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ATSAMD09D14A-MUT ATSAMD09D14A-MU QFN MCU Microcontroller ARM IC
SMART ARM-Based Microcontroller
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P/N | BRAND | QTY | P/N | BRAND | QTY | P/N | BRAND | QTY | ||
L6566BH | ST | 2000 | TJA1051TK/3,118 | NXP | 6000 | S912ZVL64F0VLF | NXP | 5000 | ||
STM32F417ZGT6 | ST | 360 | TJA1051T/CM | NXP | 40000 | FS32K116LIT0VFM | NXP | 4900 | ||
STM32F750N8H6 | ST | 960 | TJA1050T/CM | NXP | 100000 | LPC2366FBD100,551 | NXP | 1800 | ||
STM32L496QGI6 | ST | 2495 | TJA1043T,118 | NXP | 25000 | NL3HS3124AMNTWG | ON | 3000 | ||
STP16DP05XTTR | ST | 2500 | TJA1042T/3/1 | NXP | 80000 | AD7124-8BBCPZ | ADI | 1960 | ||
VN750PSTR-E | ST | 2500 | TJA1042T/3,118 | NXP | 60000 | LPC1765FBD100 | NXP | 30000 | ||
STM32F051C8T7 | ST | 1500 | TJA1042T/1 | NXP | 50000 | SN65DSI83ZQER | TI | 2500 | ||
STM32F303VCT6 | ST | 1620 | TJA1040T/CM | NXP | 50000 | TPS53219RGTR | TI | 3000 | ||
VNQ7050AJTR | ST | 2500 | TJA1021T/20/CM | NXP | 50000 | TPS386000QRGPRQ1 | TI | 1819 | ||
VN750PTTR-E | ST | 2500 | TEF6686HN/V102K | NXP | 4900 | TPS7A7200RGWR | TI | 2684 | ||
STM32F427ZGT6 | ST | 360 | PCF8574AT/3,518 | NXP | 3000 | TPS7A8400ARGRR | TI | 3000 | ||
STM32F767VIT6 | ST | 1620 | PCF8563TS/5 | NXP | 40000 | TPS76350QDBVRQ1 | TI | 9000 | ||
L9950XPTR | ST | 1000 | PCF8563T/5 | NXP | 100000 | ISO7741DBQR | TI | 1177 | ||
VNB14NV04TR-E | ST | 8500 | PCF85163T/1,518 | NXP | 5000 | LP8866QRHBRQ1 | TI | 3460 | ||
VND14NV04-E | ST | 4000 | PCA9555PW | NXP | 10000 | BQ500101DPCR | TI | 2320 | ||
VNH7100BASTR | ST | 10000 | PCA9535PW | NXP | 10000 | DRV8305NPHPR | TI | 1000 | ||
BUK9M15-60EX | NEXPERIA | 6000 | MPR121QR2 | NXP | 12000 | TPS76333QDBVRQ1 | TI | 3000 | ||
PUSB2X4DH | NEXPERIA | 7414 | MKE02Z64VLD4 | NXP | 4000 | UCC2897ARGPR | TI | 3000 | ||
EP5358HUI | Intel | 3000 | MFRC53101T/0FE,112 | NXP | 10000 | UCC27211ADRMT | TI | 1779 | ||
MAX487ESA+T | MAX | 150000 | MFRC52202HN1 | NXP | 1500 | ISO5852SQDWRQ1 | TI | 181 | ||
MAX487CSA+T | MAX | 15000 | LPC2138FBD64/01EL | NXP | 6400 | ISO7721FDWV | TI | 1024 | ||
DS24B33S+T&R | MAX | 6000 | TJA1044GT/3Z | NXP | 20000 | SN65DSI84TPAPRQ1 | TI | 20000 | ||
DS18B20Z+T&R | MAX | 10000 | TJA1021T/20/CM,118 | NXP | 25000 | TLC59116ITPWRQ1 | TI | 4000 | ||
MAX5969BETB+T | MAX | 5000 | PCA82C250T/YM | NXP | 30000 | TPS546C23RVFR | TI | 2500 | ||
A3984SLPTR-T | ALLEGRO | 3004 | MIMXRT1176CVM8A | NXP | 608 | MSP430F5659IZCAR | TI | 2500 | ||
A3959SLPTR-T | ALLEGRO | 4000 | MIMXRT1052CVL5B | NXP | 5040 | DRV8244SQRYJRQ1 | TI | 3000 | ||
A1330LLETR-T | ALLEGRO | 5749 | MIMXRT1011DAE5A | NXP | 5280 | LMH6642MFPB | TI | 10000 | ||
FS32K148HAT0MLLT | NXP | 1800 | MIMX8MM6CVTKZAA | NXP | 408 | DRV8243HQRXYRQ1 | TI | 3000 | ||
