4.5 50 150@VR=250V BAW101

SOT363 300 250 1.1@IF=100mA 4.5 50 150@VR=250V BAW101S

SOT23 75 160 1.0@IF=10mA 4 3000 5@VR=75V BAW156

SOT23 90 215 1.0@IF=50mA 4 4 500@VR=80V BAW56

SOT416 90 150 1.0@IF=50mA 4 4 500@VR=80V BAW56T

SOT323 90 150 1.0@IF=50mA 4 4 500@VR=80V BAW56W

SOT23 70 215 1.0@IF=50mA 4 4 100@VR=50V PMBD6100

SOT23 100 215 1.0@IF=50mA 4 4 500@VR=100V PMBD7000

SOT23 100 215 1.0@IF=50mA 4 4 2500@VR=100V PMBD7100


SOT363 100 250 1.0@IF=50mA 4 4 500@VR=80V BAV70S

SOT363 90 250 1.0@IF=50mA 4 4 500@VR=80V BAV756S

SOT363 90 250 1.0@IF=50mA 4 4 500@VR=80V BAW56S

SOT363 100 200 1.0@IF=50mA 4.5 4 1000@VR=75V BAV99S

Package Vr max (V) cD max (pF) iFrM max (mA) iFSM max (A) recovery time trr max (ns) ir max (nA) Manf. Part No.

SOT23 90 35 600 10 50 100@VR=90V BAS29

SOT23 90 35 600 10 50 100@VR=90V BAS31

SOT23 90 35 600 10 50 100@VR=90V BAS35

SOT143B 60 2.5 600 9 6 100@VR=60V BAS56

SWitchiNG DioDES -Quad

coNtrollED AVAlANchE SWitchiNG DioDES

VR Reverse VoltageIR Reverse CurrentVF Forward VoltageIF Forward CurrentIFSM Non-repetitive Peak Forward CurrentCD Diode Capacitance

DiscRetes



SE-31

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Victoria+61 3 9775 4778

Auckland+64 9 443 9500



Designed to protect electronic equipment from the

damage caused by Electrostatic Discharge (ESD) pulses.

NXP DioDES -FASt rEcoVEry

DAMPEr AND MoDUlAtor DioDES

VF Forward VoltageIF Forward CurrentVRRM Peak Repetitive Reverse VoltageIO Output Currenttrr Reverse Recovery Time

Package VrrM (V) iF av (A)VF max

(V)trr max

(ns)Manf. Part No.

SOD113 200 8 1.85 135 BY229X-200

SOT78 600 8 1.85 135 BY229-600

SOD113 600 8 1.85 135 BY229X-600

SOD113 800 8 1.85 135 BY229X-800

SOT78 1000 8 1.85 135 BY329-1000

SOD113 1200 8 1.85 135 BY329X-1200

SOT78 1200 8 1.85 135 BY329-1200

PFc & hyPErFASt rEcoVEry DioDES

UltrA FASt rEcoVEry DioDES -S ingle

Package VrrM (V) io av/iF av (A) trr (ns) Manf. Part No.

SOT78 600 10 19 BYC10-600

SOT78 600 10 19 BYC10-600CT

SOT78 600 5 19 BYC5-600

SOT78 600 8 19 BYC8-600

PackageVrrM

(V)io av/ iF av (A)

trr (ns) VF (V) @iF (A) Manf. Part No.

SOT78 500 14 60 1.05 15 BYT79-500

SOT78 400 9 60 1.03 8 BYV29-400

SOT78 500 9 60 1.03 8 BYV29-500

SOT78 200 14 30 0.9 14 BYV79E-200

SOD59 600 8 75 1.5 8 BYR29-600

SOD59 800 8 75 1.5 8 BYR29-800

PackageVrrM

(V)io av/ iF av (A)

trr (ns) VF (V) @iF (A) Manf. Part No.

