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兆易创新GD32F330G8U6-GD32 ARM Cortex-M4 Microcontroller

兆易创新GD32F330G8U6-GD32 ARM Cortex-M4 Microcontroller GigaDevice Semiconductor Inc. GD32F330xx ARM® Cortex®-M4 32-bit MCU Datasheet General description The GD32F330xx device belongs to the value line of GD32 MCU family. It is a new 32-bit general-purpose microcontroller based on the ARM® Cortex®-M4 RISC core with best cost- performance ratio in terms of enhanced processing capacity, reduced power consumption and peripheral set. The Cortex®-M4 core features implement a full set of DSP instructions to address digital signal control markets that demand an efficient, easy-to-use blend of control and signal processing capabilities. It also provides a powerful trace technology for enhanced application security and advanced debug support. The GD32F330xx device incorporates the ARM® Cortex®-M4 32-bit processor core operating at 84 MHz frequency with Flash accesses zero wait states to obtain maximum efficiency. It provides up to 128 KB on-chip Flash memory and up to 16 KB SRAM memory. An extensive range of enhanced I/Os and peripherals connected to two APB buses. The devices offer one 12-bit ADC, up to five general 16-bit timers, a general 32-bit timer, a PWM advanced timer, as well as standard and advanced communication interfaces: up to two SPIs, two I2Cs, two USARTs. The device operates from a 2.6 to 3.6 V power supply and available in –40 to +85 °C temperature range. Several power saving modes provide the flexibility for maximum optimization between wakeup latency and power consumption, an especially important consideration in low power applications. The above features make the GD32F330xx devices suitable for a wide range of applications, especially in areas such as industrial control, motor drives, user interface, power monitor and alarm systems, consumer and handheld equipment, gaming and GPS, E-bike and so on. Part Number GD32F330xx F4 F6 F8 G4 G6 G8 K4 K6 K8 C4 C6 C8 CB R8 RB Flash Code area (KB) 16 32 64 16 32 64 16 32 64 16 32 64 64 64 64 Data area (KB) 0 0 0 0 0 0 0 0 0 0 0 0 64 0 64 Total (KB) 16 32 64 16 32 64 16 32 64 16 32 64 128 64 128 SRAM (KB) 4 4 8 4 4 8 4 4 8 4 4 8 16 16 16 Timers Genaral timer (32-bit) 1 (1) 1 (1) 1 (1) 1 (1) 1 (1) 1 (1) 1 (1) 1 (1) 1 (1) 1 (1) 1 (1) 1 (1) 1 (1) 1 (1) 1 (1) Genaral timer (16-bit) 4 (2,13,15,16) 4 (2,13,15,16) 4 (2,13,15,16) 4 (2,13,15,16) 4 (2,13,15,16) 5 (2,13-16) 4 (2,13,15,16) 4 (2,13,15,16) 5 (2,13-16) 4 (2,13,15,16) 4 (2,13,15,16) 5 (2,13-16) 5 (2,13-16) 5 (2,13-16) 5 (2,13-16) Advanced timer (16-bit) 1 (0) 1 (0) 1 (0) 1 (0) 1 (0) 1 (0) 1 (0) 1 (0) 1 (0) 1 (0) 1 (0) 1 (0) 1 (0) 1 (0) 1 (0) SysTick 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Watchdog 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2

产品描述

GigaDevice Semiconductor Inc.
GD32F330xx
ARM® Cortex®-M4 32-bit MCU
Datasheet

General description

The GD32F330xx device belongs to the value line of GD32 MCU family. It is a new 32-bit general-purpose microcontroller based on the ARM® Cortex®-M4 RISC core with best cost- performance ratio in terms of enhanced processing capacity, reduced power consumption and peripheral set. The Cortex®-M4 core features implement a full set of DSP instructions to address digital signal control markets that demand an efficient, easy-to-use blend of control and signal processing capabilities. It also provides a powerful trace technology for enhanced application security and advanced debug support.
The GD32F330xx device incorporates the ARM® Cortex®-M4 32-bit processor core operating at 84 MHz frequency with Flash accesses zero wait states to obtain maximum efficiency. It provides up to 128 KB on-chip Flash memory and up to 16 KB SRAM memory. An extensive range of enhanced I/Os and peripherals connected to two APB buses. The devices offer one 12-bit ADC, up to five general 16-bit timers, a general 32-bit timer, a PWM advanced timer, as well as standard and advanced communication interfaces: up to two SPIs, two I2Cs, two USARTs.
The device operates from a 2.6 to 3.6 V power supply and available in –40 to +85 °C temperature range. Several power saving modes provide the flexibility for maximum optimization between wakeup latency and power consumption, an especially important consideration in low power applications.
The above features make the GD32F330xx devices suitable for a wide range of applications, especially in areas such as industrial control, motor drives, user interface, power monitor and alarm systems, consumer and handheld equipment, gaming and GPS, E-bike and so on.

Part Number		GD32F330xx
		F4	F6	F8	G4	G6	G8	K4	K6	K8	C4	C6	C8	CB	R8	RB
Flash	Code area (KB)	16	32	64	16	32	64	16	32	64	16	32	64	64	64	64
	Data area (KB)	0	0	0	0	0	0	0	0	0	0	0	0	64	0	64
	Total (KB)	16	32	64	16	32	64	16	32	64	16	32	64	128	64	128
SRAM (KB)		4	4	8	4	4	8	4	4	8	4	4	8	16	16	16
Timers	Genaral timer (32-bit)	1 (1)	1 (1)	1 (1)	1 (1)	1 (1)	1 (1)	1 (1)	1 (1)	1 (1)	1 (1)	1 (1)	1 (1)	1 (1)	1 (1)	1 (1)
	Genaral timer (16-bit)	4 (2,13,15,16)	4 (2,13,15,16)	4 (2,13,15,16)	4 (2,13,15,16)	4 (2,13,15,16)	5 (2,13-16)	4 (2,13,15,16)	4 (2,13,15,16)	5 (2,13-16)	4 (2,13,15,16)	4 (2,13,15,16)	5 (2,13-16)	5 (2,13-16)	5 (2,13-16)	5 (2,13-16)
	Advanced timer (16-bit)	1 (0)	1 (0)	1 (0)	1 (0)	1 (0)	1 (0)	1 (0)	1 (0)	1 (0)	1 (0)	1 (0)	1 (0)	1 (0)	1 (0)	1 (0)
	SysTick	1	1	1	1	1	1	1	1	1	1	1	1	1	1	1
	Watchdog	2	2	2	2	2	2	2	2	2	2	2	2	2	2	2
	RTC	1	1	1	1	1	1	1	1	1	1	1	1	1	1	1
Connectivity	USART	1 (0)	2 (0-1)	2 (0-1)	1 (0)	2 (0-1)	2 (0-1)	1 (0)	2 (0-1)	2 (0-1)	1 (0)	2 (0-1)	2 (0-1)	2 (0-1)	2 (0-1)	2 (0-1)
	I2C	1 (0)	1 (0)	2 (0-1)	1 (0)	1 (0)	2 (0-1)	1 (0)	1 (0)	2 (0-1)	1 (0)	1 (0)	2 (0-1)	2 (0-1)	2 (0-1)	2 (0-1)
	SPI	1 (0)	1 (0)	2 (0-1)	1 (0)	1 (0)	2 (0-1)	1 (0)	1 (0)	2 (0-1)	1 (0)	1 (0)	2 (0-1)	2 (0-1)	2 (0-1)	2 (0-1)
GPIO		15	15	15	23	23	23	27	27	27	39	39	39	39	55	55
EXTI		16	16	16	16	16	16	16	16	16	16	16	16	16	16	16
ADC	Units	1	1	1	1	1	1	1	1	1	1	1	1	1	1	1
	Channels (External)	9	9	9	10	10	10	10	10	10	10	10	10	10	16	16
	Channels (Internal)	3	3	3	3	3	3	3	3	3	3	3	3	3	3	3
Package		TSSOP20			QFN28			QFN32			LQFP48				LQFP64