FS32K118LAT0MLHT | NXP | 800 | UJA1167ATK/0Z | NXP | 6000 | TPS61165DRVR | TI | 30000 | ||
S9S12XS256J0VAA | NXP | 420 | UJA1078ATW/5V0/WD/1 | NXP | 8000 | LT1013DDR | TI | 2500 | ||
LPC1517JBD64E | NXP | 800 | TEF6638HW/V106Z | NXP | 5000 | TPS7A3301RGWR | TI | 3000 | ||
SPC5606BF1MLQ6 | NXP | 1200 | LPC11U37FBD48/401 | NXP | 1250 | ISO3082DWR | TI | 6000 | ||
S9S12G128AMLH | NXP | 4800 | LPC11U14FBD48/201 | NXP | 2500 | TLV2374IDR | TI | 7500 | ||
S9KEAZ128AMLK | NXP | 4500 | LPC11C24FBD48/301 | NXP | 2500 | ADS1115IDGSR | TI | 10000 | ||
S912XHY128F0VLM | NXP | 300 | LPC11C12FBD48/301 | NXP | 5000 | TI ISO5452QDWRQ1 | TI | 6000 | ||
PN5321A3HN/C106;55 | NXP | 2450 | PCAL6524HEAZ | NXP | 10000 | TPS53314RGFR TI | TI | 9000 | ||
PCF85162T/1Y | NXP | 2000 | SPC5748GHK0AMKU6 | NXP | 200 | SAK-TC222S-12F133F AC | Infineon | 7200 | ||
PCF85134HL/1,118 | NXP | 3000 | LPC802M001JDH20J | NXP | 10000 | BSP452HUMA1 | Infineon | 4000 | ||
PCA9698DGG,518 | NXP | 2000 | MC33FS4503CAE | NXP | 2500 | BSC060P03NS3EG | Infineon | 5000 | ||
PCA9506DGG,518 | NXP | 2000 | S9S08SG16E1MTGR | NXP | 2500 | BSP77 E6433 | Infineon | 4000 | ||
NJJ29C0BHN/0F62 | NXP | 5000 | TJA1043T/1J | NXP | 50000 | BSP78 | Infineon | 4000 | ||
MMPF0100NPAZESR2 | NXP | 4000 | MIMXRT1064CVL5B | NXP | 4800 | BTF3050TE | Infineon | 2500 | ||
MMPF0100F0AEP | NXP | 3900 | PCA82C251T/YM | NXP | 30000 | BTS5090-1EJA | Infineon | 2500 | ||
MIMXRT1021CAG4B | NXP | 4500 | LPC1114FBD48/302 | NXP | 2500 | BTS7004-1EPP | Infineon | 6000 | ||
MIMXRT1021CAG4A | NXP | 2100 | LPC1517JBD48E | NXP | 100 | BTS716GB | Infineon | 1000 | ||
MIMX8MM6DVTLZAA | NXP | 304 | MCIMX6Y2CVM08AB | NXP | 20000 | IPB037N06N3G | Infineon | 1000 | ||
MCIMX6U5EVM10AC | NXP | 1500 | MMPF0100NPAEP | NXP | 6500 | ISP752R | Infineon | 2500 | ||
MCIMX6U5DVM10AC | NXP | 1500 | SA602AD/01,118 | NXP | 20000 | ITS4200S-ME-P | Infineon | 4000 | ||
LPC2478FBD208K | NXP | 1800 | S9S08DZ60F2MLH | NXP | 20000 | ITS4200S-SJ-D | Infineon | 2500 | ||
LPC2468FBD208K | NXP | 1800 | NT3H2111W0FHKH | NXP | 50000 | TLE94112EL | Infineon | 2500 | ||
LPC2387FBD100K | NXP | 1350 | MCRC52202HN1 | NXP | 9800 | TLE9471ESV33 | Infineon | 3000 | ||
LPC2368FBD100K | NXP | 1800 | LPC1768FBD208 | NXP | 30000 | TLE9843-2QX | Infineon | 5000 | ||
LPC2366FBD100K | NXP | 3600 | LPC824M201JHI33Y | NXP | 30000 | TLF80511EJV50 | Infineon | 2500 | ||
LPC2292FBD144/01,5 1080 | NXP | 1080 | PCA9555DB,118 | NXP | 4000 | MCP4662T-103E/UN | Microchip | 50000 | ||
LPC2136FBD64/01EL | NXP | 2400 | TEA2016AAT/1J | NXP | 20000 | BCM53128KQLEG | Broadcom | 3024 | ||
LPC1778FET208K | NXP | 1260 | MCIMX6V7DVN10AB | NXP | 6400 | E3M0075120K | Wolfspeed | 30000 | ||
LPC1778FBD144K | NXP | 2100 | MKL17Z64VFM4 | NXP | 2450 | SI7216DN-T1-E3 | VISHAY | 3000 | ||