SOT78 150 30 28 0.85 15 BYV42E-150

SOT78 200 30 28 0.85 15 BYV42E-200

SOT429 200 30 28 0.82 15 BYV72EW-200

SOT429 400 30 60 1.12 15 BYV74W-400

SOT78 200 16 25 0.95 8 BYQ30E-200

SOT78 200 10 25 0.895 5 BYQ28E-200

SOT428 200 10 25 0.895 5 BYQ28ED-200

SOT186A 200 10 25 0.895 5 BYQ28X-200

SOT78 500 10 60 1.05 5 BYT28-500

SOT78 100 20 25 0.95 8 BYV32E-100

SOT78 150 20 25 0.85 8 BYV32E-150

SOT78 200 20 25 0.85 8 BYV32E-200

SOT404 200 20 25 0.85 8 BYV32EB-200

UltrA FASt rEcoVEry DioDES -Dual

NXP DioDES -ESD ProtEctioN

ESD ProtEctioN DioDES -1 Line

Package cd max. (pF)

VBr typ. (V)

PPM max (W)

irM max (µA)

@ VrWM

(V)Manf. Part No.

SOD323 - 6.4 500 2 3.3 PESD3V3L1BA

SOD523 300 5.6 330 2 3.3 PESD3V3S1UB

SOT23 1.5 6.4 80 2 3.3 PESD3V3U1UT

SOD882 300 5.6 150 2 3.3 PESD3V3S1UL

SOD323 45 - 130 0.1 5 PESD5V0S1BA

SOD523 45 - 130 0.1 5 PESD5V0S1BB

SOD882 45 - 130 0.1 5 PESD5V0S1BL

SOD323 - 7.6 500 1 5 PESD5V0L1BA

SOD523 200 6.8 260 1 5 PESD5V0S1UB

SOT23 1.5 7.6 80 1 5 PESD5V0U1UT

SOD882 200 6.8 150 1 5 PESD5V0S1UL

SOD323 - 15.9 200 0.05 12 PESD12VL1BA

SOD523 75 15 180 0.05 12 PESD12VS1UB

SOT23 1.5 15 200 0.05 12 PESD12VU1UT

SOD882 50 27 150 0.05 24 PESD24VS1UL


VBr typ. (V)

PPM max (W)

irM max (µA)

@ VrWM

(V)Manf. Part No.

SOT23 - 6.4 350 2 3.3 PESD3V3L2BT

SOT23 300 5.6 330 2 3.3 PESD3V3S2UT

SOT23 300 5.6 330 2 3.3 PESD3V3S2UAT

SOT663 275 5.6 150 3 3.3 PESD3V3S2UQ

SOT883 28 5.6 30 0.3 3.3 PESD3V3L2UM

SOT23 - 7.6 350 1 5 PESD5V0L2BT

SOT23 45 - 130 0.1 5 PESD5V0S2BT

SOT23 200 6.8 260 1 5 PESD5V0S2UAT

SOT663 215 6.8 150 0.3 5 PESD5V0S2UQ

SOT883 19 6.8 30 0.025 5 PESD5V0L2UM

SOT23 200 6.8 260 1 5.2 PESD5V2S2UT

SOT23 0 15.8 200 0.05 12 PESD12VL2BT

SOT23 75 15 180 1 12 PESD12VS2UT

SOT23 75 15 180 0.05 12 PESD12VS2UAT

SOT663 100 15 150 0.03 12 PESD12VS2UQ

SOT23 0 18.8 200 0.05 15 PESD15VL2BT

SOT23 70 18 160 1 15 PESD15VS2UT



VBr typ. (V)

PPM max (W)

irM max (µA)

@ VrWM

(V)Manf. Part No.

SOT457 240 5.6 - 2 3 BZA456A

SOT353 28 5.6 30 0.3 3.3 PESD3V3L4UG

SOT665 18 5.6 16 0.3 3.3 PESD3V3V4UW

SOT457 100 14.5 200 0.015 12 PESD12VS4UD



VBr typ. (V)

PPM max (W)

irM max (µA)

@ VrWM

(V)Manf. Part No.