Memory map

Table 2-2. GD32F330xx memory map

Pre-defined Regions	Bus	Address	Peripherals
		0xE000 0000 - 0xE00F FFFF	Cortex-M4 internal peripherals
External Device		0xA000 0000 - 0xDFFF FFFF	Reserved
External RAM		0x6000 0000 - 0x9FFF FFFF	Reserved
Peripherals	AHB1	0x5004 0000 - 0x5FFF FFFF	Reserved
		0x5000 0000 - 0x5003 FFFF	Reserved
	AHB2	0x4800 1800 - 0x4FFF FFFF	Reserved
		0x4800 1400 - 0x4800 17FF	GPIOF
		0x4800 1000 - 0x4800 13FF	Reserved
		0x4800 0C00 - 0x4800 0FFF	GPIOD
		0x4800 0800 - 0x4800 0BFF	GPIOC
		0x4800 0400 - 0x4800 07FF	GPIOB
		0x4800 0000 - 0x4800 03FF	GPIOA
	AHB1	0x4002 4400 - 0x47FF FFFF	Reserved
		0x4002 4000 - 0x4002 43FF	Reserved
		0x4002 3400 - 0x4002 3FFF	Reserved
		0x4002 3000 - 0x4002 33FF	CRC
		0x4002 2400 - 0x4002 2FFF	Reserved
		0x4002 2000 - 0x4002 23FF	FMC
		0x4002 1400 - 0x4002 1FFF	Reserved
		0x4002 1000 - 0x4002 13FF	RCU
		0x4002 0400 - 0x4002 0FFF	Reserved
		0x4002 0000 - 0x4002 03FF	DMA
	APB2	0x4001 8000 - 0x4001 FFFF	Reserved
		0x4001 5C00 - 0x4001 7FFF	Reserved
		0x4001 4C00 - 0x4001 5BFF	Reserved
		0x4001 4800 - 0x4001 4BFF	TIMER16
		0x4001 4400 - 0x4001 47FF	TIMER15
		0x4001 4000 - 0x4001 43FF	TIMER14
		0x4001 3C00 - 0x4001 3FFF	Reserved
		0x4001 3800 - 0x4001 3BFF	USART0
		0x4001 3400 - 0x4001 37FF	Reserved
		0x4001 3000 - 0x4001 33FF	SPI0
		0x4001 2C00 - 0x4001 2FFF	TIMER0
		0x4001 2800 - 0x4001 2BFF	Reserved
		0x4001 2400 - 0x4001 27FF	ADC
		0x4001 0800 - 0x4001 23FF	Reserved
		0x4001 0400 - 0x4001 07FF	EXTI

Pre-defined Regions	Bus	Address	Peripherals
		0x4001 0000 - 0x4001 03FF	SYSCFG
	APB1	0x4000 CC00 - 0x4000 FFFF	Reserved
		0x4000 C800 - 0x4000 CBFF	CTC
		0x4000 C400 - 0x4000 C7FF	Reserved
		0x4000 C000 - 0x4000 C3FF	Reserved
		0x4000 8000 - 0x4000 BFFF	Reserved
		0x4000 7C00 - 0x4000 7FFF	Reserved
		0x4000 7800 - 0x4000 7BFF	Reserved
		0x4000 7400 - 0x4000 77FF	Reserved
		0x4000 7000 - 0x4000 73FF	PMU
		0x4000 6400 - 0x4000 6FFF	Reserved
		0x4000 6000 - 0x4000 63FF	Reserved
		0x4000 5C00 - 0x4000 5FFF	Reserved
		0x4000 5800 - 0x4000 5BFF	I2C1
		0x4000 5400 - 0x4000 57FF	I2C0
		0x4000 4800 - 0x4000 53FF	Reserved
		0x4000 4400 - 0x4000 47FF	USART1
		0x4000 4000 - 0x4000 43FF	Reserved
		0x4000 3C00 - 0x4000 3FFF	Reserved
		0x4000 3800 - 0x4000 3BFF	SPI1
		0x4000 3400 - 0x4000 37FF	Reserved
		0x4000 3000 - 0x4000 33FF	FWDGT
		0x4000 2C00 - 0x4000 2FFF	WWDGT
		0x4000 2800 - 0x4000 2BFF	RTC
		0x4000 2400 - 0x4000 27FF	Reserved
		0x4000 2000 - 0x4000 23FF	TIMER13
		0x4000 1400 - 0x4000 1FFF	Reserved
		0x4000 1000 - 0x4000 13FF	Reserved
		0x4000 0800 - 0x4000 0FFF	Reserved
		0x4000 0400 - 0x4000 07FF	TIMER2
		0x4000 0000 - 0x4000 03FF	TIMER1
SRAM		0x2000 4000 - 0x3FFF FFFF	Reserved
		0x2000 0000 - 0x2000 3FFF	SRAM
Code		0x1FFF FC00 - 0x1FFF FFFF	Reserved
		0x1FFF F800 - 0x1FFF FBFF	Option bytes
		0x1FFF EC00 - 0x1FFF F7FF	System memory
		0x0802 0000 - 0x1FFF EBFF	Reserved
		0x0800 0000 - 0x0801 FFFF	Main Flash memory
		0x0010 0000 - 0x07FF FFFF	Reserved
		0x0000 0000 - 0x000F FFFF	Aliased to Flash or system memory

GD32F330Rx LQFP64 pin definitions

Table 2-3. GD32F330Rx LQFP64 pin definitions

Pin Name

Pins

Pin

Type(1)

I/O

Level(2)

