STM32F051C8T7TR STMicroelectronics, STM32F051C8T7TR Datasheet - Page 18

STM32F051C8T7TR

Manufacturer Part Number

STM32F051C8T7TR

Description

ARM Microcontrollers - MCU Entry-level ARM Cortex-M0 MCU 64Kb

Manufacturer

STMicroelectronics

Datasheet

1.STM32F051K4U6.pdf (104 pages)

Specifications of STM32F051C8T7TR

Rohs

yes

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Functional overview

3.10.3

3.11

3.12

3.13

18/105

This embedded hardware feature allows the application to measure the V

using the internal ADC channel ADC_IN18. As the V

and thus outside the ADC input range, the V

divider by 2. As a consequence, the converted digital value is half the V

Digital-to-analog converter (DAC)

The 12-bit buffered DAC channel can be used to convert digital signals into analog voltage

signal outputs. The chosen design structure is composed of integrated resistor strings and

an amplifier in non-inverting configuration.

This digital Interface supports the following features:

●

Five DAC trigger inputs are used in the device. The DAC is triggered through the timer

trigger outputs and the DAC interface is generating it’s own DMA requests.

Comparators (COMP)

The device embeds two fast rail-to-rail low-power comparators with programmable reference

voltage (internal or external), hysteresis and speed (low speed for low power) and with

selectable output polarity.

The reference voltage can be one of the following:

●

Both comparators can wake up from STOP mode, generate interrupts and breaks for the

timers and can be also combined into a window comparator.

The internal voltage reference is also connected to ADC_IN17 input channel of the ADC.

Touch sensing controller (TSC)

The STM32F051x devices provide a simple solution for adding capacitive sensing

functionality to any application. Capacitive sensing technology is able to detect the presence

of a finger near an electrode which is protected from direct touch by a dielectric (glass,

plastic, ...). The capacitive variation introduced by the finger (or any conductive object) is

measured using a proven implementation based on a surface charge transfer acquisition

principle. It consists of charging the electrode capacitance and then transferring a part of the

accumulated charges into a sampling capacitor until the voltage across this capacitor has

reached a specific threshold. To limit the CPU bandwidth usage this acquisition is directly

managed by the hardware touch sensing controller and only requires few external

BAT

Left or right data alignment in 12-bit mode

Synchronized update capability

DMA capability

External triggers for conversion

External I/O

DAC output pin

Internal reference voltage or submultiple (1/4, 1/2, 3/4). Refer to

internal reference voltage

battery voltage monitoring

Doc ID 022265 Rev 3

for the value and precision of the internal reference voltage.

BAT

pin is internally connected to a bridge

BAT

voltage may be higher than V

Table 24: Embedded

BAT

voltage.

battery voltage

STM32F051x

DDA

STM32F051C8T7TR STMicroelectronics, STM32F051C8T7TR Datasheet - Page 18

STM32F051C8T7TR

Specifications of STM32F051C8T7TR

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