AN749
Abstract: No abstract text available
Text: AN749 I NTEGRATING S I L I C O N L ABS S i M XXXXX D EVICES IN TO TH E IAR E MBEDDED W ORKBENCH ID E 1. Introduction This application note describes how to configure and use the IAR Embedded Workbench® for ARM EWARM Integrated Development Environment (IDE) with Silicon Laboratories Precision32 32-bit microcontrollers
|
Original
|
AN749
Precision32â
32-bit
AN749
|
PDF
|
ISO2816
Abstract: No abstract text available
Text: SiM3L1xx ள㓬ৗͧѹԄৃͧ 32 Ѹ Precision32 MCU ॸӦͧ ள 256 kB 32- Ѹ ARM Cortex-M3 CPU - ߂ٗםҁைࣤ 50HMz - ԥյߊЫࡣܶјͫॆܴݵўஔࡣ - ٔէИݏލӲ NVIC Ӏ߄ 8 Зѩү ࠆט܈੦
|
Original
|
Precision32â
50HMz
250ksps
8-32K
ISO2816
80BGA
ISO2816
|
PDF
|
PB414
Abstract: monitor lcd QFN40 TFBGA-80 QFN-40 thermal resistance TQFP 80 PACKAGE 20-20K ADC-03
Text: SiM3L1xx 最大 256 kB フラッシュ付き高性能低消費電力、32 ビット Precision32 MCU ファミリ 32 ビット ARM Cortex-M3 CPU - 最大動作周波数 50MHz - シングルサイクル乗算、ハードウエア除算サポート - ネスト型ベクタ割込み制御(NVIC)8 優先度レベル
|
Original
|
Precision32TM
50MHz
8-32kB
ISO7816
I2C16/32
75nATypPowerMode
64ure
80BGA
PB414
monitor lcd
QFN40
TFBGA-80
QFN-40 thermal resistance
TQFP 80 PACKAGE
20-20K
ADC-03
|
PDF
|
9 mm-64 QFN
Abstract: 56C10
Text: SiM3L1xx High-Performance, Low-Power, 32-Bit Precision32 MCU Family with up to 256 kB of Flash 32-bit ARM Cortex-M3 CPU - 50 MHz maximum frequency - Single-cycle multiplication, hardware division support - Nested vectored interrupt control NVIC with 8 priority levels
|
Original
|
32-Bit
Precision32TM
9 mm-64 QFN
56C10
|
PDF
|
qfn64 footprint
Abstract: TQFP80 footprint dimensions QFN-64 package
Text: SiM3U1xx High-Performance, Low-Power, 32-Bit Precision32 USB MCU Family with up to 256 kB of Flash 32-bit ARM Cortex™-M3 CPU - 80 MHz maximum frequency - Single-cycle multiplication, hardware division support - Nested vectored interrupt control NVIC with 16 priority levels
|
Original
|
32-Bit
Precision32TM
16-channel
12-Bit
12-bit
10-bit
Precision32
qfn64 footprint
TQFP80 footprint dimensions
QFN-64 package
|
PDF
|
QFN-64 thermal resistance
Abstract: SIM3U167-B-GM TQFP 80 PACKAGE Cortex-M3 Reference Manual tqfp 64 pcb land pattern SIM3U167 CS05 PB3-11 LGA 32 land pattern silicon labs SIM3U134-B-GM
Text: SiM3U1xx High-Performance, Low-Power, 32-Bit Precision32 USB MCU Family with up to 256 kB of Flash 32-bit ARM Cortex™-M3 CPU - 80 MHz maximum frequency - Single-cycle multiplication, hardware division support - Nested vectored interrupt control NVIC with 16 levels of
|
Original
|
32-Bit
Precision32TM
Precision32
QFN-64 thermal resistance
SIM3U167-B-GM
TQFP 80 PACKAGE
Cortex-M3 Reference Manual
tqfp 64 pcb land pattern
SIM3U167
CS05
PB3-11
LGA 32 land pattern silicon labs
SIM3U134-B-GM
|
PDF
|
Untitled
Abstract: No abstract text available
Text: SiM3U167-B-GDI High-Performance, Low-Power, 32-Bit Precision32 USB MCU Family with up to 256 kB of Flash Die in Wafer Form Power Management - Low drop-out LDO regulator - Power-on reset circuit and brownout detectors - 5–3.3 V 150 mA regulator supports direct USB power
|
Original
|
SiM3U167-B-GDI
32-Bit
Precision32â
16-channel
|
PDF
|
design motherboard tutorial
Abstract: No abstract text available
Text: A. Install Software Navigate to the Precision32 software download website. 1 2 Click the large Download Button to initiate the Precision32 web install. 3 Start the Installer and allow it to run in the background. Advance to Step 4 while the Precision32 Development Suite and