Functions description

VBAT

1

P

Default: VBAT

PC13- TAMPER-

RTC

2

I/O

Default: PC13

Additional: RTC_TAMP0, RTC_TS, RTC_OUT, WKUP1

PC14- OSC32IN

3

I/O

Default: PC14 Additional: OSC32IN

PC15-

OSC32OUT

4

I/O

Default: PC15 Additional: OSC32OUT

PF0-OSCIN

5

I/O

5VT

Default: PF0 Alternate: CTC_SYNC

Additional: OSCIN

PF1- OSCOUT

6

I/O

5VT

Default: PF1 Additional: OSCOUT

NRST

7

I/O

Default: NRST

PC0

8

I/O

Default: PC0

Alternate: EVENTOUT Additional: ADC_IN10

PC1

9

I/O

Default: PC1

Alternate: EVENTOUT Additional: ADC_IN11

PC2

10

I/O

Default: PC2 Alternate: EVENTOUT

Additional: ADC_IN12

PC3

11

I/O

Default: PC3

Alternate: EVENTOUT Additional: ADC_IN13

VSSA

12

P

Default: VSSA

VDDA

13

P

Default: VDDA

PA0-WKUP

14

I/O

Default: PA0

Alternate: USART1_CTS, TIMER1_CH0, TIMER1_ETI, I2C1_SCL

Additional: ADC_IN0, RTC_TAMP1, WKUP0

PA1

15

I/O

Default: PA1

Alternate: USART1_RTS, TIMER1_CH1, I2C1_SDA, EVENTOUT

Additional: ADC_IN1

PA2

16

I/O

Default: PA2

Alternate: USART1_TX, TIMER1_CH2, TIMER14_CH0

Pin Name	Pins	Pin Type(1)	I/O Level(2)	Functions description
				Additional: ADC_IN2
				Default: PA3
PA3	17	I/O		Alternate: USART1_RX, TIMER1_CH3, TIMER14_CH1
				Additional: ADC_IN3
PF4	18	I/O	5VT	Default: PF4 Alternate: EVENTOUT
PF5	19	I/O	5VT	Default: PF5 Alternate: EVENTOUT
				Default: PA4
PA4	20	I/O		Alternate: SPI0_NSS, USART1_CK, TIMER13_CH0, SPI1_NSS
				Additional: ADC_IN4
				Default: PA5
PA5	21	I/O		Alternate: SPI0_SCK, TIMER1_CH0, TIMER1_ETI
				Additional: ADC_IN5
				Default: PA6
PA6	22	I/O		Alternate: SPI0_MISO, TIMER2_CH0, TIMER0_BKIN, TIMER15_CH0, EVENTOUT
				Additional: ADC_IN6
				Default: PA7
PA7	23	I/O		Alternate: SPI0_MOSI, TIMER2_CH1, TIMER13_CH0, TIMER0_CH0_ON, TIMER16_CH0, EVENTOUT
				Additional: ADC_IN7
				Default: PC4
PC4	24	I/O		Alternate: EVENTOUT
				Additional: ADC_IN14
PC5	25	I/O		Default: PC5 Additional: ADC_IN15, WKUP4
				Default: PB0
PB0	26	I/O		Alternate: TIMER2_CH2, TIMER0_CH1_ON, USART1_RX(4), EVENTOUT
				Additional: ADC_IN8
				Default: PB1
PB1	27	I/O		Alternate: TIMER2_CH3, TIMER13_CH0, TIMER0_CH2_ON, SPI1_SCK
				Additional: ADC_IN9
PB2	28	I/O	5VT	Default: PB2
PB10	29	I/O	5VT	Default: PB10 Alternate: I2C1_SCL, TIMER1_CH2, SPI1_IO2
				Default: PB11
PB11	30	I/O	5VT	Alternate:I2C1_SDA, TIMER1_CH3, EVENTOUT,
				SPI1_IO3
VSS	31	P		Default: VSS
VDD	32	P		Default: VDD
PB12	33	I/O	5VT	Default: PB12

Pin Name	Pins	Pin Type(1)	I/O Level(2)	Functions description
				Alternate: SPI1_NSS, TIMER0_BKIN, I2C1_SMBA,
				EVENTOUT
PB13	34	I/O	5VT	Default: PB13 Alternate: SPI1_SCK, TIMER0_CH0_ON
				Default: PB14
PB14	35	I/O	5VT	Alternate: SPI1_MISO, TIMER0_CH1_ON,
				TIMER14_CH0
				Default: PB15
PB15	36	I/O	5VT	Alternate: SPI1_MOSI, TIMER0_CH2_ON, TIMER14_CH0_ON, TIMER14_CH1
				Additional: RTC_REFIN, WKUP6
PC6	37	I/O	5VT	Default: PC6 Alternate: TIMER2_CH0
PC7	38	I/O	5VT	Default: PC7 Alternate: TIMER2_CH1
PC8	39	I/O	5VT	Default: PC8 Alternate: TIMER2_CH2
PC9	40	I/O	5VT	Default: PC9 Alternate: TIMER2_CH3
				Default: PA8
PA8	41	I/O	5VT	Alternate: USART0_CK, TIMER0_CH0, CK_OUT,
				USART1_TX, EVENTOUT,CTC_SYNC
				Default: PA9
PA9	42	I/O	5VT	Alternate: USART0_TX, TIMER0_CH1, TIMER14_BKIN ,
				I2C0_SCL
				Default: PA10
PA10	43	I/O	5VT	Alternate: USART0_RX, TIMER0_CH2, TIMER16_BKIN,
				I2C0_SDA
				Default: PA11
PA11	44	I/O	5VT	Alternate: USART0_CTS, TIMER0_CH3, EVENTOUT,
				SPI1_IO2
				Default: PA12
PA12	45	I/O	5VT	Alternate: USART0_RTS, TIMER0_ETI, EVENTOUT,
				SPI1_IO3
PA13	46	I/O	5VT	Default: PA13 Alternate: IFRP_OUT, SWDIO, SPI1_MISO
PF6	47	I/O	5VT	Default: PF6 Alternate: I2C1_SCL
PF7	48	I/O	5VT	Default: PF7 Alternate: I2C1_SDA
PA14	49	I/O	5VT	Default: PA14 Alternate: USART1_TX, SWCLK, SPI1_MOSI
				Default: PA15
PA15	50	I/O	5VT	Alternate: SPI0_NSS , USART1_RX, TIMER1_CH0,
				TIMER1_ETI, SPI1_NSS, EVENTOUT

Pin Name

Pins

Pin

Type(1)

I/O

Level(2)

Functions description

PC10

51

I/O

5VT

Default: PC10

PC11

52

I/O

5VT

Default: PC11

PC12

53

I/O

5VT

Default: PC12

PD2

54

I/O

5VT

Default: PD2

Alternate: TIMER2_ETI

PB3

55

I/O

5VT

Default: PB3

Alternate: SPI0_SCK, TIMER1_CH1, EVENTOUT

PB4

56

I/O

5VT

Default: PB4

Alternate: SPI0_MISO, TIMER2_CH0, EVENTOUT

PB5

57

I/O

5VT

Default: PB5

Alternate: SPI0_MOSI, I2C0_SMBA, TIMER15_BKIN, TIMER2_CH1

Additional:WKUP5

PB6

58

I/O

5VT

Default: PB6

Alternate: I2C0_SCL, USART0_TX, TIMER15_CH0_ON

PB7

59

I/O

5VT

Default: PB7

Alternate: I2C0_SDA, USART0_RX, TIMER16_CH0_ON

BOOT0

60

I

Default: BOOT0

PB8

61

I/O

5VT

Default: PB8

Alternate: I2C0_SCL, TIMER15_CH0

PB9

62

I/O

5VT

Default: PB9

Alternate: I2C0_SDA, IFRP_OUT,TIMER16_CH0,

EVENTOUT

VSS

63

P

Default: VSS

VDD

64

P

Default: VDD

Notes:
(1)Type: I = input, O = output, P = power.
(2)I/O Level: 5VT = 5 V tolerant.
(3)Functions are available on GD32F330C4 devices only.
(4)Functions are available on GD32F330CB/8/6 devices.
(5)Functions are available on GD32F330CB/8 devices.

