EFM32-G8XX-STK Energy Micro, EFM32-G8XX-STK Datasheet - Page 8

EFM32-G8XX-STK

Manufacturer Part Number

EFM32-G8XX-STK

Description

KIT STARTER EFM32 GECKO

Manufacturer

Energy Micro

Series

EFM®32r

Type

MCUr

Datasheets

1.EFM32-G840F128-SK.pdf (4 pages)

2.EFM32-G8XX-STK.pdf (3 pages)

3.EFM32-G8XX-STK.pdf (36 pages)

4.EFM32-G8XX-STK.pdf (3 pages)

5.EFM32-G8XX-STK.pdf (3 pages)

6.EFM32-G8XX-STK.pdf (3 pages)

Specifications of EFM32-G8XX-STK

Contents

Board, Cable, CD and Documentation

Processor To Be Evaluated

EFM32G

Data Bus Width

32 bit

Interface Type

JTAG

Maximum Operating Temperature

+ 85 C

Minimum Operating Temperature

- 40 C

Operating Supply Voltage

5 V

Silicon Manufacturer

Energy Micro

Core Architecture

ARM

Core Sub-architecture

Cortex-M3

Silicon Family Name

Gecko

Kit Contents

Board

Features

Real-time, Accurate Energy And Power Profiling, SEGGER

Rohs Compliant

Yes

Silicon Core Number

EFM32

For Use With/related Products

EFM32G290F128

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

914-1003

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

EFM32-G8XX-STK

Manufacturer:

EnergyMi

Quantity:

Current page: 8 of 36
Download datasheet (3Mb)

7 Advanced Energy Monitor

7.1 Usage

7.2 AEM theory of operation

7.3 AEM accuracy and performance

2010-04-09 - REVISION

The AEM data is collected by the board controller and can be displayed by a PC application. For instance,

the "Gecko commander" utility contains a "power" command which can dump power data to file. A GUI

application for displaying power usage will be available for download from the Energy Micro download

section later.

In order to be able to measure currents ranging from 0.1uA to 50mA (114dB dynamic range), two current

sense amplifiers are utilized. The amplifiers measure voltage drop over a small series resistor and

translates this into a current. Each amplifier is adjusted for current measurement in a specific range.

The ranges for the amplifiers overlap and a change between the two occurs when the current is 200uA.

To reduce noise, averaging of the samples is performed before the current measurement is presented

in the AEM GUI.

During startup of the kit, a calibration of the AEM is performed. This calibration compensates for the

offset error in the sense amplifiers.

The Advanced Energy Monitor is capable of measuring currents in the range of 0.1uA to 50mA. For

currents above 200uA, the AEM is accurate within 0.1mA. When measuring currents below 200uA, the

accuracy increases to 1uA. Even though the absolute accuracy is 1uA in the sub 200uA range, the AEM

is able to detect changes in the current consumption as small as 100nA The measurement bandwidth

of the AEM is 60Hz when measuring currents below 200uA and 120Hz when measuring currents above

200uA. The table below summarizes accuracy of the two current sense amplifiers in different ranges.

Table 7.1. AEM accuracy

Note

Current range

50mA

1mA

200uA

10uA

1uA

Having both USB and battery connected may increase the AEM readings.

Preliminary

Low gain amplifier accuracy

0.1mA

0.01mA

...the world's most energy friendly microcontrollers

High gain amplifier accuracy

1uA

0.1uA

www.energymicro.com

EFM32-G8XX-STK Energy Micro, EFM32-G8XX-STK Datasheet - Page 8

EFM32-G8XX-STK

Specifications of EFM32-G8XX-STK

Available stocks

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