SOT666 28 5.6 25 0.3 3.3 PESD3V3L5UV

SOT363 28 5.6 25 0.3 3.3 PESD3V3L5UY

SOT666 19 6.8 25 0.025 5 PESD5V0L5UV

SOT363 19 6.8 25 0.025 5 PESD5V0L5UY

SOT457 70 27 200 0.015 24 PESD24VS5UD


Cd Diode CapacitanceVBR Breakdown VoltagePPP Peak Pulse Power DissipationIRM Reverse Leakage CurrentVRWM Reverse Stand-off Voltage

DiscRetes



SE-32

NSW+61 2 9893 9400


Victoria+61 3 9775 4778

Auckland+64 9 443 9500



St VoltAGE rEGUlAtorS

Voltage Volt. tol.operating temp.

range (ºc)Package Manf. Part No.

5V

2% 0 to 125 TO220 L7805ACV

2% –40 to 125 TO220 L7805ABV

4% 0 to 125 TO3 L7805CT

4% 0 to 125 TO220 L7805CV

4% 0 to 125 ISOWATT220 L7805CP

6V

2% 0 to 125 TO220 L7806ACV

2% –40 to 125 TO220 L7806ABV

4% 0 to 125 TO3 L7806CT

4% 0 to 125 TO220 L7806CV


8V

2% 0 to 125 TO220 L7808ACV

2% –40 to 125 TO220 L7808ABV

4% 0 to 125 TO3 L7808CT

4% 0 to 125 TO220 L7808CV


9V

2% 0 to 125 TO220 L7809ACV

2% –40 to 125 TO220 L7809ABV

4% 0 to 125 TO3 L7809CT

4% 0 to 125 TO220 L7809CV


12V

2% 0 to 125 TO220 L7812ACV

2% –40 to 125 TO220 L7812ABV

4% 0 to 125 TO3 L7812CT

4% 0 to 125 TO220 L7812CV


15V

2% 0 to 125 TO220 L7815ACV

2% –40 to 125 TO220 L7815ABV

4% 0 to 125 TO3 L7815CT

4% 0 to 125 TO220 L7815CV


500MA oUtPUt



5V2% –40 to 125 TO220 L78M05ABV

4% 0 to 125 TO220 L78M05CV

6V2% –40 to 125 TO220 L78M06ABV

4% 0 to 125 TO220 L78M06CV

8V2% –40 to 125 TO220 L78M08ABV

4% 0 to 125 TO220 L78M08CV

9V2% –40 to 125 TO220 L78M09ABV

4% 0 to 125 TO220 L78M09CV

10V2% –40 to 125 TO220 L78M10ABV

4% 0 to 125 TO220 L78M10CV

12V2% –40 to 125 TO220 L78M12ABV

4% 0 to 125 TO220 L78M12CV

15V2% –40 to 125 TO220 L78M15ABV

4% 0 to 125 TO220 L78M15CV

1.5A oUtPUt



5V 4% 0 to 150 TO220 L78S05CV

7.5V 4% 0 to 150 TO220 L78S75CV

9V 4% 0 to 150 TO220 L78S09CV

10V 4% 0 to 150 TO220 L78S10CV

12V 4% 0 to 150 TO220 L78S12CV

15V 4% 0 to 150 TO220 L78S15CV

18V 4% 0 to 150 TO220 L78S18CV

24V 4% 0 to 150 TO220 L78S24CV

2A oUtPUt

100MA oUtPUt



5V4%

0 to 125 SO8

L79L05ACD

8% L79L05CD

6V4% L79L06ACD

8% L79L06CD

8V4% L79L08ACD

8% L79L08CD

9V4% L79L09ACD

8% L79L09CD

12V4% L79L12ACD

8% L79L12CD

15V4% L79L15ACD

8% L79L15CD

NEGAtiVE FiXED VoltAGE

100MA oUtPUt

1.5A oUtPUt



5V 4%

0 TO 125 TO92

L79L05ACZ

6V 4% L79L06ACZ

8V 4% L79L08ACZ

9V 4% L79L09ACZ

12V 4% L79L12ACZ

15V 4% L79L15ACZ



5V2% 0 to 150 TO220 L7905ACV

4% 0 to 150 TO220 L7905CV

8V2% 0 to 150 TO220 L7908ACV

4% 0 to 150 TO220 L7908CV

12V2% 0 to 150 TO220 L7912ACV

4% 0 to 150 TO220 L7912CV

15V2% 0 to 150 TO220 L7915ACV