LPC1764FBD100K | NXP | 1350 | S9S12ZVL32F0MLCR | NXP | 10000 | RTL8822CU-CG | REALTEK | 10400 | ||
LPC1754FBD80K | NXP | 1785 | LPC1788FBD208 | NXP | 30000 | 70V28L20PFGI | IDT | 360 | ||
LPC1752FBD80K | NXP | 595 | FX32K144UAT0VLLT | NXP | 5000 | MAX485ESA+T | MAX | 30000 | ||
LPC1343FBD48,151 | NXP | 250 | MC9S12DG128CPVE | NXP | 300 | A3291KUA-T | ALLEGRO | 60000 | ||
NCP51200MNTXG | ON | 15000 | XC3S400A-4FGG400C | XILINX | 9760 | A3950SLPTR-T | ALLEGRO | 8000 | ||
NCV8674DS120G | ON | 500 | XC6SLX150-2CSG484I | XILINX | 721 | A3977SLPTR-T | ALLEGRO | 7000 | ||
NTR3C21NZT1G | ON | 45000 | XC6SLX16-3CSG324C | XILINX | 695 | A3983SLPTR-T | ALLEGRO | 8000 | ||
NTZD3154NT1G | ON | 20000 | XC6SLX25-2FGG484I | XILINX | 420 | A4447SLJTR-T | ALLEGRO | 12000 | ||
ISO7763FDBQ | TI | 280 | XC6SLX25-3CSG324C | XILINX | 195 | A4953ELJTR-T | ALLEGRO | 12000 | ||
TPS628113HQWRWYRQ1 | TI | 3790 | XC6SLX25T-3CSG324I | XILINX | 425 | ACS758LCB-100B-PFF-T | ALLEGRO | 3848 | ||
LMR36503RS5QRPERQ1 | TI | 20800 | XC6SLX45-3CSG324I | XILINX | 228 | FS32K144HFT0MLHT | NXP | 1600 | ||
UCC21530BQDWKRQ1 | TI | 2850 | XC6SLX45-3FGG484C | XILINX | 1200 | MKV10Z128VLF7 | NXP | 2500 | ||
ISO6761FQDWRQ1 | TI | 10000 | XC6SLX45T-2FGG484C | XILINX | 1800 | S912ZVL12AMLF | NXP | 1250 | ||
TPS259401AQRVCRQ1 | TI | 20838 | XC6SLX75-3CSG484I | XILINX | 420 | MC34PF3000A3EPR2 | ADI | 4000 | ||
TPS793475DBVR | TI | 25459 | XC6SLX9-2FTG256I | XILINX | 1350 | LTM4644IY#PBF | ADI | 1299 | ||
LMR36015SBRNXR | TI | 18700 | XC7A35T-1FTG256I | XILINX | 900 | SAK-TC277T-64F200S DC | Infineon | 2000 | ||
TLV7034QPWRQ1 | TI | 60000 | XC7A50T-1FGG484C | XILINX | 1851 | SAK-TC233LP-32F200N AC | Infineon | 3000 | ||
TMP108AIYFFT | TI | 69195 | XC95144XL-10TQG144C | XILINX | 600 | IRFU220NPBF | Infineon | 50000 | ||
KSZ8863RLLI-TR | Microchip | 20000 | IR2103STRPBF | Infineon | 30000 | IRFB7434PBF | Infineon | 200000 | ||
AT91SAM9X25-CU | Microchip | 10000 | BSC028N06NS | Infineon | 20000 | IRF3205PBF | Infineon | 100000 |
Description
The Atmel® | SMART™ SAM D09 is a series of low-power
microcontrollers using the 32-bit
ARM® Cortex®-M0+ processor, and ranging from 14- to 24-pins with up
to16KB Flash and 4KB of
SRAM. The SAM D09 devices operate at a maximum frequency of 48MHz
and reach
2.46 Coremark/MHz. They are designed for simple and intuitive
migration with identical
peripheral modules, hex compatible code, identical linear address
map and pin compatible
migration paths between all devices in the product series. All
devices include intelligent and
flexible peripherals, Atmel Event System for inter-peripheral
signaling, and support for capacitive
touch button, slider and wheel user interfaces. The SAM D09 series
is compatible to the other
product series in the SAM D family, enabling easy migration to
larger device with added features.
