NXP Semiconductors Microcontrollers 1,833

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Part RoHS Manufacturer Peripheral IC Type Temperature Grade Terminal Form No. of Terminals Package Code Package Shape Package Body Material Integrated Cache Surface Mount Maximum Supply Voltage On Chip Data RAM Width Screening Level Address Bus Width DAC Channels Bit Size Power Supplies (V) Package Style (Meter) Package Equivalence Code Minimum Supply Voltage Maximum Operating Temperature CPU Family No. of External Interrupts Minimum Operating Temperature Terminal Finish ADC Channels Ultraviolet Erasable Terminal Position DMA Channels Digital To Analog Convertors Maximum Seated Height ROM Words RAM Words Width Data EEPROM Size Additional Features Boundary Scan Peripherals External Data Bus Width Maximum Clock Frequency Maximum Time At Peak Reflow Temperature (s) Peak Reflow Temperature (C) Length Total Dose (V) ROM Bits Size No. of Timers RAM Bytes Technology Analog To Digital Convertors Maximum Supply Current Minimum Time Nominal Supply Voltage No. of DMA Channels PWM Channels No. of Serial I/Os Sub-Category Connectivity ROM Programmability Terminal Pitch Format JESD-30 Code Moisture Sensitivity Level (MSL) Qualification Speed Low Power Mode JESD-609 Code Maximum Standby Current On Chip Program ROM Width No. of I/O Lines Maximum Access Time

LPC4072FET80K

NXP Semiconductors

MICROCONTROLLER, RISC

BALL

80

TFBGA

SQUARE

YES

3.6 V

0

YES

32

GRID ARRAY, THIN PROFILE, FINE PITCH

2.4 V

85 Cel

CORTEX-M4

-40 Cel

YES

BOTTOM

YES

1-Ch 10-Bit

65536

7 mm

2K

BOD, DMA(8), POR, PWM(2), RTC, TIMER(4), WDT

0

25 MHz

260

7 mm

24576

8-Ch 12-Bit

3.3 V

YES

CAN(2), I2C(3), I2S, SSP(3), UART(4), USART

FLASH

.65 mm

3

120 rpm

8

LPC4076FET180K

NXP Semiconductors

MICROCONTROLLER, RISC

BALL

180

TFBGA

SQUARE

YES

3.6 V

YES

32

GRID ARRAY, THIN PROFILE, FINE PITCH

2.4 V

85 Cel

CORTEX-M4

-40 Cel

YES

BOTTOM

YES

1-Ch 10-Bit

262144

12 mm

2K

BOD, COMPARATOR, DMA(8), POR, PWM(2), RTC, TIMER(4), WDT

16

25 MHz

260

12 mm

81920

8-Ch 12-Bit

3.3 V

YES

CAN(2), I2C(3), I2S, SSP(3), UART(4), USART

FLASH

.8 mm

3

120 rpm

8

LPC4330FBD144Y

NXP Semiconductors

MICROCONTROLLER, RISC

GULL WING

144

LFQFP

SQUARE

YES

3.6 V

24

YES

32

FLATPACK, LOW PROFILE, FINE PITCH

2.2 V

85 Cel

CORTEX-M4

-40 Cel

TIN

YES

QUAD

YES

1-Ch 10-Bit

n/s

20 mm

0

BOD, DMA(8), POR, PWM, RTC, TIMER(6), WDT

32

25 MHz

30

260

20 mm

2700336

8-Ch 10-Bit (2)

3.3 V

YES

CAN, I2C(2), I2S(2), SSP(2), UART(2), USART(4)

FLASH

.5 mm

3

204 rpm

e3

83

LPC4337JET256Y

NXP Semiconductors

MICROCONTROLLER, RISC

BALL

256

LBGA

SQUARE

YES

3.6 V

0

YES

32

GRID ARRAY, LOW PROFILE

2.2 V

105 Cel

CORTEX-M4

-40 Cel

YES

BOTTOM

YES

1-Ch 10-Bit

1048576

17 mm

16K

BOD, DMA(8), POR, PWM, RTC, TIMER(6), WDT

0

25 MHz

260

17 mm

139264

8-Ch 10-Bit (2)