4% 0 to 150 TO220 L7915CV

TO220

GND

OUT

IN GND

GND

OUT

IN GND

SO8

GND

NC

ININ

ININ

NC

OUT

GND

NC

ININ

ININOUT

GND IN

TO92

OUTGND

TO220

OUT

GND IN

IN

GND IN

ININ

RegulAtoRs

TO220

IN

OUT

GND

IN

OUT

GND

GND

ISOWATT220TO220

IN

OUT

GND

IN

OUT

GND

GND

ISOWATT220

GND

OUT

IN

TO3

PoSitiVE FiXED VoltAGE SMD

SMD

SE-33

NSW+61 2 9893 9400


Victoria+61 3 9775 4778

Auckland+64 9 443 9500



St VoltAGE rEGUlAtorS

ADJUStABlE VoltAGE

output operating temp. range (ºc)

Package Manf. Part No.current Voltage

100mA 1.2 to 37V -40 to 125

TO92LM217LZ

0 to 125 LM317LZ

150mA 2 to 37V 0 to 70 DIP14 LM723CN

500mA 1.2 to 37V -40 to 125

TO220

LM217MT

0 to 125 LM317MT

800mA 1.25 to 15V * 0 to 125 LD1117V

1.5A 1.2 to 37V

-55 to 150

TO3

LM117K

-25 to 150 LM217K

0 to 125 LM317K

-25 to 150TO220

LM217T

0 to 125 LM317T

5A 1.2 to 32V

-55 to 150

TO3

LM138K

-25 to 150 LM238K

0 to 150 LM338K

PoSitiVE oUtPUt (SMD)output operating temp.


current Voltage

500mA 1.2 to 37V

–25 to 150 D2PAK

LM217D2T

0 to 125 LM317D2T

–40 to 125 DPAK

LM217MDT

0 to 125 LM317MDT

800mA 1.25 to 15V* 0 to 125 DPAK LD1117DT

SOT223 LD1117S

PoSitiVE oUtPUt

type Functionoper. temp. range (ºc)

Manf. Part No.leaded S. Mount

LM236 2.5V Shunt Volt. Ref. 2% –25 to 85 LM236Z LM236D

LM336 2.5V Shunt Volt. Ref. 4% 0 to 70 LM336Z LM336D

LM336B 2.5V Shunt Volt. Ref. 2% 0 to 70 LM336BZ LM336BD

MC1403 2.5V Precision Serial Volt.

Ref. 1% 0 to 70 - MC1403D

TL431AC2.5V to 36V Prog. Shunt

V. Ref. 1%0 to 70 TL431ACZ TL431ACD

TL431AI2.5V to 36V Prog. Shunt

V. Ref. 1% –40 to 85 TL431AIZ TL431AID

TL431C2.5V to 36V Prog. Shunt

V. Ref. 2%0 to 70 TL431CZ TL431CD

TL431I 2.5V to 36V Prog. Shunt

V. Ref. 2%–40 to 85 TL431IZ TL431ID

TL1431AC2.5V to 36V Prog. Shunt

V. Ref. 0.25%–20 to 70 TL1431ACZ TL1431ACD

TL1431AI2.5V to 36V Prog. Shunt

V. Ref. 0.25%– 40 to 105 TL1431AIZ TL1431AID

TL1431C2.5V to 36V Prog. Shunt

V. Ref. 0.4% –20 to 70 TL1431CZ TL1431CD

TL1431I 2.5V to 36V Prog. Shunt

V. Ref. 0.4%–40 to 105 TL1431IZ TL1431ID

NEGAtiVE oUtPUt

2.5V & 2.5 to 36V

output operating temp. range (ºc)

Package Manf. Part No.current Voltage

1.5A 1.2 to 37V

–55 to 150

TO3

LM137K

–25 to 150 LM237K

0 to 125 LM337K

1.24 to 6V

type Functionoper. temp. range (ºc)

Manf. Part No.leaded S. Mount

TS431AI 1.24 to 6V Prog. Shunt

V. Ref 1% –40 to 85 TS431AIZ TS431AIL

TS431I 1.24 to 6V Prog. Shunt

V. Ref 2% –40 to 85 TS431IZ TS431IL

St VoltAGE rEFErENcES

*Low Dropout Voltage, 1V typ.

