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STM32F103RC

ARM-based 32-bit MCU

The STM32F103RC is a arm-based 32-bit mcu from STMicroelectronics. View the full STM32F103RC datasheet below including pinout, electrical characteristics, absolute maximum ratings.

Manufacturer

STMicroelectronics

Category

Integrated Circuits

Overview

Part: STM32F103xC, STM32F103xD, STM32F103xE

Type: ARM Cortex-M3 MCU

Description: ARM-based 32-bit MCU with 256 to 512KB Flash, USB, CAN, 11 timers, 3 ADCs, 13 communication interfaces, and up to 72 MHz maximum frequency.

Operating Conditions:

  • Supply voltage: 2.0 to 3.6 V
  • Operating temperature: -40 to +125 °C (Junction temperature)
  • Max CPU frequency: 72 MHz
  • ADC conversion range: 0 to 3.6 V

Absolute Maximum Ratings:

  • Max supply voltage: 4.0 V
  • Max continuous current: 200 mA (VDD)
  • Max junction/storage temperature: -65 to +150 °C (Storage temperature)

Key Specs:

  • CPU: ARM 32-bit Cortex-M3
  • Max CPU frequency: 72 MHz
  • Flash memory: 256 to 512 Kbytes
  • SRAM: up to 64 Kbytes
  • ADC resolution: 12-bit
  • DAC resolution: 12-bit
  • SPI speed: 18 Mbit/s
  • DMIPS/MHz: 1.25 DMIPS/MHz (Dhrystone 2.1)

Features:

  • Single-cycle multiplication and hardware division
  • Flexible static memory controller (FSMC)
  • LCD parallel interface (8080/6800 modes)
  • Power-on reset (POR), Power-down reset (PDR), Programmable voltage detector (PVD)
  • Low-power modes: Sleep, Stop, Standby
  • 12-channel DMA controller
  • Serial wire debug (SWD) & JTAG interfaces
  • CRC calculation unit, 96-bit unique ID
  • ECOPACK® packages

Package:

  • LFBGA144 (144-ball)
  • LFBGA100 (100-ball)
  • WLCSP64 (64-ball)
  • LQFP144 (144-pin)
  • LQFP64 (64-pin)

Features

  • Core: ARM ® 32-bit Cortex ® -M3 CPU
  • -72 MHz maximum frequency, 1.25 DMIPS/MHz (Dhrystone 2.1) performance at 0 wait state memory access
  • -Single-cycle multiplication and hardware division
  • Memories
  • -256 to 512 Kbytes of Flash memory
  • -up to 64 Kbytes of SRAM
  • -Flexible static memory controller with 4 Chip Select. Supports Compact Flash, SRAM, PSRAM, NOR and NAND memories
  • -LCD parallel interface, 8080/6800 modes
  • Clock, reset and supply management
  • -2.0 to 3.6 V application supply and I/Os
  • -POR, PDR, and programmable voltage detector (PVD)
  • -4-to-16 MHz crystal oscillator
  • -Internal 8 MHz factory-trimmed RC
  • -Internal 40 kHz RC with calibration
  • -32 kHz oscillator for RTC with calibration
  • Low power
  • -Sleep, Stop and Standby modes
  • -VBAT supply for RTC and backup registers
  • 3 × 12-bit, 1 μs A/D converters (up to 21 channels)
  • -Conversion range: 0 to 3.6 V
  • -Triple-sample and hold capability
  • -Temperature sensor
  • 2 × 12-bit D/A converters
  • DMA: 12-channel DMA controller
  • -Supported peripherals: timers, ADCs, DAC, SDIO, I 2 Ss, SPIs, I 2 Cs and USARTs
  • Debug mode
  • -Serial wire debug (SWD) & JTAG interfaces
  • -Cortex ® -M3 Embedded Trace Macrocell™
  • Up to 112 fast I/O ports
  • -51/80/112 I/Os, all mappable on 16 external interrupt vectors and almost all 5 V-tolerant