|
Original
|
Precision32
Precision32
32bit-software
si32Library
AN675:
AN667:
AN670:
design motherboard tutorial
|
PDF
|
lso5
Abstract: ADC04
Text: SiM3U167-B-GDI High-Performance, Low-Power, 32-Bit Precision32 USB MCU Family with up to 256 kB of Flash Die in Wafer Form 32-bit ARM Cortex™-M3 CPU - 80 MHz maximum frequency - Single-cycle multiplication, hardware division support - Nested vectored interrupt control NVIC with 16 priority levels
|
Original
|
SiM3U167-B-GDI
32-Bit
Precision32â
12-Bit
12-bit
16-channel
lso5
ADC04
|
PDF
|
TQFP80 footprint dimensions
Abstract: Cortex-M3 Reference Manual pb211 tqfp 64 pcb land pattern CRC128
Text: SiM3C1xx High-Performance, Low-Power, 32-Bit Precision32 MCU Family with up to 256 kB of Flash 32-bit ARM Cortex™-M3 CPU - 80 MHz maximum frequency - Single-cycle multiplication, hardware division support - Nested vectored interrupt control NVIC with 16 levels of
|
Original
|
32-Bit
Precision32TM
Precision32
TQFP80 footprint dimensions
Cortex-M3 Reference Manual
pb211
tqfp 64 pcb land pattern
CRC128
|
PDF
|
Untitled
Abstract: No abstract text available
Text: SiM3L1xx High-Performance, Low-Power, 32-Bit Precision32 MCU Family with up to 256 kB of Flash 32-bit ARM Cortex-M3 CPU - 50 MHz maximum frequency - Single-cycle multiplication, hardware division support - Nested vectored interrupt control NVIC with 8 priority levels
|
Original
|
32-Bit
Precision32â
|
PDF
|
Untitled
Abstract: No abstract text available
Text: SiM3L1xx 最大 256 kB フラッシュ付き高性能低消費電力、32 ビット Precision32 MCU ファミリ 32 ビット ARM Cortex-M3 CPU - 最大動作周波数 50MHz - シングルサイクル乗算、ハードウエア除算サポート - ネスト型ベクタ割込み制御(NVIC)8 優先度レベル
|
Original
|
Precision32â
50MHz
|
PDF
|
TQFP80 footprint dimensions
Abstract: Cortex-M3 Reference Manual pb211 jedec package MO-220 tqfp-64 SIM3C167-B-GM AD6M
Text: SiM3C1xx High-Performance, Low-Power, 32-Bit Precision32 MCU Family with up to 256 kB of Flash 32-bit ARM Cortex™-M3 CPU - 80 MHz maximum frequency - Single-cycle multiplication, hardware division support - Nested vectored interrupt control NVIC with 16 priority levels
|
Original
|
32-Bit
Precision32TM
16-channel
12-Bit
12-bit
10-bit
Precision32
TQFP80 footprint dimensions
Cortex-M3 Reference Manual
pb211
jedec package MO-220 tqfp-64
SIM3C167-B-GM
AD6M
|
PDF
|
QFN-40 thermal resistance
Abstract: PB48
Text: SiM3L1xx High-Performance, Low-Power, 32-Bit Precision32 MCU Family with up to 256 kB of Flash 32-bit ARM Cortex-M3 CPU - 50 MHz maximum frequency - Single-cycle multiplication, hardware division support - Nested vectored interrupt control NVIC with 8 priority levels
|
Original
|
32-Bit
Precision32TM
QFN-40 thermal resistance
PB48
|
PDF
|
|
EFM32WG395
Abstract: No abstract text available
Text: .the world's most energy friendly microcontrollers EFM32WG395 DATASHEET F256/F128/F64 • ARM Cortex-M4 CPU platform • High Performance 32-bit processor @ up to 48 MHz • DSP instruction support and floating-point unit • Memory Protection Unit • Flexible Energy Management System
|
Original
|
EFM32WG395
F256/F128/F64
32-bit
BGA120
EFM32WG395FXX
|
PDF
|
EFM32WG232
Abstract: No abstract text available