GD32F330Cx LQFP48 pin definitions

Table 2-4. GD32F330Cx LQFP48 pin definitions

Pin Name

Pins

Pin

Type(1)

I/O

Level(2)

Functions description

VBAT

1

P

Default: VBAT

PC13-

TAMPER- RTC

2

I/O

Default: PC13

Additional: RTC_TAMP0, RTC_TS, RTC_OUT, WKUP1

PC14- OSC32IN

3

I/O

Default: PC14 Additional: OSC32IN

Pin Name	Pins	Pin Type(1)	I/O Level(2)	Functions description
PC15- OSC32OUT	4	I/O		Default: PC15 Additional: OSC32OUT
				Default: PF0
PF0-OSCIN	5	I/O	5VT	Alternate: CTC_SYNC
				Additional: OSCIN
PF1- OSCOUT	6	I/O	5VT	Default: PF1 Additional: OSCOUT
NRST	7	I/O		Default: NRST
VSSA	8	P		Default: VSSA
VDDA	9	P		Default: VDDA
				Default: PA0
PA0-WKUP	10	I/O		Alternate: USART0_CTS(3), USART1_CTS(4), TIMER1_CH0, TIMER1_ETI, I2C1_SCL(5)
				Additional: ADC_IN0, RTC_TAMP1, WKUP0
				Default: PA1
PA1	11	I/O		Alternate: USART0_RTS(3), USART1_RTS(4), TIMER1_CH1, I2C1_SDA(5), EVENTOUT
				Additional: ADC_IN1
				Default: PA2
PA2	12	I/O		Alternate: USART0_TX(3), USART1_TX(4), TIMER1_CH2, TIMER14_CH0
				Additional: ADC_IN2
				Default: PA3
PA3	13	I/O		Alternate: USART0_RX(3), USART1_RX(4), TIMER1_CH3, TIMER14_CH1
				Additional: ADC_IN3
				Default: PA4
PA4	14	I/O		Alternate: SPI0_NSS, USART0_CK(3), USART1_CK(4), TIMER13_CH0, SPI1_NSS(5)
				Additional: ADC_IN4
				Default: PA5
PA5	15	I/O		Alternate: SPI0_SCK, TIMER1_CH0, TIMER1_ETI
				Additional: ADC_IN5
				Default: PA6
PA6	16	I/O		Alternate: SPI0_MISO, TIMER2_CH0, TIMER0_BKIN, TIMER15_CH0, EVENTOUT
				Additional: ADC_IN6
				Default: PA7
PA7	17	I/O		Alternate: SPI0_MOSI, TIMER2_CH1, TIMER13_CH0, TIMER0_CH0_ON, TIMER16_CH0, EVENTOUT
				Additional: ADC_IN7
				Default: PB0
PB0	18	I/O		Alternate: TIMER2_CH2, TIMER0_CH1_ON, USART1_RX(4), EVENTOUT
				Additional: ADC_IN8

Pin Name	Pins	Pin Type(1)	I/O Level(2)	Functions description
				Default: PB1
PB1	19	I/O		Alternate: TIMER2_CH3, TIMER13_CH0, TIMER0_CH2_ON, SPI1_SCK(5)
				Additional: ADC_IN9
PB2	20	I/O	5VT	Default: PB2
				Default: PB10
PB10	21	I/O	5VT	Alternate: I2C0_SCL(3),I2C1_SCL(5), TIMER1_CH2,
				SPI1_IO2(5)
				Default: PB11
PB11	22	I/O	5VT	Alternate: I2C0_SDA(3),I2C1_SDA(5), TIMER1_CH3,
				EVENTOUT, SPI1_IO3(5)
VSS	23	P		Default: VSS
VDD	24	P		Default: VDD
				Default: PB12
PB12	25	I/O	5VT	Alternate: SPI0_NSS(3), SPI1_NSS(5), TIMER0_BKIN,
				I2C1_SMBA(5), EVENTOUT
PB13	26	I/O	5VT	Default: PB13 Alternate: SPI0_SCK(3), SPI1_SCK(5), TIMER0_CH0_ON
				Default: PB14
PB14	27	I/O	5VT	Alternate: SPI0_MISO(3), SPI1_MISO(5),
				TIMER0_CH1_ON, TIMER14_CH0
				Default: PB15
PB15	28	I/O	5VT	Alternate: SPI0_MOSI(3), SPI1_MOSI(5), TIMER0_CH2_ON, TIMER14_CH0_ON, TIMER14_CH1
				Additional: RTC_REFIN, WKUP6
				Default: PA8
PA8	29	I/O	5VT	Alternate: USART0_CK, TIMER0_CH0, CK_OUT,
				USART1_TX(4), EVENTOUT,CTC_SYNC
				Default: PA9
PA9	30	I/O	5VT	Alternate: USART0_TX, TIMER0_CH1, TIMER14_BKIN ,
				I2C0_SCL
				Default: PA10
PA10	31	I/O	5VT	Alternate: USART0_RX, TIMER0_CH2, TIMER16_BKIN,
				I2C0_SDA
				Default: PA11
PA11	32	I/O	5VT	Alternate: USART0_CTS, TIMER0_CH3, EVENTOUT,
				SPI1_IO2(5)
				Default: PA12
PA12	33	I/O	5VT	Alternate: USART0_RTS, TIMER0_ETI, EVENTOUT,
				SPI1_IO3(5)
PA13	34	I/O	5VT	Default: PA13 Alternate: IFRP_OUT, SWDIO, SPI1_MISO(5)
PF6	35	I/O	5VT	Default: PF6 Alternate: I2C0_SCL(3), I2C1_SCL(5)

Pin Name	Pins	Pin Type(1)	I/O Level(2)	Functions description
PF7	36	I/O	5VT	Default: PF7 Alternate: I2C0_SDA(3), I2C1_SDA(5)
PA14	37	I/O	5VT	Default: PA14 Alternate: USART0_TX(3), USART1_TX(4), SWCLK, SPI1_MOSI(5)
PA15	38	I/O	5VT	Default: PA15 Alternate: SPI0_NSS , USART0_RX(3), USART1_RX(4), TIMER1_CH0, TIMER1_ETI, SPI1_NSS(5), EVENTOUT
PB3	39	I/O	5VT	Default: PB3 Alternate: SPI0_SCK, TIMER1_CH1, EVENTOUT
PB4	40	I/O	5VT	Default: PB4 Alternate: SPI0_MISO, TIMER2_CH0, EVENTOUT
PB5	41	I/O	5VT	Default: PB5 Alternate: SPI0_MOSI, I2C0_SMBA, TIMER15_BKIN, TIMER2_CH1 Additional:WKUP5
PB6	42	I/O	5VT	Default: PB6 Alternate: I2C0_SCL, USART0_TX, TIMER15_CH0_ON
PB7	43	I/O	5VT	Default: PB7 Alternate: I2C0_SDA, USART0_RX, TIMER16_CH0_ON
BOOT0	44	I		Default: BOOT0
PB8	45	I/O	5VT	Default: PB8 Alternate: I2C0_SCL, TIMER15_CH0
PB9	46	I/O	5VT	Default: PB9 Alternate: I2C0_SDA, IFRP_OUT,TIMER16_CH0, EVENTOUT
VSS	47	P		Default: VSS
VDD	48	P		Default: VDD

Notes:
(1)Type: I = input, O = output, P = power.
(2)I/O Level: 5VT = 5 V tolerant.
(3)Functions are available on GD32F330C4 devices only.
(4)Functions are available on GD32F330CB/8/6 devices.
(5)Functions are available on GD32F330CB/8 devices.