Pin Configuration

STM32F103RC — LQFP64 Pinout

PinNameTypeMain FunctionAlternate Functions (Default)Alternate Functions (Remap)
1VBATSVBAT
2PC13-TAMPER-RTCI/OPC13TAMPER-RTC
3PC14-OSC32_INI/OPC14OSC32_IN
4PC15-OSC32_OUTI/OPC15OSC32_OUT
5PD0-OSC_INI/OOSC_INFSMC_D2CAN_RX
6PD1-OSC_OUTI/OOSC_OUTFSMC_D3CAN_TX
7NRSTI/ONRST
8PC0I/OPC0ADC123_IN10
9PC1I/OPC1ADC123_IN11
10PC2I/OPC2ADC123_IN12
11PC3I/OPC3ADC123_IN13
12VSSASVSSA
13VDDASVDDA
14PA0-WKUPI/OPA0WKUP/USART2_CTS/ADC123_IN0/TIM2_CH1_ETR/TIM5_CH1/TIM8_ETR
15PA1I/OPA1USART2_RTS/ADC123_IN1/TIM5_CH2/TIM2_CH2
16PA2I/OPA2USART2_TX/ADC123_IN2/TIM5_CH3/TIM2_CH3
17PA3I/OPA3USART2_RX/ADC123_IN3/TIM5_CH4/TIM2_CH4
18PA4I/OPA4SPI1_NSS/USART2_CK/DAC_OUT1/ADC12_IN4
19PA5I/OPA5SPI1_SCK/DAC_OUT2/ADC12_IN5
20PA6I/OPA6SPI1_MISO/TIM8_BKIN/ADC12_IN6/TIM3_CH1TIM1_BKIN
21PA7I/OPA7SPI1_MOSI/TIM8_CH1N/ADC12_IN7/TIM3_CH2TIM1_CH1N
22PC4I/OPC4ADC12_IN14
23PC5I/OPC5ADC12_IN15
24PB0I/OPB0ADC12_IN8/TIM3_CH3/TIM8_CH2NTIM1_CH2N
25PB1I/OPB1ADC12_IN9/TIM3_CH4/TIM8_CH3NTIM1_CH3N
26PB2I/OPB2PB2/BOOT1
27PB10I/OPB10I2C2_SCL/USART3_TXTIM2_CH3
28PB11I/OPB11I2C2_SDA/USART3_RXTIM2_CH4
29VSS_1SVSS_1
30VDD_1SVDD_1
31PB12I/OPB12SPI2_NSS/I2S2_WS/I2C2_SMBA/USART3_CK/TIM1_BKIN
32PB13I/OPB13SPI2_SCK/I2S2_CK/USART3_CTS/TIM1_CH1N
33PB14I/OPB14SPI2_MISO/TIM1_CH2N/USART3_RTS
34PB15I/OPB15SPI2_MOSI/I2S2_SD/TIM1_CH3N
35PC6I/OPC6I2S2_MCK/TIM8_CH1/SDIO_D6TIM3_CH1
36PC7I/OPC7I2S3_MCK/TIM8_CH2/SDIO_D7TIM3_CH2
37PC8I/OPC8TIM8_CH3/SDIO_D0TIM3_CH3
38PC9I/OPC9TIM8_CH4/SDIO_D1TIM3_CH4
39PA8I/OPA8USART1_CK/TIM1_CH1/MCO
40PA9I/OPA9USART1_TX/TIM1_CH2
41PA10I/OPA10USART1_RX/TIM1_CH3
42PA11I/OPA11USART1_CTS/USBDM/CAN_RX/TIM1_CH4
43PA12I/OPA12USART1_RTS/USBDP/CAN_TX/TIM1_ETR
44PA13I/OJTMS-SWDIOPA13
45VSS_2SVSS_2
46VDD_2SVDD_2
47PA14I/OJTCK-SWCLKPA14
48PA15I/OJTDISPI3_NSS/I2S3_WSTIM2_CH1_ETR/PA15/SPI1_NSS
49PC10I/OPC10UART4_TX/SDIO_D2USART3_TX
50PC11I/OPC11UART4_RX/SDIO_D3USART3_RX
51PC12I/OPC12UART5_TX/SDIO_CKUSART3_CK
52PD2I/OPD2TIM3_ETR/UART5_RX/SDIO_CMD
53PD3I/OPD3FSMC_CLKUSART2_CTS
54PD4I/OPD4FSMC_NOEUSART2_RTS
55PD5I/OPD5FSMC_NWEUSART2_TX
56PD6I/OPD6FSMC_NWAITUSART2_RX
57PD7I/OPD7FSMC_NE1/FSMC_NCE2USART2_CK
58PB3I/OJTDOSPI3_SCK/I2S3_CKPB3/TRACESWO/TIM2_CH2/SPI1_SCK
59PB4I/ONJTRSTSPI3_MISOPB4/TIM3_CH1/SPI1_MISO
60PB5I/OPB5I2C1_SMBA/SPI3_MOSI/I2S3_SDTIM3_CH2/SPI1_MOSI
61PB6I/OPB6I2C1_SCL/TIM4_CH1USART1_TX
62PB7I/OPB7I2C1_SDA/FSMC_NADV/TIM4_CH2USART1_RX
63BOOT0IBOOT0
64VSS_3SVSS_3