SOT223DPAK

OUT

IN

ADJ.

D2PAK

OUT

IN

ADJ.

OUT

INOUT

GND

DPAK

OUT

IN

D2PAK

OUT

IN

ADJ.

OUT

OUTGND

LM236 / 336 / 336B

TO92

V –V–

V +ADJ.

SO8

TL431 / TL1431 SERIES

ADJ.

NC NCNC

NCNC

NC

NCGND

VOUTVIN

REF.

AK

NCNC

NC

A

NCA

AK

NCA

REF.

V+

SO8TO92

SO8

MC1403

TO92

V –V–

V +ADJ.

SO8

TL431 / TL1431 SERIES

ADJ.

NC NCNC

NCNC

NC

GNDVOUTVOUTVVINVINV

REF.

AK

NCNC

NC

A

NCA

AK

NCA

REF.

V+

SO8TO92

TO92 SOT23-5LREF.

A

NC

NC

KREF.

AK

TO92REF.

A

NC

NCREF.

AK

DIP14

TO220

TO3

TO92

ADJ.

IN

OUT

ADJ.

IN

OUT

OUT

ADJ.IN

OUT

CURRENTLIMIT

CURRENTSENSE

INVERTINPUT

NON-INV.INPUT

V ref

– VS

FREQ.COMP.

+ VS

VC

VD

VZ

NC

NC

NC 1 14

2 13

3 12

4 11

5 10

6 9

7 8

DIP14

TO220

TO3

TO92

ADJ.

IN

OUT

ADJ.

IN

OUT

OUT

ADJ.IN

OUT

RegulAtoRs

SMDSMD

SE-34

NSW+61 2 9893 9400


Victoria+61 3 9775 4778

Auckland+64 9 443 9500



loW PoWEr ASyNchroNoUS rAM

FASt ASyNchroNoUS SrAM coNt.

FASt ASyNchroNoUS SrAM


Low Power DRAM, 64Mb / 4M x 16 bit, +3.3V, 166/143 MHz, 5.4/5.4 ns, 54-pin TSOP II

AS4C4M16S-7TCN

Low Power DRAM, 128Mb/ 8M x 16 bit, +3.3V, 166/143 MHz, 5/5.4 ns, 54-pin TSOP II

AS4C8M16S-7TCN

Low Power DRAM, 256Mb/ 16M x 16 bit, +3.3V, 200/166/143 MHz, 4.5/5.4/5.4 ns, 54-pin TSOP II