The Atmel SAM D09 devices provide the following features: In-system
programmable Flash, sixchannel direct memory access (DMA)
controller, 6 channel Event System, programmable
interrupt controller, up to 22 programmable I/O pins, 32-bit
real-time clock and calendar, two 16-
bit Timer/Counters (TC), where each TC can be configured to perform
frequency and waveform
generation, accurate program execution timing or input capture with
time and frequency
measurement of digital signals. The TCs can operate in 8- or 16-bit
mode, selected TCs can be
cascaded to form a 32-bit TC, and one timer/counter has extended
functions optimized for motor,
lighting and other control applications. The series provide two
Serial Communication Modules
(SERCOM) that each can be configured to act as an USART, UART, SPI,
I2
C, SMBus, PMBus
and LIN slave; up to 10-channel 350ksps 12-bit ADC with
programmable gain and optional
oversampling and decimation supporting up to 16-bit resolution,
programmable Watchdog Timer,
brown-out detector and power-on reset and two-pin Serial Wire Debug
(SWD) program and
debug interface.
All devices have accurate and low-power external and internal
oscillators. All oscillators can be
used as a source for the system clock. Different clock domains can
be independently configured
to run at different frequencies, enabling power saving by running
each peripheral at its optimal
clock frequency, and thus maintaining a high CPU frequency while
reducing power consumption.
The SAM D09 devices have two software-selectable sleep modes, idle
and standby. In idle mode
the CPU is stopped while all other functions can be kept running.
In standby all clocks and
functions are stopped expect those selected to continue running.
The device supports
SleepWalking. This feature allows the peripheral to wake up from
sleep based on predefined
conditions, and thus allows the CPU to wake up only when needed,
e.g. when a threshold is
crossed or a result is ready. The Event System supports synchronous
and asynchronous events,
allowing peripherals to receive, react to and send events even in
standby mode.
The Flash program memory can be reprogrammed in-system through the
SWD interface. The
same interface can be used for non-intrusive on-chip debug and
trace of application code. A boot
loader running in the device can use any communication interface to
download and upgrade the
application program in the Flash memory.
The Atmel SAM D09 devices are supported with a full suite of
program and system development
tools, including C compilers, macro assemblers, program
debugger/simulators, programmers and
evaluation kits
Features
z Processor
z ARM Cortex-M0+ CPU running at up to 48MHz
z Single-cycle hardware multiplier
z Micro Trace Buffer
z Memories
z 8/16KB in-system self-programmable Flash
z 4KB SRAM Memory
z System
z Power-on reset (POR) and brown-out detection (BOD)
z Internal and external clock options with 48MHz Digital Frequency
Locked Loop (DFLL48M) and 48MHz to 96MHz Fractional
Digital Phase Locked Loop (FDPLL96M)
z External Interrupt Controller (EIC)
z 8 external interrupts
z One non-maskable interrupt
z Two-pin Serial Wire Debug (SWD) programming, test and debugging
interface
z Low Power
z Idle and standby sleep modes
z SleepWalking peripherals
z Peripherals
z 6-channel Direct Memory Access Controller (DMAC)
z 6-channel Event System
z Two 16-bit Timer/Counters (TC), configurable as either:
z One 16-bit TC with compare/capture channels
z One 8-bit TC with compare/capture channels
z One 32-bit TC with compare/capture channels, by using two TCs
z 32-bit Real Time Counter (RTC) with clock/calendar function
z Watchdog Timer (WDT)
z CRC-32 generator
z Two Serial Communication Interfaces (SERCOM), each configurable
to operate as either:
z USART with full-duplex and single-wire half-duplex configuration
z I
2
C Bus
z SMBUS/PMBUS
z SPI
z LIN slave
z 12-bit, 350ksps Analog-to-Digital Converter (ADC) with up to 10
channels
z Differential and single-ended input
z 1/2x to 16x programmable gain stage
z Automatic offset and gain error compensation
z Oversampling and decimation in hardware to support 13-, 14-, 15-
or 16-bit resolution
z I/O
z Up to 22 programmable I/O pins
z Packages
z 24-pin QFN
z 14-pin SOIC
z Operating Voltage
z 2.4V – 3.63V