Notes

  • STM32F103RC is a high-density device in the LQFP64 package (64 pins).
  • FT designation (5V tolerant) applies to most I/O pins; PC13–PC15 have limited output capability (2 MHz max, 30 pF load, 3 mA sink current).
  • FSMC not available in LQFP64 package; FSMC-related alternate functions listed in the table are not usable on this variant.
  • Pins 5 and 6 (PD0/PD1) are configured as OSC_IN/OSC_OUT after reset; PD0 and PD1 functionality can be remapped by software.
  • PA13, PA14, PA15 have JTAG/SWD functions by default; remapping available via software.
  • Supply pins: VBAT (pin 1), VSSA (pin 12), VDDA (pin 13), VSS_1/VDD_1 (pins 29–30), VSS_2/VDD_2 (pins 45–46), VSS_3 (pin 64).

Electrical Characteristics

The definition and values of input/output AC characteristics are given in Figure 46 and Table 48 , respectively.

Unless otherwise specified, the parameters given in Table 48 are derived from tests performed under ambient temperature and V DD supply voltage conditions summarized in Table 10 .

Table 48. I/O AC characteristics (1)

MODEx[1:0] bit value (1)SymbolParameterConditionsMinMaxUnit
10f max(IO)outMaximum frequency (2)C L = 50 pF, V DD = 2 V to 3.6 V-2MHz
10t f(IO)outOutput high to low level fall timeC L = 50 pF, V DD = 2 V to 3.6 V-125 (3)ns
10t r(IO)outOutput low to high level rise timeC L = 50 pF, V DD = 2 V to 3.6 V-125 (3)ns
01f max(IO)outMaximum frequency (2)C L = 50 pF, V DD = 2 V to 3.6 V-10MHz
01t f(IO)outOutput high to low level fall timeC L = 50 pF, V DD = 2 V to 3.6 V-25 (3)ns
01t r(IO)outOutput low to high level rise timeC L = 50 pF, V DD = 2 V to 3.6 V-25 (3)ns
11F max(IO)outMaximum frequency (2)C L = 30 pF, V DD = 2.7 V to 3.6 V-50MHz
11F max(IO)outMaximum frequency (2)C L = 50 pF, V DD = 2.7 V to 3.6 V-30MHz
11F max(IO)outMaximum frequency (2)C L = 50 pF, V DD = 2 V to 2.7 V-20MHz
11t f(IO)outOutput high to low level fall timeC L = 30 pF, V DD = 2.7 V to 3.6 V-5 (3)ns
11t f(IO)outOutput high to low level fall timeC L = 50 pF, V DD = 2.7 V to 3.6 V-8 (3)ns
11t f(IO)outOutput high to low level fall timeC L = 50 pF, V DD = 2 V to 2.7 V-12 (3)ns
11t r(IO)outOutput low to high level rise timeC L = 30 pF, V DD = 2.7 V to 3.6 V-5 (3)ns
11t r(IO)outOutput low to high level rise timeC L = 50 pF, V DD = 2.7 V to 3.6 V-8 (3)ns
11t r(IO)outOutput low to high level rise timeC L = 50 pF, V DD = 2 V to 2.7 V-12 (3)ns
-t EXTIpwPulse width of external signals detected by the EXTI controller-10-ns
  1. The maximum frequency is defined in Figure 46 .
  2. Guaranteed by design.