GD32F330Kx QFN32 pin definitions

Table 2-5. GD32F330Kx QFP32 pin definitions

Pin Name

Pins

Pin

Type(1)

I/O

Level(2)

Functions description

PF0-OSCIN

2

I/O

5VT

Default: PF0

Alternate: CTC_SYNC Additional: OSCIN

Pin Name	Pins	Pin Type(1)	I/O Level(2)	Functions description
PF1- OSCOUT	3	I/O	5VT	Default: PF1 Additional: OSCOUT
NRST	4	I/O		Default: NRST
VDDA	5	P		Default: VDDA
				Default: PA0
PA0-WKUP	6	I/O		Alternate: USART0_CTS(3), USART1_CTS(4), TIMER1_CH0, TIMER1_ETI, I2C1_SCL(5)
				Additional: ADC_IN0, RTC_TAMP1, WKUP0
				Default: PA1
PA1	7	I/O		Alternate: USART0_RTS(3), USART1_RTS(4), TIMER1_CH1, I2C1_SDA(5), EVENTOUT
				Additional: ADC_IN1
				Default: PA2
PA2	8	I/O		Alternate: USART0_TX(3), USART1_TX(4), TIMER1_CH2, TIMER14_CH0
				Additional: ADC_IN2
				Default: PA3
PA3	9	I/O		Alternate: USART0_RX(3), USART1_RX(4), TIMER1_CH3, TIMER14_CH1
				Additional: ADC_IN3
				Default: PA4
PA4	10	I/O		Alternate: SPI0_NSS, USART0_CK(3), USART1_CK(4), TIMER13_CH0, SPI1_NSS⁽⁵⁾
				Additional: ADC_IN4
				Default: PA5
PA5	11	I/O		Alternate: SPI0_SCK, TIMER1_CH0, TIMER1_ETI
				Additional: ADC_IN5
				Default: PA6
PA6	12	I/O		Alternate: SPI0_MISO, TIMER2_CH0, TIMER0_BKIN, TIMER15_CH0, EVENTOUT
				Additional: ADC_IN6
				Default: PA7
PA7	13	I/O		Alternate: SPI0_MOSI, TIMER2_CH1, TIMER13_CH0, TIMER0_CH0_ON, TIMER16_CH0, EVENTOUT
				Additional: ADC_IN7
				Default: PB0
PB0	14	I/O		Alternate: TIMER2_CH2, TIMER0_CH1_ON, USART1_RX(4), EVENTOUT
				Additional: ADC_IN8
				Default: PB1
PB1	15	I/O		Alternate: TIMER2_CH3, TIMER13_CH0, TIMER0_CH2_ON, SPI1_SCK(5)
				Additional: ADC_IN9
PB2	16	I/O	5VT	Default: PB2
VDD	17	P		Default: VDD

Pin Name

Pins

Pin

Type(1)

I/O

Level(2)

Functions description

PA8

18

I/O

5VT

Default: PA8

Alternate: USART0_CK, TIMER0_CH0, CK_OUT, USART1_TX(4), EVENTOUT,CTC_SYNC

PA9

19

I/O

5VT

Default: PA9

Alternate: USART0_TX, TIMER0_CH1, TIMER14_BKIN , I2C0_SCL

PA10

20

I/O

5VT

Default: PA10

Alternate: USART0_RX, TIMER0_CH2, TIMER16_BKIN,

I2C0_SDA

PA11

21

I/O

5VT

Default: PA11

Alternate: USART0_CTS, TIMER0_CH3, EVENTOUT, SPI1_IO2(5)

PA12

22

I/O

5VT

Default: PA12

Alternate: USART0_RTS, TIMER0_ETI, EVENTOUT, SPI1_IO3(5)

PA13

23

I/O

5VT

Default: PA13

Alternate: IFRP_OUT, SWDIO, SPI1_MISO(5)

PA14

24

I/O

5VT

Default: PA14

Alternate: USART0_TX(3), USART1_TX(4), SWCLK, SPI1_MOSI(5)

PA15

25

I/O

5VT

Default: PA15

Alternate: SPI0_NSS , USART0_RX(3), USART1_RX(4), TIMER1_CH0, TIMER1_ETI, SPI1_NSS⁽⁵⁾, EVENTOUT

PB3

26

I/O

5VT

Default: PB3

Alternate: SPI0_SCK, TIMER1_CH1, EVENTOUT

PB4

27

I/O

5VT

Default: PB4

Alternate: SPI0_MISO, TIMER2_CH0, EVENTOUT

PB5

28

I/O

5VT

Default: PB5

Alternate: SPI0_MOSI, I2C0_SMBA, TIMER15_BKIN, TIMER2_CH1

Additional:WKUP5

PB6

29

I/O

5VT

Default: PB6

Alternate: I2C0_SCL, USART0_TX, TIMER15_CH0_ON

PB7

30

I/O

5VT

Default: PB7

Alternate: I2C0_SDA, USART0_RX, TIMER16_CH0_ON

BOOT0

31

I

Default: BOOT0

PB8

32

I/O

5VT

Default: PB8

Alternate: I2C0_SCL, TIMER15_CH0

VDD

1

P

Default: VDD

Notes:
(1)Type: I = input, O = output, P = power.
(2)I/O Level: 5VT = 5 V tolerant.
(3)Functions are available on GD32F330K4 devices only.
(4)Functions are available on GD32F330KB/8/6 devices.

(5)Functions are available on GD32F330KB/8 devices.

