EFM32GG11B820F2048GL192

The EFM32GG11B820F2048GL192 is an electronic component. View the full EFM32GG11B820F2048GL192 datasheet below including electrical characteristics, absolute maximum ratings.

Overview

Part: EFM32GG11 Family — Silicon Labs Type: ARM Cortex-M4 Microcontroller Description: The EFM32 Giant Gecko Series 1 MCUs are energy-friendly microcontrollers featuring a 32-bit ARM Cortex-M4 CPU at up to 72 MHz, up to 2048 kB Flash, up to 512 kB RAM, and robust security with a cryptographic hardware engine.

Operating Conditions:

Supply voltage: 1.8 V to 3.8 V
Operating temperature: -40 to +125 °C (Extended grade)
Max CPU frequency: 72 MHz

Absolute Maximum Ratings:

Key Specs:

CPU: ARM Cortex-M4 with DSP and FPU
Max CPU frequency: 72 MHz
Flash memory: Up to 2048 kB (dual-bank with read-while-write)
RAM data memory: Up to 512 kB (256 kB with ECC)
Active Mode current (EM0): 80 μA/MHz
Deep Sleep current (EM2): 2.1 μA (16 kB RAM retention and RTCC running)
GPIO pins: Up to 144 (5 V tolerant on select pins)
ADC: 2x 12-bit 1 Msamples/s

Features:

Integrated DC-DC buck converter
Octal/Quad-SPI memory interface with XIP
SD/MMC/SDIO Host Controller
10/100 Ethernet MAC with 802.3az EEE, IEEE1588
Dual CAN 2.0 Bus Controller
Low-energy USB with Device and Host support
Hardware cryptographic engine (AES, ECC, SHA, TRNG)
Robust capacitive touch sense (up to 64 inputs)
Integrated Low-energy LCD Controller (up to 8x36 segments)
Backup Power Domain with RTCC and retention registers

Applications:

Smart energy meters
Industrial and factory automation
Home automation and security
Mid- and high-tier wearables
IoT devices

Package:

QFN64 (9x9 mm)
TQFP64 (10x10 mm)
TQFP100 (14x14 mm)
BGA112 (10x10 mm)
BGA120 (7x7 mm)
BGA152 (8x8 mm)
BGA192 (7x7mm)

Applications

Smart energy meters
Industrial and factory automation
Home automation and security
ARM Cortex-M4 at 72 MHz
Ultra low energy operation
80 μA/MHz in Energy Mode 0 (EM0)
2.1 μA EM2 Deep Sleep current (RTCC running with state and RAM retention)
Octal/Quad-SPI memory interface w/ XIP
SD/MMC/SDIO Host Controller
10/100 Ethernet MAC with 802.3az EEE, IEEE1588
Dual CAN 2.0 Bus Controller
Crystal-free low-energy USB
Hardware cryptographic engine supports AES, ECC, SHA, and TRNG
Robust capacitive touch sense
Footprint compatible with select EFM32 packages
5 V tolerant I/O
Mid- and high-tier wearables
IoT devices

Electrical Characteristics

All electrical parameters in all tables are specified under the following conditions, unless stated otherwise:

Typical values are based on T AMB =25 °C and V DD = 3.3 V, by production test and/or technology characterization.
Minimum and maximum values represent the worst conditions across supply voltage, process variation, and operating temperature, unless stated otherwise.

Refer to 4.1.2.1 General Operating Conditions for more details about operational supply and temperature limits.

Absolute Maximum Ratings

Stresses above those listed below may cause permanent damage to the device. This is a stress rating only and functional operation of the devices at those or any other conditions above those indicated in the operation listings of this specification is not implied. Exposure to maximum rating conditions for extended periods may affect device reliability. For more information on the available quality and reliability data, see the Quality and Reliability Monitor Report at http://www.silabs.com/support/quality/pages/default.aspx.

Table 4.1. Absolute Maximum Ratings

Parameter	Symbol	Test Condition	Min	Typ	Max	Unit
Storage temperature range	T STG		-50	-	150	°C
Voltage on supply pins other than VREGI and VBUS	V DDMAX		-0.3	-	3.8	V
Voltage ramp rate on any supply pin	V DDRAMPMAX		-	-	1	V / μs
DC voltage on any GPIO pin	V DIGPIN	5V tolerant GPIO pins 1 2 3	-0.3	-	Min of 5.25 and IOVDD +2	V
DC voltage on any GPIO pin	V DIGPIN	LCD pins 3	-0.3	-	Min of 3.8 and IOVDD +2	V
DC voltage on any GPIO pin	V DIGPIN	Standard GPIO pins	-0.3	-	IOVDD+0.3	V
Total current into VDD power lines	I VDDMAX	Source	-	-	200	mA
Total current into VSS ground lines	I VSSMAX	Sink	-	-	200	mA
Current per I/O pin	I IOMAX	Sink	-	-	50	mA
Current per I/O pin	I IOMAX	Source	-	-	50	mA
Current for all I/O pins	I IOALLMAX	Sink	-	-	200	mA
Current for all I/O pins	I IOALLMAX	Source	-	-	200	mA
Junction temperature	T J	-G grade devices	-40	-	105	°C
Junction temperature	T J	-I grade devices	-40	-	125	°C
Voltage on regulator supply pins VREGI and VBUS	V VREGI		-0.3	-	5.5	V

When a GPIO pin is routed to the analog module through the APORT, the maximum voltage = IOVDD.
Valid for IOVDD in valid operating range or when IOVDD is undriven (high-Z). If IOVDD is connected to a low-impedance source below the valid operating range (e.g. IOVDD shorted to VSS), the pin voltage maximum is IOVDD + 0.3 V, to avoid exceeding the maximum IO current specifications.
To operate above the IOVDD supply rail, over-voltage tolerance must be enabled according to the GPIO_Px_OVTDIS register. Pins with over-voltage tolerance disabled have the same limits as Standard GPIO.