Figure 46. I/O AC characteristics definition

Figure 46. I/O AC characteristics definition

Absolute Maximum Ratings

Stresses above the absolute maximum ratings listed in Table 7: Voltage characteristics , Table 8: Current characteristics , and Table 9: Thermal characteristics may cause permanent damage to the device. These are stress ratings only and functional operation of the device at these conditions is not implied. Exposure to maximum rating conditions for extended periods may affect device reliability.

Table 7. Voltage characteristics

SymbolRatingsMinMaxUnit
V DD -V SSExternal main supply voltage (including V DDA and V DD ) (1)-0.34.0V
V IN (2)Input voltage on five volt tolerant pinV SS - 0.3V DD + 4.0V
V IN (2)Input voltage on any other pinV SS - 0.34.0V
\∆ V DDx \Variations between different V DD power pins-
\V SSX - V SS \Variations between all the different ground pins (3)-
V ESD(HBM)Electrostatic discharge voltage (human body model)see Section 5.3.12: Absolute maximum ratings (electrical sensitivity)see Section 5.3.12: Absolute maximum ratings (electrical sensitivity)-

Table 8. Current characteristics

Table 8. Current characteristics

SymbolRatingsMax.Unit
I VDDTotal current into V DD /V DDA power lines (source) (1)150mA
I VSSTotal current out of V SS ground lines (sink) (1)150mA
I IOOutput current sunk by any I/O and control pin25mA
I IOOutput current source by any I/Os and control pin- 25mA
I INJ(PIN) (2)Injected current on five volt tolerant pins (3)-5/+0mA
I INJ(PIN) (2)Injected current on any other pin (4)± 5mA
Σ I INJ(PIN)Total injected current (sum of all I/O and control pins) (5)± 25mA
  1. Positive injection is not possible on these I/Os. A negative injection is induced by V IN <VSS . I INJ(PIN) must never be exceeded. Refer to Table 7: Voltage characteristics for the maximum allowed input voltage values.
  2. A positive injection is induced by V IN >VDD while a negative injection is induced by V IN <VSS . I INJ(PIN) must never be exceeded. Refer to Table 7: Voltage characteristics for the maximum allowed input voltage values.
  3. When several inputs are submitted to a current injection, the maximum Σ I INJ(PIN) is the absolute sum of the positive and negative injected currents (instantaneous values).

136

Table 9. Thermal characteristics

SymbolRatingsValueUnit
T STGStorage temperature range-65 to +150°C
T JMaximum junction temperature150°C

Thermal Information

The maximum chip junction temperature (T J max) must never exceed the values given in Table 10: General operating conditions on page 44 .

The maximum chip-junction temperature, T J max, in degrees Celsius, may be calculated using the following equation:

Package Information

In order to meet environmental requirements, ST offers these devices in different grades of ECOPACK ® packages, depending on their level of environmental compliance. ECOPACK ® specifications, grade definitions and product status are available at: www.st.com . ECOPACK ® is an ST trademark.

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