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鍨嬭櫉锛� ATMEGA16HVA-4CKU
寤犲晢锛� Atmel
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鐢�(ch菐n)鍝佸煿瑷撴ā濉婏細 MCU Product Line Introduction
megaAVR Introduction
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绯诲垪锛� AVR® ATmega
鏍稿績铏曠悊鍣細 AVR
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閰嶇敤锛� ATSTK600-ND - DEV KIT FOR AVR/AVR32
ATSTK500-ND - PROGRAMMER AVR STARTER KIT
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117
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ATmega8HVA/16HVA
21. Voltage Reference and Temperature Sensor
21.1
Features
Accurate Voltage Reference of 1.100V
Internal Temperature Sensor
Possibility for Runtime Compensation of Temperature Drift in Both Voltage Reference and On-
chip Oscillators
External Decoupling for Optimum Noise Performance
Low Power Consumption
21.2
Overview
A low power band-gap reference provides ATmega8HVA/16HVA with an accurate On-chip volt-
age reference V
REF of 1.100V. This reference voltage is used as reference for the On-chip
Voltage Regulator, the V-ADC and the CC-ADC. The reference to the ADCs uses a buffer with
external decoupling capacitor to enable excellent noise performance with minimum power con-
sumption. The reference voltage V
REF_P/VREF_N to the CC-ADC is scaled to match the full scale
requirement at the current sense input pins. This configuration also enables concurrent opera-
tion of both V-ADC and CC-ADC.
To guarantee ultra low temperature drift after factory calibration, ATmega8HVA/16HVA features
a two-step calibration algorithm. The first step is performed at T
HOT掳C and the second at room
temperature. By default, Atmel factory calibration is performed at T
HOT掳C, and the result is stored
in the signature row. The value of T
HOT can also be found in the signature row. See 鈥漅eading the
Signature Row from Software鈥� on page 144 for details. The customer can easily implement the
second calibration step in their test flow. This requires an accurate input voltage and a stable
room temperature. Temperature drift after this calibration is guaranteed by design and charac-
terization to be less than 90 ppm/
掳C from -10掳C to 70掳C. The BG Calibration C Register can also
be altered runtime to implement temperature compensation in software. Very high accuracy for
any temperature inside the temperature range can thus be achieved at the cost of extra calibra-
tion steps.
ATmega8HVA/16HVA has an On-chip temperature sensor for monitoring the die temperature. A
voltage Proportional-To-Absolute-Temperature, V
PTAT, is generated in the voltage reference cir-
cuit and connected to the multiplexer at the V-ADC input. This temperature sensor can be used
for runtime compensation of temperature drift in both the voltage reference and the On-chip
Oscillator. To get the absolute temperature in degrees Kelvin, the measured V
PTAT voltage must
be scaled with the VPTAT factory calibration value stored in the signature row. See Section
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VE-B30-IY-F1 CONVERTER MOD DC/DC 5V 50W
VJ1825Y123JBCAT4X CAP CER 0.012UF 200V 5% X7R 1825
VJ1825Y123JBEAT4X CAP CER 0.012UF 500V 5% X7R 1825
VJ1825Y183JBCAT4X CAP CER 0.018UF 200V 5% X7R 1825
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