AS4C16M16S-7TCN

Low Power SRAM,2.7 - 5.5V 128K x 8, 55ns, 32-DIP AS6C1008-55PCN

Low Power SRAM, 2.7 - 5.5V128K x 8, 55ns, 32-SOP AS6C1008-55SIN

Low Power SRAM,2.7 -5.5V, 512K x 8, 55ns, 32-DIP AS6C4008-55PCN

Low Power SRAM,2.7 - 5.5V, 512K x 8, 55ns, 32-SOP AS6C4008-55SIN

Low Power SRAM,2.7 - 5.5V, 512K x 8, 55ns, 32 - sTSOP AS6C4008-55STIN

Low Power SRAM,2.7 - 5.5V 512K x 8, 55ns, 32 -TSOP I AS6C4008-55TIN

Low Power SRAM, 2.7 -5.5V 32K x 8, 55ns, 28-DIP AS6C62256-55PCN

Low Power SRAM, 2.7 -5.5V 32K X 8, 55ns, 28-SOP AS6C62256-55SCN

Low Power SRAM, 5V 32K X 8, 70ns, 28-DIP AS6C62256A-70PCN

Low Power SRAM, 5V 32K X 8, 70ns, 28-SOP AS6C62256A-70SCN

Low Power SRAM, 2.7 - 5.5V, 8K x 8, 55ns, 28-DIP AS6C6264-55PCN

Low Power SRAM, 2.7 - 5.5V, 8K x 8, 55ns, 28-SOP AS6C6264-55SCN

Low Power SRAM, 5V, 8K x 8, 70ns, 28-DIP AS6C6264A-70PCN

Low Power SRAM, 5V, 8K x 8, 70ns, 28-SOP AS6C6264A-70SCN


Fast Asynch, 5V, 128K x 8, 12ns, 32-SOJ(400 mil) AS7C1024B-12JCN

Fast Asynch, 5V, 128K X 8, 12ns, 32-TSOP I AS7C1024B-12TCN

Fast Asynch, 5V, 128K x 8, 12ns, 32-SOJ(300 mil) AS7C1024B-12TJCN

Fast Asynch, 5V, 128K x 8, 12ns, 32-SOJ(400 mil), Centre Power

AS7C1025B-12JCN

Fast Asynch, 5V, 128K X 8, 12ns, 32-TSOP I, Center Power AS7C1025B-12TCN

Fast Asynch, 5V, 128K x 8, 12ns, 32-SOJ(300 mil), Centre Power

AS7C1025B-12TJCN

Fast Asynch, 5V, 64K x 16, 12ns, 32-SOJ(400 mil) AS7C1026B-12JCN

Fast Asynch, 5V, 64K X 16, 12ns, 32-TSOP I AS7C1026B-12TCN

Fast Asynch, 5V, 64K x 16, 12ns, 32-SOJ(300 mil) AS7C1026B-12TJCN

Fast Asynch, 5V, 8K x 8, 15ns, 28-SOJ AS7C164-15JCN

Fast Asynch, 5V, 32K x 8, 12ns, 28-SOJ AS7C256A-12JCN

Fast Asynch, 5V, 32K X 8, 12ns, 28-TSOP I AS7C256A-12TCN

Fast Asynch, 3.3V, 128K x 8, 12ns, 32-SOJ(400 mil) AS7C31024B-12JCN

Fast Asynch, 3.3V, 128K X 8, 12ns, 32-TSOP I AS7C31024B-12TCN

Fast Asynch, 3.3V, 128K x 8, 12ns, 32-SOJ(300 mil) AS7C31024B-12TJCN

Fast Asynch, 3.3V, 128K x 8, 12ns, 32-SOJ(400 mil), Center Power

AS7C31025B-12JCN

Fast Asynch, 3.3V, 128K X 8, 12ns, 32-TSOP I, Center Power AS7C31025B-12TCN

Fast Asynch, 3.3V, 128K x 8, 12ns, 32-SOJ(300 mil), Center Power

AS7C31025B-12TJCN

Fast Asynch, 3.3V, 64K x 16, 12ns 32-SOJ(400mil) AS7C31026B-12JCN

Fast Asynch, 3.3V, 64K x 16, 12ns, 32-TSOP I AS7C31026B-12TCN

Fast Asynch, 3.3V, 64K x 16, 12ns, 32-SOJ(300 mil) AS7C31026B-12TJCN

Fast Asynch, 3.3V, 32K x 8, 12ns, 28-SOJ AS7C3256A-12JCN

Fast Asynch, 3.3V, 32K X 8, 12ns, 28-TSOP I AS7C3256A-12TCN


Fast Asynch, 3.3V, 512K X 8, 12ns, 44-TSOP II AS7C34096A-12TCN


Fast Asynch, 3.3V, 256k x 16, 12ns, 44-TSOP II AS7C34098A-12TCN

Fast Asynch, 3.3V, 32K x 16, 12ns, 44-SOJ AS7C3513-12JCN


Fast Asynch, 3.3V, 32K x 16, 12ns, 44-TSOP II AS7C3513-12TCN


Fast Asynch, 5V, 512K x 8, 12ns, 44-TSOP II AS7C4096A-12TCN


Fast Asynch, 5V, 256K x 16, 12ns, 44-TSOP II AS7C4098A-12TCN

Fast Asynch, 5V, 32K x 16, 12ns, 44-SOJ AS7C513-12JCN

Fast Asynch, 5V, 32K x 16, 12ns, 44-TSOP II AS7C513-12TCN

AlliANcE MEMory

MeMoRY / gPs & BluetootH

Connectec focus and specialize in manufacturing small,lightweight and

handy electronic products for GPS and Bluetooth applications.