GD32F330Gx QFN28 pin definitions

Table 2-6. GD32F330Gx QFN28 pin definitions

Pin Name

Pins

Pin

Type(1)

I/O

Level(2)

Functions description

PF0-OSCIN

2

I/O

5VT

Default: PF0 Alternate: CTC_SYNC

Additional: OSCIN

PF1- OSCOUT

3

I/O

5VT

Default: PF1 Additional: OSCOUT

NRST

4

I/O

Default: NRST

VDDA

5

P

Default: VDDA

PA0-WKUP

6

I/O

Default: PA0

Alternate: USART0_CTS(3), USART1_CTS(4), TIMER1_CH0, TIMER1_ETI, I2C1_SCL(5)

Additional: ADC_IN0, RTC_TAMP1, WKUP0

PA1

7

I/O

Default: PA1

Alternate: USART0_RTS(3), USART1_RTS(4), TIMER1_CH1, I2C1_SDA(5), EVENTOUT

Additional: ADC_IN1

PA2

8

I/O

Default: PA2

Alternate: USART0_TX(3), USART1_TX(4), TIMER1_CH2, TIMER14_CH0

Additional: ADC_IN2

PA3

9

I/O

Default: PA3

Alternate: USART0_RX(3), USART1_RX(4), TIMER1_CH3, TIMER14_CH1

Additional: ADC_IN3

PA4

10

I/O

Default: PA4

Alternate: SPI0_NSS, USART0_CK(3), USART1_CK(4), TIMER13_CH0, SPI1_NSS(5)

Additional: ADC_IN4

PA5

11

I/O

Default: PA5

Alternate: SPI0_SCK, TIMER1_CH0, TIMER1_ETI

Additional: ADC_IN5

PA6

12

I/O

Default: PA6

Alternate: SPI0_MISO, TIMER2_CH0, TIMER0_BKIN, TIMER15_CH0, EVENTOUT

Additional: ADC_IN6

PA7

13

I/O

Default: PA7

Alternate: SPI0_MOSI, TIMER2_CH1, TIMER13_CH0, TIMER0_CH0_ON, TIMER16_CH0, EVENTOUT

Additional: ADC_IN7

PB0

14

I/O

Default: PB0

Alternate: TIMER2_CH2, TIMER0_CH1_ON,

Pin Name	Pins	Pin Type(1)	I/O Level(2)	Functions description
				USART1_RX, EVENTOUT
				Additional: ADC_IN8
				Default: PB1
PB1	15	I/O		Alternate: TIMER2_CH3, TIMER13_CH0, TIMER0_CH2_ON, SPI1_SCK(5)
				Additional: ADC_IN9
VSS	16	P		Default: VSS
VDD	17	P		Default: VDD
				Default: PA8
PA8	18	I/O	5VT	Alternate: USART0_CK, TIMER0_CH0, CK_OUT,
				USART1_TX, EVENTOUT,CTC_SYNC
				Default: PA9
PA9	19	I/O	5VT	Alternate: USART0_TX, TIMER0_CH1, TIMER14_BKIN ,
				I2C0_SCL
				Default: PA10
PA10	20	I/O	5VT	Alternate: USART0_RX, TIMER0_CH2, TIMER16_BKIN,
				I2C0_SDA
PA13	21	I/O	5VT	Default: PA13 Alternate: IFRP_OUT, SWDIO, SPI1_MISO(5)
				Default: PA14
PA14	22	I/O	5VT	Alternate: USART0_TX(3), USART1_TX(4), SWCLK,
				SPI1_MOSI(5)
				Default: PA15
PA15	23	I/O	5VT	Alternate: SPI0_NSS , USART0_RX(3), USART1_RX(4),
				TIMER1_CH0, TIMER1_ETI, SPI1_NSS(5), EVENTOUT
PB3	24	I/O	5VT	Default: PB3 Alternate: SPI0_SCK, TIMER1_CH1, EVENTOUT
PB4	25	I/O	5VT	Default: PB4 Alternate: SPI0_MISO, TIMER2_CH0, EVENTOUT
				Default: PB5
PB5	26	I/O	5VT	Alternate: SPI0_MOSI, I2C0_SMBA, TIMER15_BKIN, TIMER2_CH1
				Additional:WKUP5
PB6	27	I/O	5VT	Default: PB6 Alternate: I2C0_SCL, USART0_TX, TIMER15_CH0_ON
PB7	28	I/O	5VT	Default: PB7 Alternate: I2C0_SDA, USART0_RX, TIMER16_CH0_ON
BOOT0	1	I		Default: BOOT0

Notes:
(1)Type: I = input, O = output, P = power.
(2)I/O Level: 5VT = 5 V tolerant.
(3)Functions are available on GD32F330G4 devices only.
(4)Functions are available on GD32F330GB/8/6 devices.
(5)Functions are available on GD32F330GB/8 devices.

GD32F330Fx TSSOP20 pin definitions

Table 2-7. GD32F330Fx TSSOP20 pin definitions

Pin Name

Pins

Pin

Type(1)

I/O

Level(2)

Functions description

PF0-OSCIN

2

I/O

5VT

Default: PF0

Alternate: CTC_SYNC Additional: OSCIN

PF1- OSCOUT

3

I/O

5VT

Default: PF1 Additional: OSCOUT

NRST

4

I/O

Default: NRST

VDDA

5

P

Default: VDDA

PA0-WKUP

6

I/O

Default: PA0

Alternate: USART0_CTS(3), USART1_CTS(4), TIMER1_CH0, TIMER1_ETI, I2C1_SCL(5)

Additional: ADC_IN0, RTC_TAMP1, WKUP0

PA1

7

I/O

Default: PA1

Alternate: USART0_RTS(3), USART1_RTS(4), TIMER1_CH1, I2C1_SDA(5), EVENTOUT

Additional: ADC_IN1

PA2

8

I/O

Default: PA2

Alternate: USART0_TX(3), USART1_TX(4), TIMER1_CH2, TIMER14_CH0

Additional: ADC_IN2

PA3

9

I/O

Default: PA3

Alternate: USART0_RX(3), USART1_RX(4), TIMER1_CH3, TIMER14_CH1

Additional: ADC_IN3

PA4

10

I/O

Default: PA4

Alternate: SPI0_NSS, USART0_CK(3), USART1_CK(4), TIMER13_CH0, SPI1_NSS(5)

Additional: ADC_IN4

PA5

11

I/O

Default: PA5

Alternate: SPI0_SCK, TIMER1_CH0, TIMER1_ETI

Additional: ADC_IN5

PA6

12

I/O

Default: PA6

Alternate: SPI0_MISO, TIMER2_CH0, TIMER0_BKIN, TIMER15_CH0, EVENTOUT

Additional: ADC_IN6

PA7

13

I/O

Default: PA7

Alternate: SPI0_MOSI, TIMER2_CH1, TIMER13_CH0, TIMER0_CH0_ON, TIMER16_CH0, EVENTOUT

Additional: ADC_IN7

PB1

14

I/O

Default: PB1

Alternate: TIMER2_CH3, TIMER13_CH0, TIMER0_CH2_ON, SPI1_SCK(5)

Additional: ADC_IN9

Pin Name

Pins

Pin

Type(1)

I/O

Level(2)

Functions description

VSS

15

P

Default: VSS

VDD

16

P

Default: VDD

PA9

17

I/O

5VT

Default: PA9

Alternate: USART0_TX, TIMER0_CH1, TIMER14_BKIN , I2C0_SCL

PA10

18

I/O

5VT

Default: PA10

Alternate: USART0_RX, TIMER0_CH2, TIMER16_BKIN,

I2C0_SDA

PA13

19

I/O

5VT

Default: PA13

Alternate: IFRP_OUT, SWDIO, SPI1_MISO(5)

PA14

20

I/O

5VT

Default: PA14

Alternate: USART0_TX(3), USART1_TX(4), SWCLK, SPI1_MOSI(5)

BOOT0

1

I

Default: BOOT0

Notes:
(1)Type: I = input, O = output, P = power.
(2)I/O Level: 5VT = 5 V tolerant.
(3)Functions are available on GD32F330F4 devices only.
(4)Functions are available on GD32F330FB/8/6 devices.
(5)Functions are available on GD32F330FB/8 devices.

