EFM32WG390F128 Energy Micro, EFM32WG390F128 Datasheet - Page 66
EFM32WG390F128
Manufacturer Part Number
EFM32WG390F128
Description
ARM Microcontrollers - MCU 128kb flash 32kb RAM
Manufacturer
Energy Micro
Datasheet
1.EFM32WG390F256.pdf
(69 pages)
Specifications of EFM32WG390F128
Rohs
yes
Core
ARM Cortex M4F
Processor Series
EFM32WG390
Data Bus Width
32 bit
Maximum Clock Frequency
48 MHz
Program Memory Size
128 KB
Data Ram Size
32 KB
On-chip Adc
Yes
Operating Supply Voltage
1.85 V to 3.8 V
Operating Temperature Range
- 40 C to + 85 C
Package / Case
BGA-112
Mounting Style
SMD/SMT
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
EFM32WG390F128-T
Manufacturer:
Energy Micro
Quantity:
10 000
Preliminary
...the world's most energy friendly microcontrollers
List of Figures
2.1. Block Diagram ....................................................................................................................................... 3
2.2. EFM32WG390 Memory Map with largest RAM and Flash sizes ....................................................................... 9
3.1. Typical Low-Level Output Current, 2V Supply Voltage .................................................................................. 16
3.2. Typical High-Level Output Current, 2V Supply Voltage ................................................................................. 17
3.3. Typical Low-Level Output Current, 3V Supply Voltage .................................................................................. 18
3.4. Typical High-Level Output Current, 3V Supply Voltage ................................................................................. 19
3.5. Typical Low-Level Output Current, 3.8V Supply Voltage ............................................................................... 20
3.6. Typical High-Level Output Current, 3.8V Supply Voltage ............................................................................... 21
3.7. Minimum Load Capacitance (C
) Requirement For Safe Crystal Startup ..................................................... 22
LFXOL
3.8. Calibrated LFRCO Frequency vs Temperature and Supply Voltage ................................................................ 24
3.9. Calibrated HFRCO 11 MHz Band Frequency vs Temperature and Supply Voltage ............................................ 25
3.10. Calibrated HFRCO 14 MHz Band Frequency vs Temperature and Supply Voltage ........................................... 25
3.11. Calibrated HFRCO 21 MHz Band Frequency vs Temperature and Supply Voltage ........................................... 25
3.12. Calibrated HFRCO 28 MHz Band Frequency vs Temperature and Supply Voltage ........................................... 26
3.13. Integral Non-Linearity (INL) ................................................................................................................... 30
3.14. Differential Non-Linearity (DNL) .............................................................................................................. 31
3.15. ADC Frequency Spectrum, Vdd = 3V, Temp = 25° ................................................................................... 32
3.16. ADC Integral Linearity Error vs Code, Vdd = 3V, Temp = 25° ..................................................................... 33
3.17. ADC Differential Linearity Error vs Code, Vdd = 3V, Temp = 25° ................................................................. 34
3.18. ADC Absolute Offset, Common Mode = Vdd /2 ........................................................................................ 35
3.19. ADC Dynamic Performance vs Temperature for all ADC References, Vdd = 3V .............................................. 35
3.20. ADC Temperature sensor readout ......................................................................................................... 36
3.21. OPAMP Common Mode Rejection Ratio ................................................................................................. 39
3.22. OPAMP Positive Power Supply Rejection Ratio ........................................................................................ 39
3.23. OPAMP Negative Power Supply Rejection Ratio ...................................................................................... 40
3.24. OPAMP Voltage Noise Spectral Density (Unity Gain) V
=1V ..................................................................... 40
out
3.25. OPAMP Voltage Noise Spectral Density (Non-Unity Gain) .......................................................................... 40
3.26. Typical ACMP Characteristics ............................................................................................................... 42
4.1. EFM32WG390 Pinout (top view, not to scale) ............................................................................................. 45
4.2. Opamp Pinout ...................................................................................................................................... 56
4.3. BGA112 .............................................................................................................................................. 56
5.1. BGA112 PCB Land Pattern ..................................................................................................................... 58
5.2. BGA112 PCB Solder Mask ..................................................................................................................... 59
5.3. BGA112 PCB Stencil Design ................................................................................................................... 60
6.1. Example Chip Marking ........................................................................................................................... 61
www.energymicro.com
2012-09-11 - EFM32WG390FXX - d0193_Rev1.00
66
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