For more information, please contact us.

coNNEctEc GPS AND BlUEtooth

Connectec



SE-35

NSW+61 2 9893 9400


Victoria+61 3 9775 4778

Auckland+64 9 443 9500



hitAGOptimised for very long operating ranges,

NXP’s HITAG™ family of passive RFID ICs is designed

for a broad array of identification applications

including livestock tracking, casino gaming, access

control and all kinds of logistic applications.

Operating at the frequency of 100 to 150kHz, HITAG

was the first tag IC family on the market to support a highly sophisticated

anti-collision feature, allowing several tags to be read simultaneously.

HITAG read/write transponder ics provide a high level of security featuring

mutual authentication followed by encrypted data transmission, ensuring

data is kept safe and preventing unauthorized copying of the tag. HITAG

reader ICs provide an easy path to customized reader/writer development.

ApplicationsHITAG ICs can be found in a broad range of applications, including access control, time and attendance tracking, metering, ski ticketing, electronic keys, gas cylinder identification, logistics, animal identification (conforming to ISO 11784/85), asset tracking and gaming.

• Almost unlimited possibilities for different transponder shapes• Fast and reliable transactions• Secure information exchange• Maintenance free• Easy and convenient operation• Simple system integration

icoDEICODE is the industry standard for high-frequency (HF) smart label

solutions. It is a state-of-the-art RFID smart label technology combining

the advantages of barcode, EAS (Electronic Article Surveillance) and

traditional RF identification.

Developed to meet the needs of the pharmaceutical industry, NXP’s latest

addition to the family, ICODE UID OTP provides an efficient, reliable

and safe system for item-level tracking. As well as providing proof of

a medicine’s authenticity, it also brings benefits to the pharmaceutical

supply chain. Scanning up to 200 labels per second, it speeds up

processes and inline checking, improving efficiency all along the supply

chain from manufacturer to pharmacy shelf. Of course, the solution’s

benefits and features will also extend its use into many additional

application areas.


SO32 I.Code Hs Reader CLRC63201TD

PLLMC RFID HITAG Stick HT2DC20S20M

SO14 RFID HITAG Reader HTRC11001AD

SO14 RFID HITAG Reader HTRC11001TD

PLLMC MIFARE Stand 1K Moa4 MF1MOA4S50/D

SO32 MIFARE Reader MFRC51T0FED

SO32 MIFARE Hs Reader MFRC53101TD

SO32 MIFARE Hs Reader MFRC53T0FED

PLLMC HITAG 2 Security PCF7936ASM

SO32 I.Code Sirc400 Reader SLRC41TOFED

ApplicationsItem-level tagging, Pharmaceutical supply chain management and ePedigree, Rental and library services, Retail supply chain management and smart shelf solutions, Fashion Anti-counterfeit protection, Asset management, Factory automation, Parcel handling. • Best price / performance ratio of any HF smart label solution• Proven and reliable technology• Complies with worldwide regulations• Feature sets aligned with user requirements

RFiD

NXP rFiD

MIFARE is the leading industry standard for

contactless and dual interface smart card schemes,

with an immense worldwide installed base.

The platform offers a full range of compatible

contactless smart card and reader ICs, as well as dual interface

ICs that provide a link between the contactless and contact

card markets.

MiFArE

ApplicationsKey application is electronic ticketing in public transport, or other card related processes.

• MIFARE is the leading industry standard for contactless smart card transactions• Worldwide largest installed base - more than 10 million MIFARE reader core components sold - more than 1 billion contactless and dual interface ICs sold• Fully compliant to ISO 14443A • Future- standard interface ensures that today’s infrastructure can easily be • upgraded for future card ICs• Consistent product portfolio and multiple sourcing at all levels of the value chain

For more information, please contact us.

NXP Radio Frequency Identification (RFID) technology is

currently utilized in a wide range of applications, including

animal identification, public transport, logistics and supply chain

management - all supported by the product families Hitag,

Mifare, ICODE and UCODE - covering all RFID frequencies. Its

limitless possibilities, plus the fact that there are over 1.5 billion

NXP RFID-based cards, tickets, tags and labels issued and over 6

million contactless readers installed worldwide, make it suitable

for use in an incredibly wide array of design scenarios. How you

take advantage of its vast potential is up to you.



Date post:	24-Mar-2016
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