3.3 V

YES

CAN(2), ETHERNET, I2C(2), I2S(2), SDMMC, SPI, SPIFI, SSP(2), UART, USART(3), USB(2)

FLASH

1 mm

3

204 rpm

8

164

MC705P6AMDWER

NXP Semiconductors

MICROCONTROLLER

GULL WING

28

SOP

RECTANGULAR

PLASTIC/EPOXY

NO

YES

5.5 V

8

0

NO

8

SMALL OUTLINE

SOP28,.4

4.5 V

85 Cel

M68HC05

1

-40 Cel

TIN

YES

DUAL

NO

2.65 mm

4672

7.5 mm

ALSO OPERATES AT 3.3 V SUPPLY

NO

POR, TIMER, WDT

0

4.2 MHz

40

260

17.925 mm

1

176

CMOS

4-Ch 8-Bit

7 mA

5 V

NO

EPROM

1.27 mm

FIXED POINT

R-PDSO-G28

3

2.1 rpm

YES

e3

8

21

MC9S08AC128CFGER

NXP Semiconductors

MICROCONTROLLER

TIN

40

260

3

e3

MC9S08AC96CFUER

NXP Semiconductors

MICROCONTROLLER

TIN

40

260

3

e3

MK11DN512AVLK5R

NXP Semiconductors

MICROCONTROLLER, RISC

TIN

40

260

3

e3

MK21DN512AVMC5R

NXP Semiconductors

MICROCONTROLLER, RISC

TIN SILVER COPPER

40

260

3

e1

MK21DX256AVMC5R

NXP Semiconductors

MICROCONTROLLER, RISC

TIN SILVER COPPER

40

260

3

e1

MKV46F256VLL16Q

NXP Semiconductors

MICROCONTROLLER, RISC

GULL WING

100

LFQFP

SQUARE

PLASTIC/EPOXY

NO

YES

3.6 V

8

0

YES

32

FLATPACK, LOW PROFILE, FINE PITCH

QFP100,.63SQ,20

1.71 V

105 Cel

CORTEX-M4

-40 Cel

TIN

YES

QUAD

YES

1-Ch 12-Bit

1.7 mm

262144

14 mm

0

YES

ANALOG COMPARATOR(4), DMA(16), PWM(12), TIMER(22), WDT

0

48 MHz

40

260

14 mm

23

32768

CMOS

18-Ch 12-Bit, 20-Ch 12-Bit

53.2 mA

3.3 V

16

YES

4

FLEXCAN(2), I2C, SPI, UART(2)