Text: .the world's most energy friendly microcontrollers EFM32WG232 DATASHEET F256/F128/F64 • ARM Cortex-M4 CPU platform • High Performance 32-bit processor @ up to 48 MHz • DSP instruction support and floating-point unit • Memory Protection Unit • Flexible Energy Management System
|
Original
|
EFM32WG232
F256/F128/F64
32-bit
QFP64
EFM32WG232FXX
|
PDF
|
EFM32WG330
Abstract: No abstract text available
Text: .the world's most energy friendly microcontrollers EFM32WG330 DATASHEET F256/F128/F64 • ARM Cortex-M4 CPU platform • High Performance 32-bit processor @ up to 48 MHz • DSP instruction support and floating-point unit • Memory Protection Unit • Flexible Energy Management System
|
Original
|
EFM32WG330
F256/F128/F64
32-bit
QFN64
EFM32WG330FXX
|
PDF
|
Untitled
Abstract: No abstract text available
Text: .the world's most energy friendly microcontrollers EFM32GG900 DATASHEET F1024/F512 • ARM Cortex-M3 CPU platform • High Performance 32-bit processor @ up to 48 MHz • Memory Protection Unit • Flexible Energy Management System • 20 nA @ 3 V Shutoff Mode
|
Original
|
EFM32GG900
F1024/F512
32-bit
EFM32GG900FXX
|
PDF
|
EFM32WG390
Abstract: No abstract text available
Text: .the world's most energy friendly microcontrollers EFM32WG390 DATASHEET F256/F128/F64 • ARM Cortex-M4 CPU platform • High Performance 32-bit processor @ up to 48 MHz • DSP instruction support and floating-point unit • Memory Protection Unit • Flexible Energy Management System
|
Original
|
EFM32WG390
F256/F128/F64
32-bit
BGA112
EFM32WG390FXX
|
PDF
|
Untitled
Abstract: No abstract text available
Text: AN694 W RITING TO FLASH FROM F IRMWARE ON S i M 3 X X X X D EVI C E S 1. Introduction This application note applies to the SiM3Cxxx, SiM3Uxxx, and SiM3Lxxx device families. The Flash memory on all Silicon Labs MCU devices is readable and writable from application code. This capability allows user software to
|
Original
|
AN694
|
PDF
|
Untitled
Abstract: No abstract text available
Text: Preliminary .the world's most energy friendly microcontrollers EFM32ZG110 DATASHEET F32/F16/F8/F4 Preliminary • ARM Cortex-M0+ CPU platform • High Performance 32-bit processor @ up to 24 MHz • Wake-up Interrupt Controller • Flexible Energy Management System
|
Original
|
EFM32ZG110
F32/F16/F8/F4
32-bit
QFN24
EFM32ZG110FXX
|
PDF
|
Untitled
Abstract: No abstract text available
Text: Preliminary .the world's most energy friendly microcontrollers EFM32ZG108 DATASHEET F32/F16/F8/F4 Preliminary • ARM Cortex-M0+ CPU platform • High Performance 32-bit processor @ up to 24 MHz • Wake-up Interrupt Controller • Flexible Energy Management System
|
Original
|
EFM32ZG108
F32/F16/F8/F4
32-bit
QFN24
EFM32ZG108FXX
|
PDF
|
Untitled
Abstract: No abstract text available
Text: Preliminary .the world's most energy friendly microcontrollers EFM32GG330 DATASHEET F1024/F512 Preliminary • ARM Cortex-M3 CPU platform • High Performance 32-bit processor @ up to 48 MHz • Memory Protection Unit • Flexible Energy Management System
|
Original
|
EFM32GG330
F1024/F512
32-bit
QFN64
EFM32GG330FXX
|
PDF
|
Untitled
Abstract: No abstract text available
Text: Preliminary .the world's most energy friendly microcontrollers EFM32ZG210 DATASHEET F32/F16/F8/F4 Preliminary • ARM Cortex-M0+ CPU platform • High Performance 32-bit processor @ up to 24 MHz • Wake-up Interrupt Controller • Flexible Energy Management System
|
Original
|
EFM32ZG210
F32/F16/F8/F4
32-bit
QFN32
EFM32ZG210FXX
|
PDF
|