ARM® Cortex®-M4 core

The ARM® Cortex®-M4 processor is a high performance embedded processor with DSP instructions which allow efficient signal processing and complex algorithm execution. It brings an efficient, easy-to-use blend of control and signal processing capabilities to meet the digital signal control markets demand. The processor is highly configurable enabling a wide range of implementations from those requiring memory protection and powerful trace technology to cost sensitive devices requiring minimal area, while delivering outstanding computational performance and an advanced system response to interrupts.
32-bit ARM® Cortex®-M4 processor core
Up to 84 MHz operation frequency
Single-cycle multiplication and hardware divider
Integrated DSP instructions
Integrated Nested Vectored Interrupt Controller (NVIC)
24-bit SysTick timer

The Cortex®-M4 processor is based on the ARMv7-M architecture and supports both Thumb and Thumb-2 instruction sets. Some system peripherals listed below are also provided by Cortex®-M4:
Internal Bus Matrix connected with ICode bus, DCode bus, system bus, Private Peripheral Bus (PPB) and debug accesses (AHB-AP)
Nested Vectored Interrupt Controller (NVIC)
Flash Patch and Breakpoint (FPB)
Data Watchpoint and Trace (DWT)
Instrument Trace Macrocell (ITM)
Serial Wire JTAG Debug Port (SWJ-DP)
Trace Port Interface Unit (TPIU)

On-chip memory

Up to 128 Kbytes of Flash memory
Up to 16 Kbytes of SRAM with hardware parity checking

The ARM® Cortex®-M4 processor is structured in Harvard architecture which can use separate buses to fetch instructions and load/store data. 128 Kbytes of inner Flash and 16 Kbytes of inner SRAM at most is available for storing programs and data, both accessed (R/W) at CPU clock speed with zero wait states. Table 2-2. GD32F330xx memory map shows the memory map of the GD32F330xx series of devices, including code, SRAM, peripheral, and other pre-defined regions.

Clock, reset and supply management

Internal 8 MHz factory-trimmed RC and external 4 to 32 MHz crystal oscillator
Internal 48 MHz RC oscillator
Internal 28 MHz RC oscillator
Internal 40 KHz RC calibrated oscillator and external 32.768 KHz crystal oscillator
Integrated system clock PLL
2.6 to 3.6 V application supply and I/Os
Supply Supervisor: POR (Power On Reset), PDR (Power Down Reset), and low voltage detector (LVD)
The Clock Control Unit (CCU) provides a range of oscillator and clock functions. These include speed internal RC oscillator and external crystal oscillator, high speed and low speed two types. Several prescalers allow the frequency configuration of the AHB and two APB domains. The maximum frequency of the AHB, APB2 and APB1 domains is 84 MHz/42 MHz/42 MHz. See Figure 2-7. GD32F330xx clock tree for details on the clock tree.
The Reset Control Unit (RCU) controls three kinds of reset: system reset resets the processor core and peripheral IP components. Power-on reset (POR) and power-down reset (PDR) are always active, and ensures proper operation starting from 2.6 V and down to 1.8V. The device remains in reset mode when VDD is below a specified threshold. The embedded low voltage detector (LVD) monitors the power supply, compares it to the voltage threshold and generates an interrupt as a warning message for leading the MCU into security.
Power supply schemes:
VDD range: 2.6 to 3.6 V, external power supply for I/Os and the internal regulator. Provided externally through VDD pins.
VSSA, VDDA range: 2.6 to 3.6 V, external analog power supplies for ADC, reset blocks, RCs and PLL.
VBAT range: 1.8 to 3.6 V, power supply for RTC, external clock 32 KHz oscillator and backup registers (through power switch) when VDD is not present.

Boot modes

At startup, boot pins are used to select one of three boot options:
Boot from main Flash memory (default)
Boot from system memory
Boot from on-chip SRAM

In default condition, boot from main Flash memory is selected. The boot loader is located in the internal boot ROM memory (system memory). It is used to reprogram the Flash memory by using USART0 (PA9 and PA10) or USART1 (PA14 and PA15).

Power saving modes

The MCU supports three kinds of power saving modes to achieve even lower power consumption. They are sleep mode, deep-sleep mode, and standby mode. These operating modes reduce the power consumption and allow the application to achieve the best balance between the CPU operating time, speed and power consumption.
Sleep mode
In sleep mode, only the clock of CPU core is off. All peripherals continue to operate and any interrupt/event can wake up the system.
Deep-sleep mode
In deep-sleep mode, all clocks in the 1.2V domain are off, and all of the high speed crystal oscillator (IRC8M, HXTAL) and PLL are disabled. Only the contents of SRAM and registers are retained. Any interrupt or wakeup event from EXTI lines can wake up the system from the deep-sleep mode including the 16 external lines, the RTC alarm, RTC tamper and timestamp, LVD output and USART wakeup. When exiting the deep-sleep mode, the IRC8M is selected as the system clock.
Standby mode
In standby mode, the whole 1.2V domain is power off, the LDO is shut down, and all of IRC8M, HXTAL and PLL are disabled. The contents of SRAM and registers (except backup registers) are lost. There are four wakeup sources for the standby mode, including the external reset from NRST pin, the RTC alarm, the FWDGT reset, and the rising edge on WKUP pin.

Analog to digital converter (ADC)

12-bit SAR ADC's conversion rate is up to 2.86 MSPS
12-bit, 10-bit, 8-bit or 6-bit configurable resolution
Hardware oversampling ratio adjustable from 2 to 256x improves resolution to 16-bit
Input voltage range: VSSA to VDDA (2.6 to 3.6 V)
Temperature sensor

One 12-bit 2.86 MSPS multi-channel ADCs are integrated in the device. It has a total of 19 multiplexed channels: 16 external channels, 1 channel for internal temperature sensor (VSENSE), 1 channel for internal reference voltage (VREFINT) and 1 channel for battery voltage (VBAT). The input voltage range is between VSSA and VDDA. An on-chip hardware oversampling scheme improves performance while off-loading the related computational burden from the CPU. An analog watchdog block can be used to detect the channels, which are required to remain within a specific threshold window. A configurable channel management block can be used to perform conversions in single, continuous, scan or discontinuous mode to support more advanced use.
The ADC can be triggered from the events generated by the general level 0 timers (TIMERx,x=1,2) and the advanced timer (TIMER0) with internal connection. The temperature

sensor can be used to generate a voltage that varies linearly with temperature. It is internally connected to the ADC_IN16 input channel which is used to convert the sensor output voltage in a digital value.