FLASH

.5 mm

FLOATING POINT

S-PQFP-G100

3

168 rpm

YES

e3

8

74

S912B32E4CFUE8R

NXP Semiconductors

MICROCONTROLLER

TIN

40

260

3

e3

S912B32E4CFUE8

NXP Semiconductors

MICROCONTROLLER

TIN

40

260

3

e3

S912B32E4MFUE8R

NXP Semiconductors

MICROCONTROLLER

TIN

40

260

3

e3

S912B32E4VFUE8R

NXP Semiconductors

MICROCONTROLLER

TIN

40

260

3

e3

S912XHY128F0CLM

NXP Semiconductors

MICROCONTROLLER

TIN

40

260

3

e3

S9S08EL16F1MTLR

NXP Semiconductors

MICROCONTROLLER

TIN

40

260

3

e3

S9S08EL16F1MTL

NXP Semiconductors

MICROCONTROLLER

TIN

40

260

3

e3

S9S08EL32F1CTLR

NXP Semiconductors

MICROCONTROLLER

TIN

40

260

3

e3

S9S08EL32F1MTL

NXP Semiconductors

MICROCONTROLLER

TIN

40

260

3

e3

S9S08EL32F1VTLR

NXP Semiconductors

MICROCONTROLLER

TIN

40

260

3

e3

S9S08EL32F1VTL

NXP Semiconductors

MICROCONTROLLER

TIN

40

260

3

e3

S9S08SL16F1CTLR

NXP Semiconductors

MICROCONTROLLER

TIN

40

260

3

e3

S9S08SL16F1MTJR

NXP Semiconductors

MICROCONTROLLER

TIN

40

260

3

e3

S9S08SL16F1MTJ

NXP Semiconductors

MICROCONTROLLER

TIN

40

260

3

e3

S9S08SL16F1MTLR

NXP Semiconductors

MICROCONTROLLER

TIN

40

260

3

e3

S9S08SL16F1MTL

NXP Semiconductors

MICROCONTROLLER

TIN

40

260

3

e3

S9S08SL16F1VTLR

NXP Semiconductors

MICROCONTROLLER

TIN

40

260

3

e3

S9S08SL16F1VTL

NXP Semiconductors

MICROCONTROLLER

TIN

40

260

3

e3

S9S08SL8F1CTJR

NXP Semiconductors

MICROCONTROLLER

TIN

40

260

3

e3

S9S08SL8F1CTJ

NXP Semiconductors

MICROCONTROLLER

TIN

40

260

3

e3

S9S08SL8F1MTJR

NXP Semiconductors

MICROCONTROLLER

TIN

40

260

3

e3

S9S08SL8F1MTJ

NXP Semiconductors

MICROCONTROLLER

TIN

40

260

3

e3

S9S08SL8F1MTLR

NXP Semiconductors

MICROCONTROLLER

TIN

40

260

3

e3

S9S08SL8F1MTL

NXP Semiconductors

MICROCONTROLLER

TIN

40

260

3

e3

S9S08SL8F1VTJR

NXP Semiconductors

MICROCONTROLLER

TIN

40

260

3

e3

S9S12XS256J0MALR

NXP Semiconductors

MICROCONTROLLER, RISC

TIN

40

260

3

e3

SPC5643AF0MLU2R

NXP Semiconductors

MICROCONTROLLER

TIN

40

260

3

e3

SPC5644AF0MMG2R

NXP Semiconductors

MICROCONTROLLER

TIN SILVER

40

260

3

e2

SPC5644CF0CLU8R

NXP Semiconductors

MICROCONTROLLER

Tin (Sn)

40

260

3

e3

SPC5644CF0CLU8

NXP Semiconductors

MICROCONTROLLER

Tin (Sn)

40

260

3

e3

SPC5644CF0VLU8R

NXP Semiconductors

MICROCONTROLLER

TIN

40

260

3

e3

UJA1076ATW/3V3/WDJ

NXP Semiconductors

MICROCONTROLLER

NICKEL PALLADIUM GOLD SILVER

30

260

1

e4

SPC5675KF0MMM2

NXP Semiconductors

MICROCONTROLLER

TIN SILVER

40

260

3

e2

SPC5675KF0MMS2

NXP Semiconductors

MICROCONTROLLER

TIN SILVER

40

260

3

e2

SPC5675KF0VMS2

NXP Semiconductors

MICROCONTROLLER

TIN SILVER

40

260

3

e2

SPC5675KFF0VMM2R

NXP Semiconductors

MICROCONTROLLER

TIN SILVER

40

260

3

e2

SPC5675KFF0VMM2

NXP Semiconductors

MICROCONTROLLER

TIN SILVER

40

260

3

e2

Microcontrollers

A microcontroller is a type of integrated circuit (IC) that is designed to control a specific task or set of tasks within a larger system. Unlike a microprocessor, which is designed to be a general-purpose computing device, a microcontroller is optimized for embedded applications that require real-time control and processing.

Microcontrollers typically contain a processor core, memory, input/output (I/O) ports, and various peripheral devices, all on a single chip. The processor core is usually a low-power, low-speed version of a microprocessor, such as an 8-bit or 16-bit processor. The memory on a microcontroller includes both volatile and non-volatile memory, such as random-access memory (RAM) and flash memory, respectively. The I/O ports are used to interface with external devices such as sensors, switches, and displays.

Microcontrollers are used in a wide range of applications, including automotive systems, medical devices, consumer electronics, and industrial automation. They are particularly well-suited for applications that require real-time control and processing, such as motor control, temperature sensing, and data acquisition.

One of the key advantages of microcontrollers is their low cost and small size. Because all of the necessary components are integrated onto a single chip, microcontrollers are much smaller and less expensive than other types of computing devices. This makes them ideal for use in small, battery-powered devices such as handheld calculators and remote controls.