No. | Part # | Manufacturer | Description | Datasheet |
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Silicon Laboratories |
microcontrollers autonomous peripherals, high overall chip and analog integration, and the performance of the industry standard 32-bit ARM CortexM0+ processor, making it perfect for battery-powered systems and systems with highperformance, low-energy requirements. E |
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Silicon Laboratories |
Gecko MCU autonomous peripherals, high overall chip and analog integration, and the performance of the industry standard 32-bit ARM CortexM4 with Floating-Point Unit (FPU) processor, making it perfect for battery-powered systems and systems with high-performan |
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Silicon Laboratories |
microcontrollers autonomous peripherals, high overall chip and analog integration, and the performance of the industry standard 32-bit ARM CortexM3 processor, making it perfect for battery-powered systems and systems with high-performance, low-energy requirements. E |
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Silicon Laboratories |
8-Bit Microcontrollers • Pipelined 8-bit C8051 core with 25 MHz maximum operating frequency • Up to 18 multifunction, 5 V tolerant I/O pins • One 12-bit Analog to Digital converter (ADC) • Two low-current analog comparators • Integrated temperature sensor • 3-channel enhan |
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Silicon Laboratories |
Microcontrollers autonomous peripherals, high overall chip and analog integration, and the performance of the industry standard 32-bit ARM CortexM3 processor, making it perfect for battery-powered systems and systems with high-performance, low-energy requirements. E |
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Silicon Laboratories |
8-Bit Microcontrollers • Pipelined 8-bit C8051 core with 50 MHz maximum operating frequency • Up to 29 multifunction, 5 Volt capable I/O pins • 1 x 12-bit Analog to Digital converter • 1 x 10-bit Digital to Analog converter • 2 x analog comparators • Integrated temperature |
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Silicon Laboratories |
Gecko MCU autonomous peripherals, high overall chip and analog integration, and the performance of the industry standard 32-bit ARM CortexM4 with Floating-Point Unit (FPU) processor, making it perfect for battery-powered systems and systems with high-performan |
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Silicon Laboratories |
Gecko MCU autonomous peripherals, high overall chip and analog integration, and the performance of the industry standard 32-bit ARM CortexM4 with Floating-Point Unit (FPU) processor, making it perfect for battery-powered systems and systems with high-performan |
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Silicon Laboratories |
Microcontrollers autonomous peripherals, high overall chip and analog integration, and the performance of the industry standard 32-bit ARM Cortex-M3 processor, making it perfect for battery-powered systems and systems with high-performance, low-energy requirements. |
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Silicon Laboratories |
Microcontrollers • Pipelined 8-bit C8051 core with 48 MHz maximum operating frequency • Up to 17 multifunction I/O pins • Low Energy USB with full- and low-speed support saves up to 90% of the USB energy • USB charger |
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Silicon Laboratories |
Microcontrollers set and in-depth information on the modules, the reader is referred to the EFM32G Reference Manual. A block diagram of the EFM32G232 is shown in Figure 2.1 (p. 3) . Figure 2.1. Block Diagram G232F32/ 64/ 128 Core and Memory Clock Managem ent ARM |
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Silicon Laboratories |
microcontrollers autonomous peripherals, high overall chip and analog integration, and the performance of the industry standard 32-bit ARM CortexM0+ processor, making it perfect for battery-powered systems and systems with highperformance, low-energy requirements. E |
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Silicon Laboratories |
Microcontrollers • Pipelined 8-bit 8051 MCU Core with 50 MHz operating frequency • Up to 29 multifunction I/O pins • One 12-bit/10-bit ADC • Four 12-bit DACs with synchronization and PWM capabilities • Two low-current analog comparators with built-in reference DACs • |
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Silicon Laboratories |
Microcontrollers • Pipelined 8-bit 8051 MCU Core with 72 MHz operating frequency • Up to 29 multifunction I/O pins • One 14-bit, 900 ksps ADC • Up to four 12-bit DACs with synchronization and PWM capabilities • Two low-current analog comparators with built-in referen |
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Silicon Laboratories |
Microcontrollers • Lowest MCU sleep current with supply brownout detection (50 nA) • Lowest MCU active current with these features (170 μA / MHz at 24.5 MHz clock rate) • Lowest MCU sleep current using internal RTC operating and supply brownout detection (<300 nA) • |
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Silicon Laboratories |
Gecko MCU autonomous peripherals, high overall chip and analog integration, and the performance of the industry standard 32-bit ARM CortexM4 with Floating-Point Unit (FPU) processor, making it perfect for battery-powered systems and systems with high-performan |
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Silicon Laboratories |
32-Bit MCU autonomous peripherals, high overall chip and analog integration, and the performance of the industry standard 32-bit ARM CortexM3 processor, making it perfect for battery-powered systems and systems with high-performance, low-energy requirements. E |
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Silicon Laboratories |
Microcontrollers set and in-depth information on the modules, the reader is referred to the EFM32G Reference Manual. A block diagram of the EFM32G840 is shown in Figure 2.1 (p. 3) . Figure 2.1. Block Diagram G840F32/ 64/ 128 Core and Memory Clock Managem ent ARM |
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Silicon Laboratories |
Microcontrollers autonomous peripherals, high overall chip and analog integration, and the performance of the industry standard 32-bit ARM CortexM0+ processor, making it perfect for battery-powered systems and systems with highperformance, low-energy requirements. E |
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Silicon Laboratories |
Microcontrollers autonomous peripherals, high overall chip and analog integration, and the performance of the industry standard 32-bit ARM CortexM3 processor, making it perfect for battery-powered systems and systems with high-performance, low-energy requirements. E |
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