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鍨嬭櫉锛�	PIC16LF872-I/SS
寤犲晢锛�	Microchip Technology
鏂囦欢闋佹暩(sh霉)锛�	101/167闋�
鏂囦欢澶у皬锛�	0K
鎻忚堪锛�	IC MCU FLASH 2KX14 EE A/D 28SSOP
鐢�(ch菐n)鍝佸煿瑷�(x霉n)妯″锛�	Asynchronous Stimulus 8-bit PIC® Microcontroller Portfolio
妯�(bi膩o)婧�(zh菙n)鍖呰锛�	47
绯诲垪锛�	PIC® 16F
鏍稿績铏曠悊鍣細	PIC
鑺珨灏哄锛�	8-浣�
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杓稿叆/杓稿嚭鏁�(sh霉)锛�	22
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鍖呰锛�	绠′欢
鐢�(ch菐n)鍝佺洰閷勯爜闈細	639 (CN2011-ZH PDF)

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39

8048C鈥揂VR鈥�02/12

ATtiny43U

As current consumption goes below I

MS (see Figure 8-5) the converter goes from Active Regu-

lated Mode to Active Low Current Mode. After this, the more the load current is decreased the

longer the discharge time of the output capacitor, i.e. the time when the converter is not switch-

ing, will be. Similarly, the charge time, i.e. the time when the converter is switching, will be

shorter. Note that in Active Low Current Mode only the last part of the rising/switching slope is

changed.

Charge time can be minimised by forcing the device into Full Duty Cycle mode of operation (see

鈥淔ull Duty Cycle鈥� on page 40).

When load current increases above I

MS the converter goes back to Active Regulated Mode.

8.3

Output Voltage versus Load Current

The output voltage of the boost converter depends on the amount of load and method of duty

cycle control.

In Active Mode the boost converter operates in one of two sub-modes called (Active) Regulated

Mode and (Active) Low Current Mode. In Regulated Mode the emphasis is on maintaining a sta-

ble output voltage, while in Low Current Mode the emphasis is on minimising current

consumption. The converter always enters Active Regulated Mode at first and switches to Low

Current Mode automatically when required but it is possible to design the application such that

the converter always stays in Active Regulated Mode.

The boost converter goes from Active Regulated Mode to Active Low Current Mode when the

duty cycle reaches its minimum and the output voltage reaches its maximum. At this point the

converter stops switching and the output voltage starts to fall. The converter starts switching

again when the output voltage has fallen to the low limit defined for Low Current Mode. If load

current increases sufficiently the converter will go back from Active Low Current Mode to Active

Regulated Mode. See Figure 20-4 on page 163.

The boost converter goes back to Start Mode if output voltage drops below V

BOOST, and starts

over from Stop Mode if input voltage drops below V

STOP, or when instructed by firmware to do

so.

8.3.1

Active Regulated Mode

This is the default method of operation in Active Mode. The converter will remain in this mode

provided that load current is sufficiently high. See 鈥淎ctive Low Current Mode鈥� on page 40.

In this mode of operation the output voltage is constantly regulated. This means a stable output

voltage with a low amplitude ripple. See Figure 8-6 and Table 20-7 on page 162.

The firmware can instruct the converter to leave this mode and enter Stop Mode. See 鈥淪oftware

Control of Boost Converter鈥� on page 41.

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