Thermal Information

Table 4.3. Thermal Characteristics

Parameter	Symbol	Test Condition	Min	Typ	Max	Unit
Thermal resistance, QFN64 Package	THETA JA_QFN64	4-Layer PCB, Air velocity = 0 m/s	-	17.8	-	°C/W
Thermal resistance, QFN64 Package		4-Layer PCB, Air velocity = 1 m/s	-	15.4	-	°C/W
Thermal resistance, QFN64 Package		4-Layer PCB, Air velocity = 2 m/s	-	13.8	-	°C/W
Thermal resistance, TQFP64 Package	THE- TA JA_TQFP64	4-Layer PCB, Air velocity = 0 m/s	-	33.9	-	°C/W
Thermal resistance, TQFP64 Package		4-Layer PCB, Air velocity = 1 m/s	-	32.1	-	°C/W
Thermal resistance, TQFP64 Package		4-Layer PCB, Air velocity = 2 m/s	-	30.1	-	°C/W
Thermal resistance, TQFP100 Package	THE- TA JA_TQFP100	4-Layer PCB, Air velocity = 0 m/s	-	44.1	-	°C/W
Thermal resistance, TQFP100 Package		4-Layer PCB, Air velocity = 1 m/s	-	37.7	-	°C/W
Thermal resistance, TQFP100 Package		4-Layer PCB, Air velocity = 2 m/s	-	35.5	-	°C/W
Thermal resistance, BGA112 Package	THE- TA JA_BGA112	4-Layer PCB, Air velocity = 0 m/s	-	42	-	°C/W
Thermal resistance, BGA112 Package		4-Layer PCB, Air velocity = 1 m/s	-	37	-	°C/W
Thermal resistance, BGA112 Package		4-Layer PCB, Air velocity = 2 m/s	-	35.3	-	°C/W
Thermal resistance, BGA120 Package	THE- TA JA_BGA120	4-Layer PCB, Air velocity = 0 m/s	-	47.9	-	°C/W
Thermal resistance, BGA120 Package		4-Layer PCB, Air velocity = 1 m/s	-	41.8	-	°C/W
Thermal resistance, BGA120 Package		4-Layer PCB, Air velocity = 2 m/s	-	39.6	-	°C/W
Thermal resistance, BGA152 Package	THE- TA JA_BGA152	4-Layer PCB, Air velocity = 0 m/s	-	35.7	-	°C/W
Thermal resistance, BGA152 Package		4-Layer PCB, Air velocity = 1 m/s	-	31	-	°C/W
Thermal resistance, BGA152 Package		4-Layer PCB, Air velocity = 2 m/s	-	29.5	-	°C/W
Thermal resistance, BGA192 Package	THE- TA JA_BGA192	4-Layer PCB, Air velocity = 0 m/s	-	47.9	-	°C/W
Thermal resistance, BGA192 Package		4-Layer PCB, Air velocity = 1 m/s	-	41.8	-	°C/W
Thermal resistance, BGA192 Package		4-Layer PCB, Air velocity = 2 m/s	-	39.6	-	°C/W

Package Information

Figure 6.1. BGA192 Package Drawing

Table 6.1. BGA192 Package Dimensions

Dimension	Min	Typ	Max
A	0.77	0.83	0.89
A1	0.13	0.18	0.23
A3	0.16	0.20	0.24
A2	0.45 REF	0.45 REF	0.45 REF
D	7.00 BSC	7.00 BSC	7.00 BSC
e	0.40 BSC	0.40 BSC	0.40 BSC
E	7.00 BSC	7.00 BSC	7.00 BSC
D1	6.00 BSC	6.00 BSC	6.00 BSC
E1	6.00 BSC	6.00 BSC	6.00 BSC
b	0.20	0.25	0.30
aaa	0.10	0.10	0.10
bbb	0.10	0.10	0.10
ddd	0.08	0.08	0.08
eee	0.15	0.15	0.15
fff	0.05	0.05	0.05

All dimensions shown are in millimeters (mm) unless otherwise noted.
Dimensioning and Tolerancing per ANSI Y14.5M-1994.
Recommended card reflow profile is per the JEDEC/IPC J-STD-020 specification for Small Body Components.

Related Variants

The following components are covered by the same datasheet.

Part Number	Manufacturer	Package
EFM32	Silicon Labs	—
EFM32GG11	Silicon Labs	QFN64 (9x9 mm)
EFM32GG11B1XX	Silicon Labs	—
EFM32GG11B3XX	Silicon Labs	—
EFM32GG11B4XX	Silicon Labs	—
EFM32GG11B5XX	Silicon Labs	—
EFM32GG11B820F2048GL192-A	Silicon Labs	192-VFBGA
EFM32GG11B8XX	Silicon Labs	—

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