DMA

7 channel DMA controller
Peripherals supported: Timers, ADC, SPIs, I2Cs, USARTs

The flexible general-purpose DMA controllers provide a hardware method of transferring data between peripherals and/or memory without intervention from the CPU, thereby freeing up bandwidth for other system functions. Three types of access method are supported: peripheral to memory, memory to peripheral, memory to memory.
Each channel is connected to fixed hardware DMA requests. The priorities of DMA channel requests are determined by software configuration and hardware channel number. Transfer size of source and destination are independent and configurable.

General-purpose inputs/outputs (GPIOs)

Up to 55 fast GPIOs, all mappable on 16 external interrupt lines
Analog input/output configurable
Alternate function input/output configurable

There are up to 55 general purpose I/O pins (GPIO) in GD32F330xx, named PA0 ~ PA15 and PB0 ~ PB15, PC0 ~ PC15, PD2, PF0, PF1, PF4-PF7 to implement logic input/output functions. Each of the GPIO ports has related control and configuration registers to satisfy the requirements of specific applications. The external interrupts on the GPIO pins of the device have related control and configuration registers in the Interrupt/event controller (EXTI). The GPIO ports are pin-shared with other alternative functions (AFs) to obtain maximum flexibility on the package pins. Each of the GPIO pins can be configured by software as output (push- pull, open-drain or analog), as input (with or without pull-up or pull-down) or as peripheral alternate function. Most of the GPIO pins are shared with digital or analog alternate functions. All GPIOs are high-current capable except for analog inputs.

Timers and PWM generation

One 16-bit advanced timer (TIMER0), one 32-bit general timer (TIMER1) and five 16-bit general timers (TIMER2, TIMER13 ~ TIMER16)
Up to 4 independent channels of PWM, output compare or input capture for each general timer and external trigger input
16-bit, motor control PWM advanced timer with programmable dead-time generation for output match

Encoder interface controller with two inputs using quadrature decoder
24-bit SysTick timer down counter
2 watchdog timers (Free watchdog timer and window watchdog timer)

The advanced timer (TIMER0) can be used as a three-phase PWM multiplexed on 6 channels. It has complementary PWM outputs with programmable dead-time generation. It can also be used as a complete general timer. The 4 independent channels can be used for input capture, output compare, PWM generation (edge- or center- aligned counting modes) and single pulse mode output. If configured as a general 16-bit timer, it has the same functions as the TIMERx timer. It can be synchronized with external signals or to interconnect with other general timers together which have the same architecture and features.
The general timer can be used for a variety of purposes including general time, input signal pulse width measurement or output waveform generation such as a single pulse generation or PWM output, up to 4 independent channels for input capture/output compare. TIMER1 is based on a 32-bit auto-reload up/downcounter and a 16-bit prescaler. TIMER2 is based on a 16-bit auto-reload up/downcounter and a 16-bit prescaler. TIMER13 ~ TIMER16 is based on a 16-bit auto-reload upcounter and a 16-bit prescaler. The general timer also supports an encoder interface with two inputs using quadrature decoder.
The GD32F330xx have two watchdog peripherals, free watchdog and window watchdog. They offer a combination of high safety level, flexibility of use and timing accuracy.
The free watchdog timer includes a 12-bit down-counting counter and an 8-bit prescaler. It is clocked from an independent 40 KHz internal RC and as it operates independently of the main clock, it can operate in deep-sleep and standby modes. It can be used either as a watchdog to reset the device when a problem occurs, or as a free-running timer for application timeout management.
The window watchdog is based on a 7-bit down counter that can be set as free-running. It can be used as a watchdog to reset the device when a problem occurs. It is clocked from the main clock. It has an early wakeup interrupt capability and the counter can be frozen in debug mode.
The SysTick timer is dedicated for OS, but could also be used as a standard down counter. The features are shown below:
A 24-bit down counter
Auto reload capability
Maskable system interrupt generation when the counter reaches 0
Programmable clock source

Real time clock (RTC)

Independent binary-coded decimal (BCD) format timer/counter with five 32-bit backup registers.
Calendar with subsecond, seconds, minutes, hours, week day, date, year and month

automatically correction
Alarm function with wake up from deep-sleep and standby mode capability
On-the-fly correction for synchronization with master clock. Digital calibration with 0.954 ppm resolution for compensation of quartz crystal inaccuracy.
The real time clock is an independent timer which provides a set of continuously running counters in backup registers to provide a real calendar function, and provides an alarm interrupt or an expected interrupt. It is not reset by a system or power reset, or when the device wakes up from standby mode. In the RTC unit, there are two prescalers used for implementing the calendar and other functions. One prescaler is a 7-bit asynchronous prescaler and the other is a 15-bit synchronous prescaler.

Inter-integrated circuit (I2C)

Up to two I2C bus interfaces can support both master and slave mode with a frequency up to 1 MHz (Fast mode plus)
Provide arbitration function, optional PEC (packet error checking) generation and checking
Supports 7-bit and 10-bit addressing mode and general call addressing mode

The I2C interface is an internal circuit allowing communication with an external I2C interface which is an industry standard two line serial interface used for connection to external hardware. These two serial lines are known as a serial data line (SDA) and a serial clock line (SCL). The I2C module provides different data transfer rates: up to 100 KHz in standard mode, up to 400 KHz in the fast mode and up to 1 MHz in the fast mode plus. The I2C module also has an arbitration detect function to prevent the situation where more than one master attempts to transmit data to the I2C bus at the same time. A CRC-8 calculator is also provided in I2C interface to perform packet error checking for I2C data.

Serial peripheral interface (SPI)

Up to two SPI interfaces with a frequency of up to 21 MHz
Support both master and slave mode
Hardware CRC calculation and transmit automatic CRC error checking

The SPI interface uses 4 pins, among which are the serial data input and output lines (MISO & MOSI), the clock line (SCK) and the slave select line (NSS). Both SPIs can be served by the DMA controller. The SPI interface may be used for a variety of purposes, including simplex synchronous transfers on two lines with a possible bidirectional data line or reliable communication using CRC checking.

Universal synchronous asynchronous receiver transmitter (USART)
Up to two USARTs with operating frequency up to 5.25 MB/s
Supports both asynchronous and clocked synchronous serial communication modes
IrDA SIR encoder and decoder support
LIN break generation and detection
ISO 7816-3 compliant smart card interface

The USART (USART0, USART1) are used to translate data between parallel and serial interfaces, provides a flexible full duplex data exchange using synchronous or asynchronous transfer. It is also commonly used for RS-232 standard communication. The USART includes a programmable baud rate generator which is capable of dividing the system clock to produce a dedicated clock for the USART transmitter and receiver. The USART also supports DMA function for high speed data communication.

Debug mode

Serial wire JTAG debug port (SWJ-DP)

The ARM® SWJ-DP Interface is embedded and is a combined JTAG and serial wire debug port that enables either a serial wire debug or a JTAG probe to be connected to the target.

Package and operation temperature

LQFP64 (GD32F330Rx), LQFP48 (GD32F330Cx), QFN32 (GD32F330Kx), QFN28 (GD32F330Gx) and TSSOP20 (GD32F330Fx)
Operation temperature range: -40°C to +85°C (industrial level)
Operation temperature range: -20°C to +85°C (commercial level)

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