EFM32WG840F128 Energy Micro, EFM32WG840F128 Datasheet - Page 6
EFM32WG840F128
Manufacturer Part Number
EFM32WG840F128
Description
ARM Microcontrollers - MCU 128kb flash 32kb RAM
Manufacturer
Energy Micro
Datasheet
1.EFM32WG840F128.pdf
(67 pages)
Specifications of EFM32WG840F128
Rohs
yes
Core
ARM Cortex M4F
Processor Series
EFM32WG840
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
QFN-64
Mounting Style
SMD/SMT
2.1.19 Analog Comparator (ACMP)
2.1.20 Voltage Comparator (VCMP)
2.1.21 Analog to Digital Converter (ADC)
2.1.22 Digital to Analog Converter (DAC)
2.1.23 Operational Amplifier (OPAMP)
2.1.24 Low Energy Sensor Interface (LESENSE)
2.1.25 Backup Power Domain
2.1.26 Advanced Encryption Standard Accelerator (AES)
2012-09-11 - EFM32WG840FXX - d0195_Rev1.00
The Analog Comparator is used to compare the voltage of two analog inputs, with a digital output indi-
cating which input voltage is higher. Inputs can either be one of the selectable internal references or from
external pins. Response time and thereby also the current consumption can be configured by altering
the current supply to the comparator.
The Voltage Supply Comparator is used to monitor the supply voltage from software. An interrupt can
be generated when the supply falls below or rises above a programmable threshold. Response time and
thereby also the current consumption can be configured by altering the current supply to the comparator.
The ADC is a Successive Approximation Register (SAR) architecture, with a resolution of up to 12 bits
at up to one million samples per second. The integrated input mux can select inputs from 8 external
pins and 6 internal signals.
The Digital to Analog Converter (DAC) can convert a digital value to an analog output voltage. The DAC
is fully differential rail-to-rail, with 12-bit resolution. It has two single ended output buffers which can be
combined into one differential output. The DAC may be used for a number of different applications such
as sensor interfaces or sound output.
The EFM32WG840 features 3 Operational Amplifiers. The Operational Amplifier is a versatile general
purpose amplifier with rail-to-rail differential input and rail-to-rail single ended output. The input can be set
to pin, DAC or OPAMP, whereas the output can be pin, OPAMP or ADC. The current is programmable
and the OPAMP has various internal configurations such as unity gain, programmable gain using internal
resistors etc.
The Low Energy Sensor Interface (LESENSE
for up to 16 individually configurable sensors. By controlling the analog comparators and DAC, LESENSE
is capable of supporting a wide range of sensors and measurement schemes, and can for instance mea-
sure LC sensors, resistive sensors and capacitive sensors. LESENSE also includes a programmable
FSM which enables simple processing of measurement results without CPU intervention. LESENSE is
available in energy mode EM2, in addition to EM0 and EM1, making it ideal for sensor monitoring in
applications with a strict energy budget.
The backup power domain is a separate power domain containing a Backup Real Time Counter, BURTC,
and a set of retention registers, available in all energy modes. This power domain can be configured to
automatically change power source to a backup battery when the main power drains out. The backup
power domain enables the EFM32WG840 to keep track of time and retain data, even if the main power
source should drain out.
The AES accelerator performs AES encryption and decryption with 128-bit or 256-bit keys. Encrypting or
decrypting one 128-bit data block takes 52 HFCORECLK cycles with 128-bit keys and 75 HFCORECLK
Preliminary
TM
...the world's most energy friendly microcontrollers
), is a highly configurable sensor interface with support
6
www.energymicro.com
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